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+Project Gutenberg (https://www.gutenberg.org) public repository for
+eBook #53828 (https://www.gutenberg.org/ebooks/53828)
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-The Project Gutenberg EBook of New York Journal of Pharmacy, Volume 1 (of
-3), 1852, by Various
-
-This eBook is for the use of anyone anywhere in the United States and most
-other parts of the world at no cost and with almost no restrictions
-whatsoever.  You may copy it, give it away or re-use it under the terms of
-the Project Gutenberg License included with this eBook or online at
-www.gutenberg.org.  If you are not located in the United States, you'll have
-to check the laws of the country where you are located before using this ebook.
-
-Title: New York Journal of Pharmacy, Volume 1 (of 3), 1852
-       Published by Authority of the College of Pharmacy of the
-       city of New York.
-
-Author: Various
-
-Editor: Benjamin W. McCready
-
-Release Date: December 29, 2016 [EBook #53828]
-
-Language: English
-
-Character set encoding: UTF-8
-
-*** START OF THIS PROJECT GUTENBERG EBOOK NEW YORK JOURNAL OF PHARMACY, 1852 ***
-
-
-
-
-Produced by Charlene Taylor, Bryan Ness, RichardW, and the
-Online Distributed Proofreading Team at http://www.pgdp.net
-(This book was produced from scanned images of public
-domain material from the Google Books project, and from
-The Internet Archive.)
-
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-
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-
-
-
- NEW YORK
- JOURNAL OF PHARMACY,
-
- PUBLISHED BY AUTHORITY OF
- THE COLLEGE OF PHARMACY OF THE CITY OF NEW YORK,
-
- EDITED BY
- BENJAMIN W. McCREADY, M. D.
- PROFESSOR OF MATERIA MEDICA AND PHARMACY IN THE COLLEGE OF PHARMACY,
-
- ASSISTED BY A PUBLISHING COMMITTEE, CONSISTING OF
-   JOHN H. CURRIE, THOMAS B. MERRICK, EUGENE DUPUY,
-   WM. HEGEMAN, GEORGE D. COGGESHALL.
-
- VOLUME I.
-
- NEW YORK:
- JOSEPH W. HARRISON, PRINTER,
- NO. 197 CENTRE, NEAR CANAL STREET.
-
- 1852.
-
-{1}
-
-
-
-
-NEW YORK
-
-JOURNAL OF PHARMACY.
-
-JANUARY, 1852.
-
-
-TO OUR READERS.
-
-The College of Pharmacy was founded with a view to the elevation of the
-professional standing and scientific attainments of Apothecaries, as
-well as to guard their material interests by raising a barrier against
-ignorance and imposture. What they have accomplished and how far they
-have been successful it does not become the Board of Trustees to state;
-if the results have not, in all respects, been what might be desired,
-it has not arisen from want of earnest effort and honest intention
-on their part. As a further means of benefiting their profession,
-of keeping its members acquainted with the progress it is making at
-home and abroad, and of inspiring among them a spirit of scientific
-inquiry, they believe that the establishment of a Journal, devoted to
-the pursuits and the interests of Apothecaries, would be of the highest
-utility.
-
-By far the wealthiest and most populous city in the Union, New York,
-with its environs, contains several hundred Apothecaries, among whom
-are many of great experience and eminent ability; it contains numerous
-Laboratories where chemicals are manufactured on a large scale, and
-where the appliances and refinements of modern science are compelled
-into the service of commerce; it contains within itself all the means
-of scientific progress, and yet these means lie, for the most part,
-waste and idle; the observations that are made and the processes that
-are invented profit only the observer and the inventor. Both they and
-their consequences—for even apparently trivial observations may contain
-in themselves the germ of important discoveries, and no man can tell
-what fruit they may produce in the minds of others—are lost to the
-world.
-
-New York is the commercial centre of the Union, the point to which our
-products are brought for exportation, and from which various goods, {2}
-obtained from abroad, are distributed to the remainder of the United
-States. It is the chief drug mart of the Union; the source from which
-the largest part of our country draws its supplies of all medicines
-that are not the products of their own immediate vicinities. It is thus
-connected more intimately with the Druggists of a large portion of our
-country than any other city; many visit it annually or oftener; most
-have business relations with it. Is the spirit of trade incompatible
-with that of science? Is money-getting to absorb all our faculties
-to the exclusion of anything nobler or higher? Are we ever to remain
-merely the commercial metropolis of our Union, but to permit science
-and art to centre in more congenial and less busy abodes? Shall we not
-rather attempt to profit by our many advantages, to use the facilities
-thrown in our way by the channels of trade for the diffusion of
-scientific knowledge, and in return avail ourselves of the information
-which may flow into us from the interior?
-
-But it is not alone, we hope, by the information it would impart that a
-Journal such as is contemplated would be useful. A higher and no less
-useful object would be that it would excite a spirit of inquiry and
-emulation among the profession itself; it would encourage observation
-and experiment; it would train our young men to more exact habits of
-scientific inquiry. In diffusing information it would create it, and
-would be doubly happy in being the means of making discoveries it was
-intended to promulgate.
-
-Such are the views which have determined the Trustees of the College
-to publish a Journal of Pharmacy. It will appear on the first day
-of every month, each number containing thirty-two octavo pages. It
-will be devoted exclusively to the interests and pursuits of the
-Druggist and Apothecary. While it is hoped that its pages will present
-everything that is important relating to the scientific progress of
-Pharmacy, it is intended to be mainly practical in its character,
-subserving the daily wants of the Apothecary, and presenting, as far
-as possible, that kind of information which can be turned to immediate
-account, whether it relates to new drugs and formulæ, or improved
-processes, manipulations, and apparatus. Such are the aims and ends
-of the New York Journal of Pharmacy; and the Druggists of New York
-are more particularly appealed to to sustain it, not only by their
-subscriptions, but by contributions from their pens. This last, indeed,
-is urgently pressed upon them; for, unless it receives such aid,
-however successful otherwise, it will fail in one great object for
-which it was originated. When special information is wanted on any {3}
-particular subject, the conductors of the Journal, if in their power,
-will always be happy to afford it.
-
-It is no part of the intention of the College to derive an income from
-the Journal. As soon as the state of the subscription list warrants it,
-it is intended to increase its size so that each number shall contain
-forty-eight instead of thirty-two pages.
-
-
-REPORT OF COMMITTEE OF COLLEGE OF PHARMACY AS AMENDED.
-
-The Committee to whom was referred the subject of the establishment
-of a Journal of Pharmacy in the city of New York, have given their
-attention to the subject, and beg leave to report as follows:
-
-1. That in their opinion it is all important that a Journal of Pharmacy
-should be established in this city as soon as practicable, for reasons
-well known, and therefore unnecessary here to enumerate.
-
-2. They recommend that the first number of a Journal of thirty-two
-octavo pages be issued on the 1st day of January next, and one number
-each month thereafter, to be called the New York Journal of Pharmacy.
-
-3. The general control of the Journal shall be vested in a committee
-of five, which shall review every article intended for publication,
-four of whom shall be elected annually by the Board of Trustees at the
-first stated meeting succeeding the annual election of officers; and a
-committee of the same number shall be now elected, who shall act until
-the next annual election, to be denominated the Publishing Committee.
-The President of the College of Pharmacy shall be “ex officio” a member
-of this Committee, and the whole number of this Committee shall be
-five, two of whom may act.
-
-4. That an Editor be appointed by the Publishing Committee who shall
-attend to all the duties of its publication, and cause to be prepared
-all articles for the Journal, and to have the entire management of it
-under the control and direction of the Publishing Committee.
-
-5. The compensation for the services of the Editor, together with all
-financial matters connected with the Journal, shall be subject to the
-control of the Publishing Committee. {4}
-
-6. The matter to be published in the Journal shall be original
-communications, extracts from foreign and domestic journals, and
-editorials. No matter shall be published except what may relate
-directly or indirectly to the subject of Pharmacy, and the legitimate
-business of Druggists and Apothecaries. No advertisements of nostrums
-shall be admitted.
-
-7. The subscription list shall be kept in the hands of the Publishers,
-subject to the disposal of the Publishing Committee.
-
- (Signed) T. B. MERRICK,
-
- _Chairman_.
-
-The Board then balloted for members of the Publishing Committee, when
-the following were found to be elected.
-
- MESSRS. JNO. H. CURRIE,
-                  THOS. B. MERRICK,
-                  C. B. GUTHRIE,
-                  EUGENE DUPUY,
- with Ex Officio, GEO. D. COGGESHALL,
-                  _President of the College_.
-
-
-ON TWO VARIETIES OF FALSE JALAP.
-
-BY JOHN H. CURRIE.
-
-Two different roots have for some time back been brought to the
-New York market, for the purpose of adulterating or counterfeiting
-the various preparations of Jalap. They differ materially from the
-Mechoacan and other varieties of false Jalap which formerly existed
-in our markets, as described by Wood and Bache in the United States
-Dispensatory, while some of the pieces bear no slight resemblance
-to the true root. The specimens I have been able to procure are so
-imperfect, and so altered by the process of drying, that the botanists
-I have consulted are unable to give any information even as to the
-order to which they belong. I have not been able either to trace
-their commercial history, nor do I know how, under the present able
-administration of the law for the inspection of drugs, they have
-obtained admission to our port. The article or articles, since {5}
-there are at least two of them, come done up in bales like those of
-the true Jalap, and are probably brought from the same port, Vera Cruz.
-
-No. 1 appears to be the rhizome or underground stem of an exogenous
-perennial herb, throwing up at one end each year one or more shoots,
-which after flowering die down to the ground. It comes in pieces
-varying in length from two to five inches, and in thickness from the
-third of an inch to three inches. In some of the pieces the root has
-apparently been split or cut lengthwise; in others, particularly in the
-large pieces, it has been sliced transversely like Colombo root. The
-pieces are somewhat twisted or contorted, corrugated longitudinally
-and externally, varying in color from a yellowish to a dark brown.
-The transverse sections appear as if the rhizome may have been broken
-in pieces at nodes from two to four inches distant from each other,
-and at which the stem was enlarged. Or the same appearance may have
-been caused by the rhizome having been cut into sections of various
-length; and the resinous juice exuding on the cut surfaces, has
-hindered them from contracting to the same extent as the intervening
-part of the root. On the cut or broken surfaces are seen concentric
-circles of woody fibres, the intervening parenchyma being contracted
-and depressed. The fresh broken surfaces of these pieces exhibit in a
-marked manner the concentric layers of woody fibres. The pieces that
-are cut longitudinally, on the other hand, are heavier than those just
-described, though their specific gravity is still not near so great as
-that of genuine Jalap. Their fracture is more uniform, of a greyish
-brown color, and highly resinous.
-
-This variety of false Jalap, when exhausted with alcohol, the tincture
-thus obtained evaporated, and the residuum washed with water, yielded
-from 9 1/2 to 15 1/2 per cent. of resin, the average of ten
-experiments being 13 per cent. Its appearance was strikingly like that
-of Jalap resin. It had a slightly sweetish mucilaginous taste, leaving
-a little acridity, and the odor was faintly jalapine. It resembled
-Jalap resin in being slowly soluble in concentrated sulphuric acid, but
-unlike Jalap resin it was wholly soluble in ether. In a dose of ten
-grains it proved feebly purgative, causing two or three moderate liquid
-stools. Its operation was unattended with griping or other unpleasant
-effect, except a slight feeling of nausea felt about half an hour after
-the extract had been swallowed, and continuing for some time.
-
-This variety of false Jalap is probably used, when ground, for the
-purpose of mixing with and adulterating the powder of true Jalap, or
-is sold {6} for it, or for the purpose of obtaining from it its resin
-or extract, which is sold as genuine resin or extract of Jalap. The
-powder strikingly resembles that of true Jalap, has a faint odor of
-Jalap, but is destitute, to a great extent, of its flavor. The dust,
-too, arising from it, is much less irritating to the air passages.
-
-The second variety is a tuber possibly of an orchidate plant, a good
-deal resembling in shape, color and size, a butternut, (Juglans
-cinerea.) Externally it is black or nearly so, in some places shining
-as if varnished by some resinous exudation, but generally dull, marked
-by deep longitudinal cuts extending almost to the centre of the tubers;
-internally it is yellow or yellowish white, having a somewhat horny
-fracture, and marked in its transverse sections with dots as if from
-sparse, delicate fibres. When first imported the root is comparatively
-soft, but becomes dry and brittle by keeping. Its odor resembles that
-of Jalap, and its taste is nauseous, sweetish, and mucilaginous.
-
-This root contains no resin whatever. Treated with boiling water it
-yields a large amount (75 per cent.) of extract. This is soluble, to
-a great extent, likewise in alcohol. With iodine no blue color is
-produced.
-
-The extract obtained from this drug appears, in ordinary doses,
-perfectly inert, five or ten grains producing, when swallowed, no
-effect whatever. Is this root employed for the purpose of obtaining its
-extract, and is this latter sold as genuine extract of Jalap?
-
-Of the effect which frauds of this kind cannot fail to have on the
-practice of medicine it does not fall within my province to speak, but
-commercially its working is sufficiently obvious. One hundred pounds
-of Jalap at the market price, 60 cents per pound, will cost $60. In
-extracting this there will be employed about $5 worth of alcohol,
-making in all $65. There will be obtained forty pounds of extract,
-costing thus $1 62 1/2 per pound.
-
-One hundred pounds of false Jalap, No. 1, may be obtained for $20;
-admitting the alcohol to cost $5, it will make in all $25. This will
-produce thirty-six pounds of extract, costing rather less than 70 cents
-per pound.
-
-One hundred pounds of variety No. 2 may be had for $20, and no alcohol
-is necessary in obtaining the extract. The yield being seventy-five
-pounds, the extract will cost rather less than twenty-seven cents per
-pound.
-
-{7}
-
-
-VIRGIN SCAMMONY,
-
-WITH SOME REMARKS UPON THE CHARACTERISTICS OF SCAMMONY RESIN.
-
-BY B. W. BULL.
-
-The more extended use in medicine which this substance has acquired
-within a few years, and its consequent greater consumption, render the
-knowledge of its peculiarities and the modes of ascertaining its purity
-doubly important to the druggist and apothecary.
-
-An instance occurred a few weeks since, showing the necessity of
-careful and thorough examination of every parcel of this drug, and
-possessing some interest, from the fact that no description of any
-similar attempt at falsification has, I believe, been before published.
-
-The commercial house with which I am connected, purchased a parcel of
-what purported to be virgin scammony from the importer, who obtained it
-direct from Smyrna. A sample of it was examined and found to contain
-seventy per cent. of resinous matter, but when the whole lot was
-received, it was found to consist evidently of two different grades of
-the article.
-
-The whole of it was composed of amorphous pieces, possessing externally
-a similar appearance. Upon breaking them, however, a manifest
-difference was observable. Some of the pieces possessed the resinous
-fracture, and the other characteristics of virgin scammony, while the
-remainder, which constituted about five eighths of the whole, exposed a
-dull, non-resinous surface when freshly broken.
-
-I selected two samples, each possessing in the highest degree the
-characteristics of the two varieties, and subjected them to the action
-of sulphuric ether with the following results, designating the resinous
-or best No. 1, and the other specimen No. 2:―
-
-                                           No. 1.    No. 2.
- Specific gravity                          1,143     1,3935
-
-                                         Per cent.  Per cent.
- Resinous matter and water                 94.35      49.86
- Vegetable substance insoluble in ether     3.20      45.16
- Inorganic matter                           2.45       4.98
-                                            ────       ────
-                                          100.00     100.00
-
-{8}
-
-The vegetable substance in No. 2 was principally, if not entirely,
-farinaceous or starchy matter, of which the other contained not a
-trace. The result shows that this parcel of scammony was composed
-partly of true virgin scammony mixed with that of an inferior quality;
-and also indicates the necessity of examining the whole of every
-parcel, and of not trusting to the favorable result of the examination
-of a mere sample.
-
-The powder in the two specimens was very similar in shade, and they
-possessed in about the same degree the odor peculiar to the substance,
-showing the fallacy of relying upon this as a means of judging of
-the comparative goodness of different samples. This fact may appear
-anomalous, but on different occasions the powder of No. 2 was selected
-as having the most decided scammony odor.
-
-Since examining the above, I have had an opportunity of experimenting
-upon a portion of scammony imported from Trieste as the true Aleppo
-scammony, of which there are exported from Aleppo not more than from
-two hundred and fifty to three hundred pounds annually.
-
-The parcel consisted of a sample of one pound only, which was obtained
-from a druggist of respectability in that place by one of my partners,
-who was assured that the sample in question was from the above source,
-and the kind above alluded to. This scammony was in somewhat flattish
-pieces, covered externally with a thin coating of chalk in which it
-had been rolled, the structure was uniformly compact, the color of the
-fracture greenish, and it possessed in a high degree the caseous odor.
-
-The fracture was unusually sensitive to the action of moisture. By
-merely breathing upon a freshly exposed surface, a film resembling the
-bloom upon fruit was at once perceived. Its specific gravity was 1,209,
-which, it will be observed, approximates with unusual accuracy to that
-given by Pereira as the specific gravity of true scammony, viz. 1,210.
-It contained―
-
- Resinous matter and water                89.53 per cent.
- Vegetable substance insoluble in ether    7.55 per cent.
- Inorganic matter                          2.92 per cent.
-
-There was no starchy matter present in the portion examined.
-
-The mode of deciding upon the value or goodness of different samples
-of scammony, by ascertaining the amount of matter soluble in sulphuric
-ether, has seemed to me productive of a negative result in showing
-{9} how much non-resinous matter was present, rather than a certain
-method of ascertaining the actual amount of scammony resin present; but
-some experiments upon the resinous residuum lead to a more favorable
-conclusion.
-
-The results of the analyses made by Johnston, who seems to be the only
-chemist who has paid any attention to its ultimate composition, show
-that it varies in composition materially from many other resins.
-
- According to his analyses, as contained
-     in Löwig, it has the formula           C‗{40} H‗{33} O‗{8}
- While that of Guaiac resin is              C‗{40} H‗{23} O‗{10}
- Of Colophony                               C‗{40} H‗{30} O‗{4}
-
-Or expressed in per cents:―
-
-                        Scammony.   Guaiac.   Colophony.
- Carbon                  56.08       70.37       79.81
- Hydrogen                 7.93        6.60        9.77
- Oxygen                  35.99       23.03       10.42
-                        ──────      ──────      ──────
-                        100.00      100.00      100.00
-
-The resin analysed by Johnston was obtained by evaporating the
-alcoholic solution, and he describes it as opaque, pale yellow, hard,
-and brittle; when obtained, however, by evaporating the ethereal
-solution I have found it transparent.
-
-It might be inferred that, with a composition so different from that
-of the substances above adduced, its behavior with re-agents would be
-different from theirs; and its action with strong acids confirms the
-supposition, as may be seen by reference to the appended papers from a
-late number of the Paris Journal of Pharmacy.
-
-The Edinburgh Pharmacopœia has an extract of scammony among its
-officinal preparations, prepared by treating scammony with proof
-spirit, and evaporating the solution. It is described as of a dirty
-greenish brown color. This color, however, is not a necessary
-accompaniment, but is owing either to some coloring matter being
-dissolved in the menstruum or to the partial oxydation of the dissolved
-substance under the influence of the air and the heat of the operation.
-
-The ethereal solution of scammony resin, when gradually evaporated, and
-without exposure to heat, leaves a colorless or amber-colored resin,
-perfectly transparent and soluble in alcohol; when heated, however,
-{10} during the operation, more or less insoluble matter of a dark
-color is found. Sometimes the ethereal solution, when spontaneously
-evaporated, leaves a dark residuum, but a second solution and
-evaporation leave it as above described.
-
-This product, obtained from several different parcels of virgin
-scammony, I have considered free from admixture with any of the
-substances with which scammony is said to be adulterated, and from the
-similarity of their behavior, and, as the circumstances under which the
-sample from Trieste above alluded to was obtained are such as to make
-its genuineness very certain, feel warranted in so doing.
-
-Sulphuric acid does not immediately decompose it, but produces the
-effect described by M. Thorel.
-
-Nitric acid produces no discoloration, nor does hydrochloric acid
-immediately.
-
-If scammony should be adulterated with colophony, sulphuric acid would
-be a very ready method of detection, though it would seem that this
-substance would hardly be resorted to, unless an entirely new mode of
-sophisticating the article should be adopted abroad.
-
-The introduction of farinaceous substances and chalk is effected
-while the scammony is in a soft condition, in which state it would be
-difficult to incorporate colophony completely with the mass.
-
-An admixture of resin of guaiac is also detected by the same agent, a
-fact which seems to have escaped observation.
-
-When brought in contact with sulphuric acid, resin of guaiac
-immediately assumes a deep crimson hue, and this reaction is so
-distinct that a proportion of not more than four or five per cent. is
-readily detected.
-
-The deep red mixture of sulphuric acid with resin of guaiac becomes
-green when diluted with water, a remarkable change, which adds to the
-efficacy of the test. Scammony resin, on the contrary, suffers no
-alteration by dilution.
-
-In addition, nitric acid affords a ready mode of ascertaining the
-presence of resin of guaiac. It is well known that nitric acid, when
-mixed with an alcoholic solution of guaiac, causes a deep green color,
-which soon passes into brown, or if the solution is dilute, into yellow.
-
-This reaction is manifest when scammony resin is mixed with guaiac
-resin in the proportion above mentioned, though the greenish blue tinge
-is then very transient, and sometimes not readily perceived.
-
-Chloride of soda is a delicate test for the presence of guaiac resin.
-{11} Added to an alcoholic solution, a beautiful green color appears,
-while it produces no effect on scammony resin. This reaction is very
-evident, though transient, when a very small proportion of guaiac
-is present. Nitrate of silver causes a blue color in a solution of
-guaiac resin, as does also sesqui-chloride of iron, neither of which
-agents affects the color of a solution of scammony resin. In fact, the
-evidences of the presence of guaiac are so numerous and distinct that
-there can be no possibility of an undetected adulteration with this
-substance.
-
-The high price of resin of jalap would seem to be sufficient to
-prevent its being resorted to as a means of sophisticating scammony;
-but in case this substance should be made use of, the method proposed
-for detecting it by means of ether is defective, since, according to
-authorities, resin of jalap is partially soluble in that substance.
-
-It becomes of interest to know whether in the preparation of scammony
-the juice of the plant from which it is obtained is ever mixed with
-that of other plants of similar properties, or with that of plants
-destitute of efficacy. This information can, of course, only be
-furnished by those familiar with the localities and with the mode of
-its preparation.
-
- [1]“In advancing the opinion that scammony should only be employed
- for therapeutic purposes in the state of resin, I mean that this resin
- should only be prepared by the apothecary himself. When, however, it
- is impossible for the apothecary to do so, and the commercial article
- is in consequence resorted to, there arises a liability to deception.
- We must then be enabled to recognise its purity.
-
- To avoid detection of the fraud, the admixture must either be in small
- quantity, or it must possess nearly the same action. In this latter
- case, resin of jalap would be employed as being less in price and
- nearly as active.
-
- The method I propose for detecting an adulteration of this nature, in
- case it should be attempted, is based on the one side upon the entire
- insolubility of resin of jalap in rectified sulphuric ether, and on
- the other, upon the solubility of scammony resin in this liquid.
- Nothing is easier than the detection of a mixture of these two resins,
- since eight grammes of ether dissolve completely ten centigrammes of
- scammony resin. {12}
-
- Thus by agitating for a short time a mixture of twenty centigrammes of
- suspected resin with sixteen grammes of sulphuric ether, we shall be
- certain of the presence of resin of jalap, provided there is no other
- admixture, if a portion remains undissolved. This undissolved portion,
- dried and weighed, gives the proportion of the two resins.
-
- Other more culpable sophistications may be attempted, either by
- the addition of resin of guaiac, or by that of colophony or other
- substances.
-
- The resin of guaiac may easily be detected by means of the solution
- of gum, which I have specified as one of the most certain re-agents
- (Repertoire du Pharmacien, vol. iv., 1848), or by the means of nitrous
- gas, or bichloride of mercury.
-
- Many re-agents disclose the presence of common resin or of pitch in
- the resin of scammony. First, spirits of turpentine, which dissolves
- the common resin at the ordinary temperature, and which leaves
- scammony resin almost untouched. The most certain re-agent, however,
- in my opinion, is sulphuric acid. This acid possesses the property of
- dissolving many resins—modifying their composition more or less.
-
- Thus, if a small quantity is poured on common resin, an intense
- red color is produced by contact; poured on scammony resin, on the
- contrary, it does not produce an immediate change; only after some
- minutes, and with exposure to the air, does it become colored, and
- then but feebly, with the production of a color resembling the lees of
- wine, while in the first case the color is a very deep scarlet.
-
- By this method one twentieth part of colophony may be detected in
- scammony resin. It is sufficient to pour upon twenty-five or thirty
- centigrammes of resin, placed in a glass or porcelain mortar, four
- or five grammes of commercial sulphuric acid, and to give one or two
- turns of the pestle; if colophony is present, the mixture will redden
- immediately upon contact; if, on the contrary, it is pure, the liquid
- will only become colored after the lapse of some time.
-
- Colophony being more soluble in sulphuric acid is acted upon with more
- rapidity.”
-
- [2]“Scammony resin obtained by alcohol of 86 degrees occurs in form
- of powder or in thin transparent scales, if the alcoholic solution has
- been evaporated on a stove upon plates, or upon sheets of tin. {13}
-
- It is characterized by the peculiar odor of the substance from which
- it is obtained, the _odeur de brioche_, or of rancid butter.
-
- If scammony resin has been mixed with one twentieth of common resin,
- trituration in a mortar developes the odor of the latter to a
- sufficient degree to cause detection of the fraud. Heated in a tube,
- a peculiar odor manifests itself with sufficient distinctness to
- indicate its purity.
-
- This pure resin is soluble in all proportions in ether of 56 degrees
- (·752). This property affords a means of purifying it, by means of
- which it is obtained in thin flakes, by exposure to the air on plates.
-
- Solution of ammonia at 24 degrees (·910) dissolves scammony resin
- completely. The solution has a more or less green color. These
- different properties, which the resin of scammony, obtained
- by alcohol, possesses, are sufficiently distinct to assist in
- distinguishing it from other resins or to establish its purity.”
-
- _December, 1851._
-
-[1] Methods for detecting Resin of Jalap, Resin of Guaiac, and
-Colophony, in Resin of Scammony. By MR. THOREL.—_From the Journal de
-Pharmacie et de Chimie, for Nov. 1851._
-
-[2] Note by MR. DUBLANC.—_From the Journal de Pharmacie et de Chimie,
-Nov. 1851._
-
-
-ON THE PREPARATION OF STRAMONIUM OINTMENT.
-
-BY EUGENE DUPUY, PHARMACEUTIST, NEW YORK CITY.
-
-The powerful narcotic and sedative properties of the Datura stramonium;
-added to the fact of its luxuriant growth in the vacant grounds of the
-inhabited districts of the United States, has made its use popular
-with most of our practising physicians. Besides its use smoked as
-tobacco in asthmatic cases, its properties analogous to those of
-hyosciamus and belladonna, have enabled practitioners to use it
-with success for producing dilatation of the pupil and in anodyne
-fomentations. In fact, the consequence of its demonstrated efficient
-activity as a remedial agent, has prompted its adoption in the United
-States Pharmacopœia, where the leaves and seeds are recognised, and
-the Tincture, Extract, and Ointment are officinal. According to our
-Pharmacopœia, last edition, to prepare the ointment, one drachm of
-the extract of stramonium is mixed to the proportion of one ounce of
-lard. Such a mixture, though possibly as effectual as need be, lacks
-the green color and homogeneity to which both patients and physicians
-have been accustomed. To remedy these objections, I have found the
-{14} following process to give a good preparation both in quality
-and appearance. I am inclined to think that the objections which have
-been made to the former officinal ointment are chiefly ascribable to
-the difficulty of obtaining readily an ointment which would keep one
-year, that is free from water of vegetation or not impaired by a too
-protracted ebullition, and consequent decomposition, which deprives it
-of its properties, spoiling its appearance, and giving it an unpleasant
-pyrogenous odor, which shows the extent of the alteration it has
-undergone, making of it an irritating rather than a soothing unguent.
-In the process I now submit to the opinion of the profession, I had
-in view, 1st. To obtain at all seasons an ointment fulfilling the
-reasonable expectations of practitioners; 2d. Which could be easily
-prepared by competent Pharmaceutists throughout the United States. It
-is as follows:
-
- Stramonium Leaves,    half a pound.
- Alcohol at 95°,       a sufficient quantity.
- Prepared lard,        fourteen ounces.
-
-Moisten the leaves, previously reduced to a coarse powder, with
-sufficient alcohol, in a tight vessel having a suitable cover; melt
-the lard in a pan three times in capacity to the bulk of the lard, and
-stir in it gradually the prepared stramonium; keep the mixture in a
-warm place for five hours, stirring occasionally, till the alcohol has
-disappeared from the ointment, which may be ascertained by placing a
-lighted match on the surface of the warm ointment just stirred. Filter
-the mixture through flannel, in an appropriate vessel. The stramonium
-ointment thus prepared is a reliable preparation, possessed of a
-handsome green color, a rather pleasant herbaceous odor, and forms a
-homogeneous mass containing all the valuable constituents of the Datura
-stramonium, if the leaves have been gathered while the plant is in bud,
-and properly preserved. For the warm days of summer the substitution
-of two ounces of beeswax for the same quantity of lard gives it the
-consistence which it has at the low temperature of the remaining
-seasons.
-
-{15}
-
-
-COMPOUND FLUID EXTRACT OF SENNA AND DANDELION.
-
-BY EUGENE DUPUY, PHARMACEUTIST, NEW YORK CITY.
-
- Senna (officinal),                  two pounds.
- Torrefied Dandelion Root,           one pound.
- Chamomile,                          quarter of a pound.
- Sugar,                              twenty ounces.
- Carbonate of Potash or Soda,        one ounce.
- Oil of Gaultheria,                  half a drachm.
- Alcohol,                            two ounces.
- Water,                              half a gallon.
-
-Mix the dry plants, previously reduced to a coarse powder, with the
-water holding the alkaline carbonate in solution; let the mixture stand
-twelve hours; introduce it in a percolator, and gradually pour in water
-until a gallon of liquid shall have passed; evaporate it to twenty
-ounces by means of a water bath, then add the sugar, filter, and make
-the addition of the alcoholic solution of gaultheria when cold. By
-following this process, I believe that a kind of saponification takes
-place, which allows of the more ready solution of the active principle
-of the senna in the aqueous vehicle, probably because chlorophylle
-being united to a dried essential oil, participating in the properties
-of resins, is rendered soluble, and the extractive portion being
-denuded of its resinoid covering, is more readily extracted by
-the percolating liquid. I make use of a percolator possessed of a
-convenient hydraulic power; it has rendered readily, within thirty
-hours, a highly saturated liquid, containing in a gallon all the
-soluble principles of this extract. Ordinary percolators will answer
-also; but the ingredients needing to be more loosely packed, do not
-yield so fully or so readily. The addition of torrefied dandelion root
-is intended to give to this fluid extract some greater value on account
-of its peculiar action on the hepatic system. I employ in preference
-the German chamomile (Camomila vulgaris[3]), because of its pleasant
-aroma and its carminative properties, joined to a bitter principle,
-which seems to increase the purgative effect of the senna.
-
-[3] Matricaria.
-
-This extract has become a favorite anti-bilious purgative with many of
-{16} our practitioners, who, some of them at least, have used it with
-success with children, who can take it readily, as well as for adults,
-where an anti-bilious purgative is desirable, seldom producing pain or
-nausea, and not liable to induce constipation.
-
-
-ACCIDENTS CAUSED BY A VERY SMALL DOSE OF SANTONINE GIVEN TO A CHILD.
-
-Santonine, being a tasteless vermifuge, is easily given to children,
-consequently its employment becomes daily more and more frequent; we
-therefore think it useful to expose the accidents which may follow
-the use of this medicine, when given in too large a dose. We refer
-to a case given in the Bulletin de Thérapeutique, by Dr. Spengler
-(d’Herborn). The patient, a child of four years old, who had been
-suffering for several months from intestinal worms, had taken at
-different times, and with success, a dose of a grain and a half. One
-day they gave him three grains in two doses; after the first dose he
-became troubled with pains in the epigastrium, colic, and vomiting.
-He had frequent stools, in which were found a number of ascarides.
-Notwithstanding these numerous evacuations, the bad symptoms continued
-to increase; his body became cold, his face livid, his eyes had a blue
-circle round them, a cold sweat broke out, his respiration became
-embarrassed, and his extremities convulsed. Besides these symptoms,
-M. Spengler mentions that there were dilatation of the pupils and
-great pain in the abdomen (not, however, increased by pressure). He
-prescribed milk in abundance, and after several evacuations, the potion
-of Rivière in an oily emulsion. The little patient was placed in a very
-warm bed; during the night he was much disturbed; the following day he
-took some doses of calomel, after which several worms were evacuated,
-and from that time he became convalescent. We have related this fact
-as a caution against the accidents which may result from the use of
-santonine, although the severity of the symptoms and the smallness
-of the dose may make us doubt whether the santonine was pure, or
-whether some other cause might not have produced the terrible results
-attributed to it.—_Journal de Pharmacie et Chimie._
-
-{17}
-
-
-ON POISONING BY NICOTINE.
-
-_Read before the National Academy of Medicine._
-
-BY M. ORFILA.
-
-GENTLEMEN,—In laying before the Academy a memoir on Nicotine, on the
-20th of last month, I stated that I did not think I ought to read it,
-fearing that it might exercise some influence on the proceedings which
-were to take place at Mons, eight days afterwards. My scruples are now
-entirely removed, because I was present at the three first sittings of
-the Court of Assizes at Hainault, and have heard the examination of
-the accused persons, and the depositions of some of the witnesses. My
-memoir, supposing it to be published to-morrow, and consequently much
-before the sentence will have been pronounced, will not aggravate the
-situation of the accused, nor increase the power of the ministers of
-justice. You will see, in fact, that after describing nicotine, I came
-to the conclusion, that it may be easily detected in the digestive
-canal, the liver, the lungs, and all those organs into which it has
-been carried after its absorption. Now, M. de Bocarmé confesses that
-he prepared some nicotine, that Gustave Fougnies took an appreciable
-dose of it, and died very shortly afterwards. Consequently, he cannot
-dispute the fact of M. Stas having found this alkaloid in the body of
-his brother-in-law. It is of little importance to us that Madame de
-Bocarmé accuses her husband of being the author of the crime, whilst
-he, on the other hand, attributes the death of Gustave to a mistake
-of his wife’s, who might inadvertently have poured the nicotine into
-a glass instead of wine. It will be for the jury to decide what truth
-there is in these assertions; as scientific men, we ought to confine
-ourselves in this case to the solution of the chemical and medical
-problems relating to this subject.
-
-I think I ought to read to the Academy the textual memoir, without
-the preamble, which I composed a fortnight ago, when the principal
-circumstances, which have since been developed, were but imperfectly
-known.
-
-The principal object of this paper is to show:―
-
-1. That we may characterize pure nicotine as easily as we can a poison
-derived from the mineral kingdom.
-
-2. That we may detect this alkali in the digestive canal, and assert
-its existence there, although it is present only to the extent of a few
-drops. {18}
-
-3. That it is sufficiently easy to prove its presence in the liver and
-the other organs, after it has been absorbed.
-
-1. _Pure Nicotine may be characterised as easily as a Poison derived
-from the Mineral Kingdom._—Nicotine, discovered in 1809 by the
-illustrious Vauquelin, was studied in 1828 by Messrs. Posselt and
-Reimann, who found it in different species of nicotiana, in macrophylla
-rustica, and glutinosa. Messrs. Boutron, Charlard, and Henry described
-some of its properties in 1836. Havanna tobacco contains two per cent.,
-that of Maryland 2·3, that of Virginia 6·9, that of Alsace 3·2, that
-of Pas-de-Calais 4·9, that of the Nord 6·6, and that of Lot 8. It is
-classed among the _natural volatile_ vegetable alkalies, which are only
-three in number, namely, _conicine_, _theobromine_, and _nicotine_.
-This last is entirely composed of hydrogen, carbon, and nitrogen. It
-may be represented as a compound of one equivalent of ammonia (H‗{3}N),
-and of one of a hydro-carbon containing four equivalents of hydrogen
-and ten of carbon (H‗{4}C‗{10}). It is now obtained by a much more
-simple process than was formerly adopted, which consists in passing the
-vapor of tobacco into water acidulated with sulphuric acid. Sulphate
-of nicotine is thus speedily produced, and this has to be decomposed
-by a strong alkali. It is then only necessary to apply sufficient heat
-to volatilize the nicotine. This mode of preparation indicates that
-smokers in respiring the smoke of tobacco introduce into their bodies a
-certain quantity of the vapor of nicotine.
-
-_Characters of pure Nicotine._—It is in the form of an oleaginous,
-transparent, colorless, tolerably fluid, anhydrous liquid, of the
-density of 1·048, becoming slightly yellow with keeping, and tending
-to become brown and thick from contact with the air from which it
-absorbs oxygen; its acrid odor resembles but slightly that of tobacco;
-its taste is very burning. It volatilizes at 77° F., and leaves a
-carbonaceous residue. The vapor which rises presents such a powerful
-smell of tobacco, and is so irritating, that it is difficult to
-breathe in a room in which one drop of it has been spilt. If this
-vapor be approached with a lighted taper, it burns with a white smoky
-flame, and leaves a carbonaceous residue as an essential oil would
-do. It _strongly blues_ reddened litmus paper. _It is very soluble in
-water_, in alcohols, and in fat oils, as also in _ether_, which easily
-separates it from an aqueous solution. The great solubility of nicotine
-in both water and ether forms an important fact in its chemical
-history, as the greater number of vegetable alkalies, not to say all,
-if they dissolve easily in one of these liquids, are not readily
-soluble in the other. {19}
-
-Nicotine combines directly with acids, disengaging heat. Concentrated
-pure sulphuric acid, without heat, produces with it a wine-red color;
-on the application of heat to this it becomes thick, and acquires the
-color of the dregs of wine; if it be boiled it blackens and disengages
-sulphurous acid. With cold hydrochloric acid it disengages white
-vapors as ammonia does; if the mixture be heated it acquires a violet
-color, the intensity of which increases with prolonged ebullition.
-Nitric acid, aided with a little heat, imparts to it an orange-yellow
-color, and white vapors of nitric acid are first given off, then red
-vapors of hyponitrous acid. If it be further heated the liquor becomes
-yellow, and by ebullition it acquires a red color resembling that of
-chloride of platinum. Prolonged ebullition gives a black mass. Heated
-with stearic acid it dissolves and forms a soap, which congeals on
-cooling, and is slightly soluble in water, and very soluble in heated
-ether. The simple salts of nicotine are deliquescent, and difficultly
-crystallizable. The double salts which it yields with the different
-metallic oxides crystallize better.
-
-The aqueous solution of nicotine is colorless, transparent, and
-strongly alkaline. It acts like ammonia on several reagents; thus,
-it gives a white precipitate with bichloride of mercury, acetate of
-lead, protochloride and bichloride of tin; a canary yellow precipitate
-with chloride of platinum, which precipitate is soluble in water; a
-white precipitate with salts of zinc, which is soluble in excess of
-nicotine; a blue precipitate with acetate of copper. This precipitate
-is gelatinous and soluble in excess of nicotine, forming a blue double
-acetate, similar to that formed by ammonia with the same salt. It
-gives an ochre-yellow precipitate with salts of the sesqui-oxide of
-iron, insoluble in excess of nicotine. With sulphate of protoxide of
-manganese it gives a white precipitate of oxide, which speedily becomes
-brown by contact with the oxygen of the air. It separates the green
-sesqui-oxide from the salts of chromium. The red permanganate of potash
-is instantly decolorized by nicotine, as by ammonia, although this
-latter alkali acts more slowly and must be used in larger proportion.
-
-The following reactions may serve to distinguish the aqueous solutions
-of nicotine from ammonia. Chloride of gold yields a reddish-yellow
-precipitate, _very soluble in an excess of nicotine_. Chloride of
-cobalt yields a blue precipitate, which changes to green; the oxide
-thus formed does not readily dissolve in excess of nicotine, whilst
-ammonia dissolves the green precipitate and forms a red solution.
-Aqueous solution of iodine gives a yellow precipitate with solution
-of nicotine, as chloride of platinum would {20} do; with an excess
-of nicotine it acquires a straw color, and it is decolorized by the
-action of heat. Ammonia, on the contrary, immediately decolorizes the
-aqueous solution of iodine without rendering it turbid. Pure tannic
-acid gives with nicotine an abundant white precipitate. Ammonia gives
-no precipitate, but imparts a red color.[4]
-
-[4] It is interesting to compare the physical and chemical properties
-of nicotine with those of conicine.
-
-Conicine is yellow; _its smell resembles that of the urine of the
-mouse_, and differs entirely from that of nicotine; it strongly blues
-reddened litmus paper. Added to water and shaken with it, it floats on
-the surface and is not readily dissolved. Ether dissolves it easily.
-When heated in a capsule it forms white vapors, _having a strong smell
-of celery mixed with that of the urine of the mouse_. Weak tincture of
-the iodine yields a white precipitate, which acquires an olive color
-with excess of the tincture. Pure and concentrated sulphuric acid _does
-not alter it_; when the mixture is heated it acquires a greenish brown
-color, and if the heat be continued it becomes blood-red and afterwards
-black. Nitric acid imparts to it a _topaz color_, which is not changed
-by the action of heat. Hydrochloric acid yields white vapors as ammonia
-does, and renders it violet, especially when heated. Tannic acid gives
-a white precipitate, and chloride of platinum a yellow precipitate.
-The red permanganate of potash is immediately decolorized. Corrosive
-sublimate yields a white precipitate. Acetate of copper gives a
-gelatinous blue precipitate, less soluble in an excess of conicine than
-is that formed with nicotine. Chloride of cobalt behaves with it as it
-does with nicotine. Chloride of gold gives a light yellow precipitate.
-_Neutral acetate of lead does not give any precipitate_; neither does
-the subacetate. Chloride of zinc gives a white gelatinous precipitate
-soluble in excess of the conicine. Sulphate of sesquioxide of iron
-gives a yellow precipitate. The words in italics indicate the means of
-distinguishing conicine from nicotine.
-
-If to these chemical characters which permit one so easily to
-distinguish nicotine, we add those resulting from the action which
-it exercises on the animal economy, it will no longer be possible to
-confound it with any other body. The following are the results of the
-experiments I undertook in 1842 on this alkali, and which I published
-in 1843. (See the 4th edition of my work on Toxicology.)
-
-_First Experiment._—I applied three drops of nicotine on the tongue
-of a small but sufficiently robust dog; immediately afterwards, the
-animal became giddy, and voided urine; at the end of a minute, its
-breathing was quick and panting. This state lasted for forty seconds,
-and then the animal fell on its right side, and appeared intoxicated.
-Far from showing any stiffness or convulsions, it was feeble and
-flabby, although the fore paws slightly trembled. Five minutes after
-the administration of the {21} poison, he uttered plaintive cries, and
-slightly stiffened his neck, carrying his head slightly backwards. The
-pupils were excessively dilated; the respiration was calm, and in no
-way accelerated. This state lasted ten minutes, during which the animal
-was not able to stand. From this time the effects appeared to diminish,
-and soon after it might have been predicted that they would speedily
-disappear entirely. Next day, the animal was quite well. The nicotine I
-used was evidently not anhydrous.
-
-_Second Experiment._—I repeated the experiment with five drops of
-nicotine on a dog of the same description. The animal showed the same
-effects, and died at the end of ten minutes, although during four
-minutes he showed slight convulsive movements.
-
-_Opening of the Body the day following._—The membranes of the brain
-were slightly injected, and the superficial vessels were gorged with
-blood; this injection was especially observed on the left side, and
-in the lower part of the brain. The brain itself of the ordinary
-consistence, had the two substances of which it is composed, slightly
-disintegrated, the striated substance was much injected, as well as
-the _pons varolii_. The membranes which envelope the cerebellum were
-still more injected than the other parts. Between the first and second
-cervical vertebræ on the right side, that is, on the side on which the
-animal fell, there was a rather considerable effusion of blood. The
-lungs appeared to be in their natural state. The heart, the vessels
-of which were gorged with blood, was greatly distended, especially
-on the right side, with clots of blood; the auricles and the right
-ventricle containing much, and the left ventricle none. The superior
-and inferior _vena cava_, and the aorta, were equally distended with
-clots of semi-fluid blood. The tongue was corroded along the middle
-line, and towards the posterior part, where the epithelium separated
-with facility. In the interior of the stomach there were found a black
-pitchy matter and a bloody liquid, which appeared to have resulted from
-an exudation of blood. The duodenum was inflamed in patches; the rest
-of the intestinal canal appeared in a healthy state.
-
-Since the above period I have made the following experiments, which
-I have frequently repeated with the same results, only that in some
-cases I have found the blood contained in the cavities of the heart in
-a fluid state, even when proceeding to dissection immediately after
-death; nevertheless the blood speedily coagulated.
-
-_Third Experiment._—At eleven o’clock I administered, to a dog of
-moderate size, twelve drops of nicotine. A few instants afterwards {22}
-giddiness came on, and _he fell on the right side_; he soon manifested
-convulsive movements, slightly at first, then sufficiently strong to
-constitute a tetanic fit with opisthotonos; he was in a remarkable
-state of drowsiness, and uttered no cry. His pupils were dilated; there
-was no action of the bowels, nor vomiting. He died at two minutes after
-eleven. The body was immediately opened. The abdomen and thorax, on
-being cut open, _sometimes_ emitted a very decided smell of tobacco.
-The heart contained a considerable quantity of _black coagulated_
-blood. There was more in the right auricle and ventricle than in the
-left. The lungs appeared in a normal state. The stomach contained
-about forty grammes of a thick, yellow, slimy liquid; and here and
-there parts of the mucous membrane were inflamed. The œsophagus, the
-intestines, the liver, the spleen, and the kidneys, were in a normal
-state. The epithelium was easily detached from the tongue; the base of
-this organ was red and slightly excoriated. The brain was more injected
-than its enveloping membranes; the _pons varolii_ was the same as in
-the second experiment.
-
-_Fourth Experiment._—I applied on the eye of a dog of moderate size one
-drop of nicotine; the animal instantly became giddy and weak in its
-limbs; a minute afterwards he fell on his right side and manifested
-convulsive fits, which became more and more powerful; the head was
-thrown back. At the end of two minutes the convulsions ceased, and
-extreme weakness ensued. Five minutes afterwards the animal could
-stand, but was unable to walk. Ten minutes later he was in the same
-state without having vomited or had any action of the bowels. Urged to
-walk, he made a few undecided steps, then vomited about one hundred
-grammes of a greyish alimentary paste. At the end of half an hour he
-was in the same state. It was evident that he was recovering. The
-conjunctiva was sensibly inflamed, and the transparent cornea was, to a
-great extent, opaque.
-
-2. _We may detect nicotine in the digestive canal, and affirm its
-existence there, although it may be only present to the extent of a few
-drops._ I would call the particular attention of the Academy to this
-paragraph; I have never, in the course of my numerous experiments, seen
-animals whose death has been almost instantaneous, either vomit or have
-any action of the bowels.[5] If it be the same with man, as everything
-tends to prove it is, the Chemist will, under such circumstances, be in
-the most favorable {23} condition for detecting the poison, as there
-will most frequently be a sufficient quantity in the canal to determine
-its presence.
-
-[5] If life is prolonged the animals vomit.
-
-Before describing the two processes to which I had recourse for the
-determining the existence of nicotine in the stomach and intestines, as
-well as in the œsophagus, it may be observed that I acted separately
-on the liquid and solid matters contained in these organs, and on the
-organs themselves.
-
-_First Process._—The contents of the stomach and intestines, or the
-organs themselves, are placed in a considerable proportion of sulphuric
-ether; after twelve hours of maceration, it is to be filtered; the
-ether passes through, holding nicotine in solution; most frequently
-when the matters on which the ether has acted are fatty, the ether
-holds in solution a soap composed of nicotine and one or several fatty
-acids; it may also happen that it contains non-saponified nicotine.
-The ethereal liquid is evaporated almost to dryness by very gentle
-heat. The greasy and soapy product obtained rarely shows any alkaline
-reaction. It is to be agitated, without heat, with caustic soda
-dissolved in water, to decompose the soap and set free the nicotine.
-The whole is then to be put into a retort furnished with a receiver
-plunged in cold water, and heat applied to the retort until no more
-liquid remains in it. The liquid condensed in the receiver contains
-either all, or at least a large proportion of the nicotine. It is well
-to know that, 1st, when heat is applied to the retort, the matter
-froths, augments in volume, and would certainly pass into the receiver,
-if the retort was not very large in relation to the quantity of liquid
-operated upon; 2ndly, even at a temperature of 212° Fahr., the vapor
-of water carries with it a certain quantity of nicotine, therefore the
-operation should be carried on as much as possible in close vessels.
-If these precautions be observed, the distilled liquid will be limpid
-and colorless; it suffices then to concentrate it over a water-bath,
-to about a sixth of its volume, to obtain with it all the reactions of
-nicotine.
-
-_Second Process._—The method of which I am now going to speak is
-evidently superior to the preceding. The matters contained in the
-stomach and intestines, or the organs themselves, as well as the
-œsophagus, are macerated in water acidulated by pure and concentrated
-sulphuric acid, taking, for instance, four or five drops of acid to one
-hundred and fifty or two hundred grammes of water. At the end of twelve
-hours it is to be filtered; the liquid, which is generally of a yellow
-color, contains sulphate of nicotine and a certain quantity of organic
-matter. It is then to be {24} evaporated almost to dryness in close
-vessels over a water-bath; then treated with a few grammes of distilled
-water which dissolves the sulphate of nicotine, leaving the greater
-part of the organic matter undissolved; it is now to be filtered;
-the filtered liquor is to be saturated with a little pure hydrate of
-soda or potash, in order to take the sulphuric acid, and set free the
-nicotine. The mixture of nicotine and of sulphate of soda or potash is
-to be put into a retort, and heated as described in the first process;
-the distilled liquid is to be evaporated over a water-bath in order to
-concentrate the solution of nicotine.
-
-Instead of distilling the liquor by heat, I have often treated it with
-ether; this latter decanted and submitted to spontaneous evaporation
-leaves the nicotine.
-
-Everything tends to show that nicotine may be detected by other
-processes. Thus by treating the digestive canal with absolute alcohol,
-with the addition of a little soda, it would be dissolved, and by the
-reaction of the soda, a soap would be formed with the fatty matter,
-which would set free the nicotine; it would then only remain to distil
-it by heat, after having evaporated to dryness. Perhaps, also, it might
-be separated by acting on the tissues with pure soda or potash, then
-evaporating to dryness and heating it in closed vessels.
-
-3. _It is sufficiently easy to prove the presence of nicotine in the
-liver and other organs after it has been absorbed._—In 1839 when I
-had shown that poisons after having been absorbed might be extracted
-from the organs where they had been carried with the blood, I insisted
-so strongly on the necessity of examining these organs with a view
-to the detection of poisons, that it has now become the custom to
-proceed in this way. How often does it happen, that, in consequence
-of repeated vomiting and action of the bowels, and also from complete
-absorption having taken place, there remains no trace of the poison
-in the digestive canal? Moreover, it is evident, that, in getting the
-poison from the organs to which it has been carried by absorption,
-we obtain, in reality, that portion of the poison which has been the
-cause of death, unless it be shown that it was carried to those organs
-after death by absorption. M. Stas has conformed, most wisely, to this
-precept. For my part, I could not, in my researches, neglect this
-important branch of the investigation. The livers of those animals
-which I had poisoned with twelve or fifteen drops of nicotine, when
-submitted to one or other of the processes I have described, furnished
-me with appreciable quantities of this alkali. I scarcely obtained any
-from {25} the blood contained in the heart, but I had only operated
-upon a few grammes. Moreover, experience teaches that a great number of
-poisons absorbed rapidly pass from the blood into the organs, and most
-especially into the liver.
-
-It may be readily conceived that the research for absorbed nicotine
-might be fruitless in those cases where death was occasioned by only
-a few drops of this body; but then the presence of the alkali may be
-detected in the digestive canal.
-
-Gentlemen, after results such as those obtained by M. Stas and myself,
-society may feel satisfied. Without doubt intelligent and skilful
-criminals, intent on puzzling the Chemists, will sometimes have
-recourse to very active poisons, but little known to the community at
-large, and difficult to detect; but science is on the alert to surmount
-all difficulties. Penetrating to the recesses of our organs, she
-extracts evidence of the crime, and furnishes one of the great elements
-of conviction against the guilty. Do we not know that at the present
-time poisonings by morphine, brucine, strychnine, nicotine, conicine,
-hydrocyanic acid, and many other vegetable substances which were
-formerly believed to be inaccessible to our means of investigation, may
-be discovered and recognised in a manner to be perfectly characteristic?
-
-During my stay at Mons, and consequently since the deposit of this
-memoir, I have had at my disposal the complete and remarkable Report of
-M. Stas, and I have satisfied myself:―
-
-1st. That this Chemist has obtained nicotine from the tongue, from the
-stomach, and liquids contained in it, and also from the liver and lungs
-of Gustave Fougnies.
-
-2ndly. That he also obtained nicotine by properly treating the boards
-of the dining-room where Gustave died, although these boards had
-been washed with warm water, with oil, and with soap.—_Repertoire de
-Pharmacie._
-
-The Count Hippolyte Visarte de Bocarmé confessed his guilt, and was
-executed at Mons.
-
-{26}
-
-
-ON THE ESTIMATION OF THE STRENGTH OF MEDICINAL HYDROCYANIC ACID, OF
-BITTER ALMOND WATER, AND OF CHERRY LAUREL WATER.
-
-BY J. LIEBIG.
-
-Liquids which contain prussic acid, and are mixed with caustic potash
-ley until they have a strong alkaline reaction, yield, on the gradual
-addition of a diluted solution of nitrate of silver, a precipitate,
-which, on being shaken, disappears to a certain extent. Alkaline
-liquids containing prussic acid, may also be mixed with a few drops
-of a solution of common salt without the production of any permanent
-precipitate, until at last, on an increased addition, chloride of
-silver falls down.
-
-This phenomenon depends on the fact that oxide of silver and chloride
-of silver are soluble in the generated cyanide of potassium, until
-there is found a double salt, composed of equal equivalents of cyanide
-of potassium and cyanide of silver, which is not decomposed by an
-excess of alkali. Liebig’s method of estimating the prussic acid
-consists in determining the quantity of silver which must be added
-to an alkaline liquid, containing prussic acid, until a precipitate
-appears. Each equivalent of silver corresponds to two equivalents of
-prussic acid. Having caused several experiments to be made, which prove
-the efficacy of this method; and having carefully observed that the
-presence of formic acid and muriatic acid in the prussic acid, does not
-interfere with the correctness of this method, the author gives the
-following directions for examining different liquids containing prussic
-acid:—The _aqua amygdalarum amarum_ being turbid, must be clarified by
-the addition of a known quantity of water: 63 grs. of fused nitrate of
-silver are dissolved in 5937 grs. of water; 300 grs. of this liquid
-corresponds to 1 gr. of anhydrous prussic acid. Before applying the
-test, the vessel with the solution of silver is to be weighed, and of
-the latter so much is added to a weighed quantity (_e.g._ 60 grs.)
-of prussic acid, mixed with a small portion of potash ley and a few
-drops of a solution of common salt, shaking it in a common white
-medicine glass until a perceptible turbidness takes place, and does
-not disappear on shaking. The solution of silver is now again to be
-weighed; and supposing 360 grs. are found to have been employed for
-the test, the 60 grs. of the tested prussic acid contain 1,20 grs.
-anhydrous prussic acid, or 100 grs. contain two grains. {27}
-
-_Aqua laurocerasi_, which the author examined, contained in one litre,
-one decigram, and the same quantity of _aqua amygdal. amar._ 7·5
-decigrammes of anhydrous prussic acid.—(In Pharmaceutical Journal, from
-_Ann. de Chem. U. Pharm. Bd._ lxxvii.)
-
-
-THE PHARMACOPŒIA OF THE UNITED STATES OF AMERICA. By authority of the
-National Convention, held at Washington A. D. 1850. Philadelphia:
-Lippincott, Grambo & Co. 1851.
-
-The appearance of a new edition of the Pharmacopœia is to the
-apothecary always a matter of high interest; to it he looks for
-the recognized improvements in the various processes which he has
-constantly to perform; by it essentially he is to be guided in all
-the officinal preparations which he makes; and from it he learns
-what new articles, by their intrinsic merits and through the vogue
-they have obtained, are deemed of sufficient importance to be
-recognized officinally as additions to the materia medica. The general
-arrangement of the new Pharmacopœia is the same as that of 1840.
-Owing to the wise principles which governed the earlier framers of
-the Pharmacopœia—though, from the progress of botanical science, the
-scientific names of the plants to which many of the articles of the
-vegetable materia medics are referred, have been changed, and with
-improvements in chemistry, the nomenclature of several salts has been
-altered—this has led to little alteration in the designations employed
-in the Pharmacopœia. Assafœtida is now referred to Narthex Assafetida,
-instead of Ferula A.; Diosma is, after the Edinburgh Pharmacopœia,
-termed Barosma; Camphor to Camphora officinarum; Cardamom to Elettaria
-Cardamomum; Cinchona flava to C. calisaya; Cinchona pallida to C.
-condaminea and C. micrantha, while the source of Cinchona rubra is
-not yet indicated. Colocynth is now termed the fruit of Citrullus
-colocynthis; kino is said to be the inspissated juice of Pterocarpus
-marsupium, and of other plants; quassia is referred to Simaruba
-excelsa, and uva ursi to Artostaphylos uva-ursi.
-
-Of the names of the articles of the materia medica, as was before
-stated, very few are changed. Myroxylon, of the old Pharmacopœia, is
-now Balsamum Peruvianum, Tolutanum, Balsamum Tolutanum; Diosma, {28}
-after the Edinburgh Pharmacopœia, is now Buchu; Zinci carbonas is
-changed to the old name, calamina; iodinum, following the British
-Pharmacopœias, is iodinium, and brominum, brominium. Port wine has been
-introduced, and consequently, instead of the Vinum of 1840, we have now
-Vinum Album, Sherry, and Vinum Rubrum, Port Wine.
-
-The secondary list of the materia medica, a peculiarity of our national
-pharmacopœia, is still retained, to what good purpose it is hard to
-understand. The framers of the book state that “it has the advantage
-of permitting a discrimination between medicines of acknowledged value
-and others of less estimation, which, however, may still have claims
-to notice.” The advantage is not a very evident one. The distinction
-that is attempted is very difficult to make satisfactorily; it will
-vary with individuals, and, we fancy, too, with the place at which
-it is made. Certainly few in New York would put Angostura bark with
-Horsemint (Monarda), and Queen’s root (Stillingia) in the primary list;
-while Apocynum cannabinum, one of the most active of our diuretics,
-and Malefern, in tape-worm, one of the most certain anthelmintics,
-are exiled to the secondary. If popular, instead of professional
-reputation, is to be the criterion, are not Arnica, and Matricaria,
-and Benne leaves, and horehound, quite as well entitled to a place in
-the primary list as many of the articles that now figure there? And
-are there not twenty simples in use among the old women of the country
-that deserve a place in the national Pharmacopœia as well as may weed,
-and frost wort, and fever root? Though, too, new articles should not
-readily be admitted until time has fixed their value, we should like to
-have seen some notice of Matico and of the salts of Valerianic acid. We
-are sorry, too, to see the old definition of rhubarb still adhered to;
-“the root of Rheum palmatum and of other species of Rheum;” that of the
-Edinburgh Pharmacopœia, “the root of an unknown species of Rheum,” thus
-rendering the Russian or Chinese rhubarb alone officinal, is very much
-preferable.
-
-Of the substances introduced into the Materia Medica, the chief are
-Aconite root (aconiti radix), Extractum cannabis (extract of hemp),
-Oleum morrhuæ (cod liver oil), Oleum amygdalæ amaræ (oil of bitter
-almonds), and Potassæ chloras (chlorate of potassa). By Arnica in the
-last Pharmacopœia was understood the root and herb of Arnica montana;
-for these, in the present—the name remaining unchanged—the flowers are
-substituted. The additions to the Materia Medica have been made with
-judgment, and certainly nothing has been admitted with the exception
-perhaps of {29} Helianthemum (Frostwort), of doubtful utility, or that
-has not for some time been submitted to the test of experience.
-
-The preparations introduced are all familiar to the pharmaceutist, and
-have for a long time been kept in most good shops. It is singular that
-in the last Pharmacopœia, by nitrate of silver was understood the fused
-nitrate. This oversight has been corrected, and by Argenti nitras now
-is understood the salt in crystals, while the common lunar caustic
-is Argenti nitras fusa. Among the new preparations are the active
-principles of Aconitum Napellus (Aconitia), Oxide of Silver, Iodide of
-Arsenic, Chloroform, Collodion, a number of fluid extracts, Citrate of
-Iron, Glycerine, Solution of Citrate of Magnesia, the oils of Copaiba,
-Tobacco, and Valerian, Iodide of Lead, Potassa cum calce, Bromide of
-Potassium, Syrup of Wild Cherry bark—of gum—and Tinctures of Aconite
-root, Kino, and Nux Vomica, and compound tincture of Cardamom.
-
-The Iron by hydrogen, as it has been sometimes rather awkwardly
-termed, the Fer réduit of the French, after the British Pharmacopœias,
-is termed Ferri pulvis, powder of iron. Soubeiran’s formula for
-the preparation of Donovan’s Liquor (Liquor Arsenici et Hydrargyri
-Iodidi) is given as much simpler and of easier preparation than the
-original formula of Donovan; there is, too, a good formula for the
-extemporaneous preparations of pills of iodide of iron. The solution of
-the Persesquinitrate of Iron, as it has been sometimes termed, appears
-as solution of Nitrate of Iron; it is a preparation that soon becomes
-altered by keeping. Tincture of Aconite root is directed to be made by
-macerating a pound of bruised Aconite root for fourteen days with two
-pints of alcohol, expressing and filtering. A process by percolation is
-also given. This is weaker than the tincture of either of the British
-Pharmacopœias, and weaker, we believe, than the tincture ordinarily
-employed here. As an external application, for which it is chiefly
-used, this is a great disadvantage, and when administered internally,
-the varying strength of a medicine so powerful will be attended with
-serious evils.
-
-The old formulæ for the preparation of the alcoholic extract of aconite
-and of the extractum aconiti (expressed juice), are retained, both
-being made from the leaves. The extracts when thus made, even when
-properly prepared, are for the most part inert. No formula is given for
-the preparation of an alcoholic extract from the root.
-
-There are three new preparations among the ointments:—Unguentum
-Belladonnæ, Potassii Iodidi, and Sulphuris Iodidi. The ointment of
-Iodide {30} of Potassium is directed to be made by dissolving a
-drachm of the iodide in a drachm of boiling water, and afterwards
-incorporating the solution with the lard.
-
-On the whole, there is much more to praise than to find fault with in
-the Pharmacopœia. Upon some of the preparations we will hereafter find
-further occasion perhaps to comment.
-
-
-PHARMACEUTICAL CONVENTION.
-
-In pursuance of a call issued by the College of Pharmacy of the City
-of New York, a Committee of Delegates from the different Colleges of
-Pharmacy in the United States assembled at the College Rooms in New
-York at 5 o’clock P. M. on Wednesday, the 15th of October.
-
-Delegates from Philadelphia and Boston were in attendance. The Maryland
-College (at Baltimore) and the Cincinnati College were not represented,
-although Delegates from each had been previously reported to the
-Committee of Arrangements in New York. A communication of some length
-was received from the Cincinnati Delegation.
-
-The Convention was organized by the appointment of Mr. Charles Ellis
-of Philadelphia as Chairman, and Dr. Samuel R. Philbrick of Boston as
-Secretary, pro tem. A Committee was then appointed by the nomination
-of each delegation, consisting of Messrs. Samuel M. Colcord of Boston,
-Alfred B. Taylor of Philadelphia, and George D. Coggeshall of New
-York, to examine credentials and nominate officers for the Convention.
-The Committee retired, and on their return reported the credentials
-satisfactory, and proposed Dr. B. Guthrie of New York as President, and
-Mr. Alfred B. Taylor of Philadelphia as Secretary, who were unanimously
-confirmed.
-
-Dr. Guthrie, on taking the chair, made a few remarks expressive of his
-sense of the honor conferred by appointing him presiding officer of
-the first Convention of the kind ever held in the United States, and
-explanatory of the objects of the Convention, which were in accordance
-with the growing feeling amongst druggists and pharmaceutists of its
-necessity to establish standards of the qualities of imported Drugs and
-Medicines for the government of the United States Inspectors at the
-different ports, and in addition to act upon such matters of general
-interest to the Profession as may be presented to the consideration of
-the Convention.
-
-Reports were presented by the majority (Messrs. Guthrie and Coggeshall)
-and the minority (Mr. Merrick) of the New York delegates, embodying
-their views upon the subject of standards, and also in regard to false
-drugs which should be excluded.
-
-A communication from the Cincinnati Delegates was read, and Mr.
-Restieaux of Boston read an interesting statement of the working of the
-Drug Law in that city. {31}
-
-A general discussion ensued upon various topics connected with the
-business of the Convention, and resulted in the appointment of a
-committee, consisting of Messrs. Proctor of Philadelphia, Restieaux
-of Boston, and Coggeshall of New York, to consider the several
-communications, and to arrange the general plan of business, and report
-at the next sitting.
-
-The Convention then adjourned to Thursday, at 12 o’clock.
-
-
-_Second sitting, Oct. 16th._—The Convention met at 12 o’clock. The
-Committee appointed yesterday made a report, reviewing the numerous
-propositions presented by the different Colleges, and submitting a
-general system for regulating standards, which, in their judgment,
-should prevail uniformly at the ports of entry, with numerous
-specifications of prominent articles to which their attention was
-called by their importance, and the difficulty that has been sometimes
-found in deciding upon them.
-
-The report was considered in sections in a lengthy and very interesting
-discussion, in which the members generally participated. With some
-amendments it was adopted.
-
-The Committee also offered the following preamble and resolutions,
-which were adopted, viz.
-
-WHEREAS, The advancement of the true interests of the great body of
-Pharmaceutical practitioners in all sections of our country is a
-subject worthy earnest consideration; and whereas Pharmaceutists, in
-their intercourse among themselves, with physicians and the public,
-should be governed by a code of ethics calculated to elevate the
-standard and improve the practice of their art; and whereas, the means
-of a regular pharmaceutical education should be offered to the rising
-Pharmaceutists by the establishment of Schools of Pharmacy in suitable
-locations; and whereas, it is greatly to be desired that the united
-action of the profession should be directed to the accomplishment of
-these objects; therefore,
-
-_Resolved_, That, in the opinion of this Convention, much good will
-result from a more extended intercourse between the Pharmaceutists
-of the several sections of the Union, by which their customs and
-practice may be assimilated; that Pharmaceutists would promote their
-individual interests and advance their professional standing by
-forming associations for mutual protection, and the education of their
-assistants, when such associations have become sufficiently matured;
-and that, in view of these important ends, it is further
-
-_Resolved_, That a Convention be called, consisting of three delegates
-each from incorporated and unincorporated Pharmaceutical Societies, to
-meet at Philadelphia on the first Wednesday in October, 1852, when all
-the important questions bearing on the profession may be considered,
-and measures adopted for the organization of a National Association, to
-meet every year.
-
-On motion, it was resolved that the New York Delegation be appointed
-a Committee to lay the proceedings of this Convention before the
-Secretary of the Treasury of the United States, and afterwards have
-them published in pamphlet form.
-
-Dr. Philbrick of Boston offered the following preamble and resolution,
-which were adopted:― {32}
-
-WHEREAS, To secure the full benefits of the prohibition of
-sophisticated drugs and chemicals from abroad, it is necessary to
-prevent home adulteration; therefore,
-
-_Resolved_, That this Convention recommend to the several Colleges
-to adopt such measures as in their respective states may be best
-calculated to secure that object.
-
-On motion of Mr. Colcord of Boston, it was
-
-_Resolved_, That a committee of three be appointed by this Convention
-to act as a Standing Committee to collect and receive such information
-as may be valuable, and memorials and suggestions from any Medical and
-Pharmaceutical Association, to be presented at the next Convention.
-
-The President appointed G. D. Coggeshall of New York, S. M. Colcord of
-Boston, and W. Proctor, Jr., of Philadelphia, as the Committee.
-
-A vote of thanks to the officers was passed, and then the Convention
-adjourned, to meet in Philadelphia on the first Wednesday in October,
-1852.
-
-The following circular letter has since been issued by the President of
-the Convention, and addressed to the leading Pharmaceutists throughout
-the Union:―
-
- NEW YORK, November 25, 1851.
-
- SIR:—At a meeting of Delegates from the Colleges of Pharmacy of the
- United States, held in this city on the 15th of October, 1851, the
- following preamble and resolutions, explanatory of themselves, was
- offered, and, after a free and full discussion, unanimously adopted:―
-
- [Here follow the preamble and resolutions introduced by Messrs.
- Proctor, Restieaux, and Coggeshall.]
-
- The objects set forth in the above, I trust, will meet the hearty
- approbation of yourself and the apothecaries of your place, and lead
- to the formation (if not already in existence) of such an Association
- as will co-operate in the furtherance of the proposed association.
-
- Our medical brethren have, as you are doubtless aware, an
- organization, similar in character, holding its sessions annually,
- in which all matters pertaining to their profession are fully
- discussed—the beneficial effects of which are already apparent, though
- the association has been in existence but a few years.
-
- They cannot give to the subject of Pharmacy the attention it requires
- and deserves, neither is it a matter legitimately falling under their
- cognizance, but belongs to Pharmaceutists themselves.
-
- The medical profession and the community at large rightfully look to
- us for the correction of any existing abuses, the advancement of the
- science, and the elevation of the business of an apothecary to the
- dignity and standing of a profession.
-
- To this end we invite you to the formation of such Associations, in
- view of the Convention, to be held in Philadelphia, on the first
- Wednesday of October, 1852.
-
- Communications intended for said Convention may be addressed to
- William Proctor, Jr., Philadelphia, George D. Coggeshall, New York, or
- S. M. Colcord, Boston.
-
- Any communication touching the subject of the above letter will be
- cheerfully responded to by the President of the Convention.
-
- C. B. GUTHRIE, M. D.,
- President Convention of Colleges of Pharmacy.
-
-{33}
-
-
-
-
-NEW YORK
-
-JOURNAL OF PHARMACY.
-
-FEBRUARY, 1852.
-
-
-ON THE PREPARATION OF PURE HYDRATE OF POTASH AND CARBONATE OF POTASH.
-
-BY HENRY WURTZ, A. M.
-
-In preparing pure potash compounds, it is highly necessary, especially
-in order to avoid the possibility of the presence of soda, to select,
-as a starting point, some compound of potash which differs considerably
-in solubility from the corresponding soda compound. Either the
-bitartrate or the sulphate, therefore, is usually preferred.
-
-The bitartrate is ignited; the carbonaceous mass, washed with water,
-and the solution of carbonate of potash, thus obtained, diluted and
-boiled with slack lime, in the usual way, in an iron kettle; the
-solution of hydrate of potash, thus obtained, is boiled to dryness, and
-the alcoholic solution of the residue evaporated in silver dishes, to
-obtain what is denominated _alcoholic potash_. This product should be,
-and most usually is, entirely free from sulphate of potash and chloride
-of potassium, since it is easy to crystallize the bitartrate free from
-these salts.
-
-But an almost invariable accompaniment of this alcoholic potash is a
-trace of silicate of potash. The solution may assume no cloudiness on
-the addition of solution of chlorohydrate of ammonia, or upon addition
-of an excess of chlorohydric acid, and afterwards an excess of ammonia;
-but on adding excess of chlorohydric acid, and evaporation to dryness
-in a platinum {34} capsule, the aqueous solution of the residue will
-be found to have flakes of silica floating in it. Very few specimens
-that I have met with have stood this test. It is to be inferred that
-the soluble silicates of potash are not wholly insoluble in alcohol;
-but a question arises concerning the source from whence the silica is
-so frequently derived. It may be from the lime used, in some cases,
-or from silicium contained in the iron of the kettles employed. I am
-enabled to state, in addition, that of many specimens of commercial
-_carbonate of potash_ which I have examined, some of which purported
-to have been prepared from cream of tartar by the method above alluded
-to, none have been found entirely free from silica. I have even found
-traces of this impurity in crystals of commercial _bicarbonate of
-potash_.
-
-This constant contamination of potash, and carbonate of potash with
-silica, being a very important matter in consideration of the frequent
-use of these two substances in chemical analysis, I have been induced
-to devise a means of separating the silica from the carbonate. This I
-have accomplished by the use of carbonate of ammonia.
-
-An aqueous solution of the carbonate which is to be freed from silica
-is evaporated to dryness on the sand bath (best in a sheet iron dish),
-adding from time to time lumps of carbonate of ammonia. The silicate
-is thus converted into carbonate, and on dissolving the residue of the
-evaporation in water, the silica appears in the form of flakes floating
-in the liquid, and may be separated by filtration. This solution
-of carbonate of potash, free from silica, may now be used for the
-preparation of pure hydrate of potash, taking care to use lime which is
-also free from silica.
-
-I may here introduce a few words with regard to the preservation of
-hydrate of potash for use in analysis. Its preservation in the solid
-form is evidently no difficult matter; but when we attempt to keep the
-solution in glass bottles for the sake of convenience in using it as a
-re-agent, we generally find that it very soon takes up silica from the
-glass. I have found, however, that flint glass bottles will preserve
-such a solution much {35} longer than any other, lead glass not being
-easily acted upon, probably because it contains very much less silica.
-It might not be useless to make a trial of bottles made of thin soft
-iron, or sheet iron, for this purpose; but it is probable that pure
-_silver_ is the true material for bottles, in which solution of potash
-is to be preserved. A very thin shell of silver might first be made,
-and afterwards strengthened by coating it thickly with galvanic copper.
-
-The ease with which sulphate of potash can be obtained, in a state of
-purity, has long ago suggested its use as a material from which to
-prepare pure potash. Schubert[6] proposed to treat pulverized pure
-sulphate of potash with a concentrated solution of pure baryta, the
-latter somewhat in excess, and during the evaporation of the solution
-of hydrate of potash, thus obtained, the excess of the baryta is
-precipitated by the carbonic acid of the air. This, however, appears to
-be very expensive process. I have devised another method of treating
-pure sulphate of potash so as to obtain pure hydrate of potash
-therefrom; it consists merely in operating upon the sulphate of potash
-in a manner similar to that in which sulphate of baryta is operated
-upon to procure hydrate of baryta, that is in converting the sulphate
-into sulphide by the conjoined application of a reducing agent and a
-red heat, and to decompose the aqueous solution of the sulphide by the
-action of an oxide of a metal whose sulphide is insoluble, such as
-oxide of iron (?), oxide of copper or deutoxide of manganese. I use as
-a reducing agent, instead of charcoal, oil, rosin, etc., _coal gas_.
-This application of coal gas was proposed by Dr. Wolcott Gibbs. If it
-is found that the decomposition is not perfect, and that the solution
-of sulphide of potassium contains some sulphate of potash, or if a
-little sulphate is formed in the solution by oxidation, it is removed
-by the introduction of a little solution of baryta, according to the
-method of Schubert. I am not yet prepared, however, to give the details
-of this method.
-
-[6] Erd. und Mar. Jour. 26, 117.
-
-{36}
-
-
-ON THE PREPARATION OF CHEMICALLY PURE HYDRATE AND CARBONATE OF SODA.
-
-BY HENRY WURTZ, A. M.
-
-The remarks made in the last article with reference to the presence of
-silica in alcoholic potash, apply also, though not so generally, to
-commercial alcoholic soda. Few specimens of this product are met with
-which are so free from silica that it cannot be detected by saturation
-with chlorohydric acid, evaporation to dryness in a platinum vessel,
-and redissolution in water. Whatever may be the origin of the silica in
-this case, it is very often present.
-
-I have selected, as the most convenient substance from which to prepare
-pure hydrate and carbonate of soda, a product which occurs very
-abundantly in commerce under the name of “carbonate of soda.” It is in
-the form of a very fine white powder, and on examination turns out to
-be the ordinary monohydrated _bicarbonate_ of soda.
-
- NaO, 2 C.O^2 + H.O.
-
-For, upon ignition, 7.756 grns. lost, 2.7595 grns. of carbonic acid and
-water, which is equal to 35.60 per cent.; bicarbonate of soda should
-lose 36.88 per cent. It may be mentioned, in this connection, that a
-preparation sent over here by Button, a London Pharmaceutist, under the
-appellation of “Chemically Pure Carbonate of Soda,” upon examination
-turned out to be also _bicarbonate_. 2.324 grns. lost by ignition;
-0.845 grn. = 36.45 per cent.
-
-The commercial bicarbonate above mentioned, contains, of course, all
-the impurities of the carbonate from which it is made, this being an
-inevitable consequence of the method by which it is manufactured,
-which, as described in Knapp’s Chemical Technology, is simply to expose
-commercial crystals of carbonate of soda to the action of carbonic
-acid gas, which it takes up to the extent of one equivalent, falling
-into a fine powder, with evolution of heat and loss of water of
-crystallization. These impurities, in the case of the specimen operated
-upon by {37} me, were, besides considerable silica, sulphate of soda,
-chloride of sodium, a trace of phosphoric acid detected by monohydrate
-of ammonia, and a little organic matter which imparted to the mass a
-soapy smell.
-
-The sulphate, phosphate and chloride are easily removed by washing with
-water by decantation, with a loss, however, of at least one half of the
-material. When the washings, after addition of excess of nitric acid,
-no longer react with nitrate of silver, or with chloride of barium,
-the mass is introduced into porcelain dishes, and dried on the sand
-bath; when dry it is exposed to a high sand bath heat, though not to
-a red heat, for two or three hours. By this treatment, not only are
-one equivalent of carbonic acid, and one equivalent of water expelled,
-but the greater part or the whole of the silicate is decomposed and
-converted into carbonate, so that a solution of the mass in water will
-now be found full of flakes of silica.
-
-The filtered solution should now be tested for silica, and if not
-yet entirely free from it, must be evaporated again to dryness, with
-addition of lumps of carbonate of ammonia, exactly as proposed by me,
-in the last article, to separate silica from carbonate of potash. The
-residue of this last evaporation, on solution in water, filtration
-and evaporation in platinum, silver, or even clean sheet iron (never
-in glass or porcelain) dishes, will give pure carbonate of soda,
-from which may be prepared the pure hydrate of soda, observing the
-precaution of using lime which is free from silica.
-
-{38}
-
-
-REMARKS UPON SOME OF THE PREPARATIONS OF THE PHARMACOPŒIA OF THE UNITED
-STATES, 1851.
-
-BY GEORGE D. COGGESHALL.
-
-The Pharmacopœia of the United States is, or should be, to the
-Pharmaceutist of the United States, his text book and standard.
-In making its preparations he should not vary from the letter of
-its directions, unless a change of process effects a quicker, more
-uniform, or more elegant result; in regard to strength he should not
-vary at all, except upon distinct understanding with the physician
-prescribing, or with his customer. It is much to be regretted that
-perfect conformity throughout the United States, with our National
-Pharmacopœia should not prevail, so that our citizens, traveling or
-removing with prescriptions, or copies of them, might not be subjected
-to inconvenient, and even in some cases to dangerous alterations,
-impairing confidence in the medicine relied upon, or involving the
-safety of the patient in using it. With these important considerations
-in view, the apothecary should, as far as circumstances permit, conform
-strictly to the acknowledged standard, giving up his own opinions, if
-need be, for the general good. But strict adherence to the formulæ
-of our Pharmacopœia seems not to be practicable in all cases, in all
-localities. When there is such diversity of practice in the City of
-Philadelphia and in New York, within five hours of each other, with
-intercommunication five times a day, in each of which the formation and
-subsequent revisions of the Pharmacopœia have been of such especial
-interest and attention, how can it be expected that in our widely
-extended country, in communities diversified almost as much as those
-of different nations, with many local habits, set by time and many
-prejudices, a full and uniform compliance with the official standard
-should prevail.
-
-In New York it would disappoint the physician to put ʒss of the
-officinal Solution of Sulphate of Morphia into a {39} prescription
-of ℥iv cough mixture, as much, if not as unpleasantly, as it would
-the Philadelphia physician for one of our brethren in that city to
-put ℥j of Majendie’s strength into a mixture of the same bulk. In New
-York the original strength of this solution has ever been preserved,
-notwithstanding the change made officinal in three editions of our
-Pharmacopœia, and it is generally understood and used accordingly. With
-us the change has been remonstrated against, as unnecessary, because
-the dose can be as easily regulated as that of Fowler’s, or Donovan’s,
-or Lugol’s solution, the tinctures of aconite root, belladonna, iodine,
-and many other potent preparations; it may just as easily be preserved
-from doing mischief, and has often the advantage in mixtures of not
-displacing desirable adjuncts with superfluous water. It is true, that
-owing to the great difference in strength of the solution commonly
-understood here, and that of the Pharmacopœia, our College has felt
-it incumbent to request physicians to designate the intended one, by
-affixing a term (in brackets or otherwise) as “Maj,” or “Ph. U.S,” to
-avoid the possibility of misconstruction, except in clear cases as that
-of the mixture above mentioned; and that we should not feel justified
-in dispensing an ounce of Majendie’s solution alone, (especially if the
-prescription was for “Liquor Morphiæ, Sulphatis”—the officinal term)
-unless with an understanding of the strength wanted, or of the use to
-be made of it. This great discrepancy between what is of original and
-continued use and what is officinal, requires watchfulness, on our
-part, against occasional exceptions to the general prescription of our
-physicians, and in putting up prescriptions written in other places,
-Philadelphia particularly. We must judge of the solution required, from
-the context.
-
-Our Pharmacopœia, in most of its formulæ, is undoubtedly entitled to
-our full respect and adherence, exhibiting on the part of the Revising
-Committee, laborious research and patient adjustment of details. But
-some of them, I think, are fairly open to criticism and susceptible of
-improvement. The formula given for preparing “CARBONIC ACID WATER,” is
-one by which it {40} may safely be said, no practical man ever has
-made, or ever can make, the article commonly known as mineral, or soda
-water, the latter name given to it in its early manufacture; when a
-portion of carbonate of soda entered into its composition, which is
-now generally omitted, though the name is retained in many places. In
-the first United States Pharmacopœia, 1820, the formula given is as
-follows:―
-
- “Take of water any quantity.
-
- Impregnate it with about ten times its volume of carbonic acid gas by
- means of a forcing pump.”
-
-That was, probably, about the strength it was usually made at that
-time. It is now, generally made about one fifth or one fourth stronger.
-In the revision of 1830, the formula was changed as follows:―
-
- “By means of a forcing pump, throw into a suitable receiver, nearly
- filled with Water, a quantity of Carbonic Acid equal to five times the
- bulk of the Water.”
-
- “Carbonic Acid is obtained from the Hard Carbonate of Lime by means of
- dilute Sulphuric Acid.”
-
-The latter formula is repeated in the revisions of 1840 and 1850,
-substituting the term “Marble,” for “Hard Carbonate of Lime.” The
-strength was altered from “ten times” of the first edition to “five
-times,” in 1830, and reiterated in 1840 and 1850. Why? “Ten times” was,
-perhaps, sufficient in the early use of this beverage, but was hardly
-considered strong enough in 1830, certainly was not in 1840, and has
-not been since. It is difficult to conceive a reason for such change.
-Surely, it could not have been recommended by practical men; on the
-contrary it was supposed to have been made by mistake or inadvertance.
-It is still more difficult to find a good reason for repeating this
-formula in the revisions of 1840 and 1850. Upon each of the latter
-occasions the College of Pharmacy, in New York, remonstrated against
-it and pointed out fully its absurdity. Carbonic Acid Water of that
-strength, it was stated, would not be acceptable as a drink to any one
-familiar with it, {41} nor refreshing to the sick. The formula was
-also shown to be defective in several essential particulars, and where
-it was not defective it was wrong. But our remonstrance seems not to
-have been vouchsafed “even the cold respect of a passing glance.”
-
-The formula is defective in not describing the vessel in which the
-preparation is to be made. In other processes, not so much involving
-the safety of those engaged in them, the vessels are specified, as
-“glass,” “earthen,” “iron,” &c. In this case it is indispensable that
-the vessel should be expressly and well adapted to the purpose. It
-should be of undoubted strength to sustain the pressure, and it should
-be of material not acted upon by the acid or water. These requisites
-should not be neglected. We need not concern ourselves much, to be
-sure, about “five times the bulk,” but to make carbonic acid water of
-good quality, the “receiver” should be of sufficient strength to ensure
-safety, and of internal material to avoid unpleasant or injurious
-contamination. Copper fountains, lined with tin, are mostly used. Cast
-iron, lined with tin, is also used, to some extent. So far the formula
-is defective,—in the proportion both of water and carbonic acid it
-is wrong. The “suitable receiver” should not be “nearly filled with
-water.” How near full that is, is left to the chance of different
-judgment in different persons; but if “nearly filled” should be
-understood to mean within a pint, and force enough could be applied,
-“the receiver” would burst before the “five times” could be got into
-it, though the breaking in this case would not, probably, be attended
-with danger to the operator, because it would be merely a dead strain
-without much expansive force.
-
-I do not propose to detail the process of making soda or mineral water,
-“Carbonic Acid Water,” as it is properly called in the Pharmacopœia.
-The minutiæ of its preparation may well be left to the experience
-and practice of the operator. But the formula given in our standard
-book should not be defective or wrong in prominent principles, it
-should accord with experience and the improvement of the times. There
-does not appear to {42} be any good reason for altering the formula
-of 1820, which was comparatively “well enough” to that of 1830, ’40
-and ’50, which is of no value. After designating the description of
-fountain required, so far, at least, as regards strength (which ought
-to be equal to the pressure of twenty atmospheres), and material, it
-should direct it to be supplied with water to the extent of about
-five sevenths of its capacity, in order to allow of due admixture of
-gas and water, and of agitation which greatly facilitates it, and the
-forcing carbonic acid into it to the extent of at least twelve times
-the bulk of the water. Thirteen or fourteen times is often employed for
-draught, and seventeen or eighteen times for bottling. It may be, as
-it has been, said that “a formula for this preparation is not of great
-moment.” It may be so; it may, perhaps, as safely be left to the skill
-of the manufacturer and the taste of the consumer, as “Mistura Spiritus
-Vini Gallici;” but “if it be worth doing at all, it is worth doing
-well;” if placed in the Pharmacopœia, it should be in accordance with
-knowledge, and the experience of practical men.
-
-THE SOLUTION OF ARSENITE OF POTASSA has been made by some Apothecaries,
-with myself, for several years, by substituting 92 grs. of bicarbonate
-of potassa, as the equivalent of 64 grs. of the carbonate, by which
-we feel more confident of obtaining a definite compound than by the
-employment of the Carbonate, as generally procured, which mostly
-contains silica and other contaminations. The resulting compound is
-quite satisfactory, and keeps well. We also omit the compound spirit
-of lavender, making up the measure of a pint with water. Our object
-in this is two-fold. The solution is more permanent, according to our
-observation, and the compound spirit of lavender only renders it (if
-anything) more attractive in taste and smell, to children and ignorant
-persons.
-
-In making MISTURA FERRI COMPOSITA, it is peculiarly necessary to
-proceed exactly according to rule, both in the order of its components
-and in the method of adding them, to produce a correct result. In the
-Pharmacopœia the six ingredients are set down thus:― {43}
-
- “Take of Myrrh a drachm.
- Carbonate of Potassa twenty-five grains.
- Sulphate of Iron, in powder, a scruple.
- Spirit of Lavender half a fluid ounce.
- Sugar a drachm.
- Rose Water seven fluid ounces and a half.”
-
-We are directed to rub the first with the last, “and then mix with
-these” the fourth, the fifth, the second, and “lastly,” the third.
-
-In the written process for making a mixture, which more than most
-others, requires exact method, and the adding of each of its numerous
-components in its right order, it would seem to be desirable, for the
-sake of perspicuity, to set them down in the order in which they are
-to be used. Here we have to chase about, forwards and backwards, for
-the one wanted next, and to read over and over the directions, to make
-sure of getting them right; for few of us make this mixture so often
-as to be perfectly familiar with the process, without referring to the
-text. It is not less awkward in this case from the directions chancing
-to be over leaf. But the formula is otherwise defective, I think, not
-being quite equal to that of 1830, in which the rose water and spirit
-of lavender are directed to be added together. Not only should these
-be mixed before using, but the myrrh, carbonate of potassa and sugar
-should be triturated well together, and rubbed with successive portions
-of the mixed liquids, effecting thereby a better solution of the myrrh.
-The mixture, then complete, except the sulphate of iron, should be put
-into the vial, and the salt should, by all means, be directed to be
-selected in clear crystals, to avoid any per salt of iron; it should be
-quickly powdered in a clean mortar, and added to the contents of the
-vial. The result is a bluish colored mixture, soon changing to olive
-green. If the sulphate of iron be not properly selected, or if it be
-rubbed in the mortar, as inferred from the formula, the mixture is more
-or less brown and proportionably deteriorated. Of course, we should not
-“take sulphate of iron in powder.” {44}
-
-In giving directions for making a compound, something, certainly,
-is to be expected from the knowledge and skill of the manipulator.
-But essential points should not be left to him, and a formula for a
-mixture, probably not very often made by Apothecaries throughout our
-country towns, should be set down so clearly, that a person competent
-to put up mixtures generally, could make this one the first time he was
-called upon for it, without needless perplexity, and with sufficient
-detail of essentials to ensure its being made correctly. I have been
-frequently told by physicians that, even here, this mixture, requiring
-so much nicety of manipulation, does not appear to be made right one
-time in ten. This may not be so much the fault of the Apothecary as
-of his guide. He makes the mixture but seldom, and if he make it by
-his Pharmacopœia he does not make it as well as it can be made. For
-convenient use in the shop, I have the following process written out:―
-
- “Take of Myrrh,
-   Sugar each one drachm,
-   Carbonate of Potassa twenty-five grains,
-
- _Triturate together, and add gradually_:
-   Rose Water seven ounces and a half,
-   Spirit of Lavender half an ounce, mixed.
-
- _Rub each portion well together, pour into the vial and add_:
-   Sulphate of Iron one scruple,
-
- _To be selected in clear crystals, powdered in a clean dry mortar, and
- thrown in powder into the vial; then cork, shake well, and cover the
- vial with buff colored paper._”
-
-I have often thought that if our formulæ, especially those that are
-complicated, were given in proper rotation, placing the component
-first to be used, first in the list, the second next, and so on,
-with intermediate lines of direction, which might be in smaller type
-or italics, it would derogate nothing from the dignity of the book,
-while it would facilitate the process, and might sometimes obviate
-misconstruction, or neglect of particulars essential to the best result.
-
-The consideration of some few other preparations, I must defer to
-another number.
-
-{45}
-
-
-LETTER ON OPIUM, &c.
-
-[THE following letter, addressed to a Commercial House in this City,
-will be found to communicate some interesting information. We print it
-as it is written. Perhaps our readers may derive some information from
-the prices given; we can make nothing of them.]
-
- CONSTANTINOPLE, May 10, 1851.
- To ———— TRIESTE,
-
-We received your honored letter, dated Messina, with great pleasure,
-and hasten to give you the information you desire, hoping and
-wishing that both an agreeable and useful connection may arise from
-it, for which purpose we shall not fail to give your House direct
-information, respecting the articles you mention. Opium is found
-here in different qualities, the goodness of which chiefly depends
-on the conscientiousness of those who prepare it. The best quality
-coming from some districts of Asia consists of the pure juice, which
-flows spontaneously from the incisions made in the poppy heads, is
-inspissated and formed into little balls. It has eminently all the
-qualities which are requisite in good opium, and contains from 8 to
-10 per cent, and more, of morphia. This sort is the most in request
-among the druggists in Germany and France, to be sold by retail to
-the apothecaries, but scarcely forms the 8th or 10th part of all the
-Turkish opium which comes to the market. Next to this is the ordinary
-quality, coming from the other provinces of Asia Minor; where in
-preparing it, they are less cautious, partly pressing the poppy heads,
-in order to get as much juice as possible, partly scraping the juice
-that has oozed out too hard, by which certain mucilaginous parts of the
-plant, and shavings of the rind get mixed up with it; in this way that
-kind of opium is produced, which is so often sold, and at Trieste bears
-the name of Tarense opium.
-
-By this proceeding, of course, the morphia is lessened, and often in a
-great degree; but in the Chinese market, in proportion to which, the
-consumption of the article in all other countries is scarcely to be
-reckoned, little or no regard is paid to {46} this, which explains why
-the latter inferior article always brings nearly as high a price as
-the former pure quality. Besides these, several sorts of adulterated
-opium are sold, some of which are prepared, (principally for the North
-American market,) by mixing in the juice of the whole plant, or other
-substances.—The difference of the qualities would be best perceived by
-a collection of samples, which we should be glad to send you, if you
-would tell us where to direct them. The price of the aforementioned
-prime quality, which we call “Gúeve,” from the district which chiefly
-produces it, is now 10 2/3c. for the English pound, free on board.
-The current second quality, 10 1/3c. The price of the adulterated is
-much lower, in proportion to the amount of the adulteration; which,
-however, in most cases, is not discernible by the exterior. The prices
-are, of course, principally regulated by the Chinese market; yet the
-more or less considerable crop produced is not without influence. So
-especially now, the growers show little inclination to sell, as the new
-plantations are endangered by a continual want of rain.—Nevertheless,
-probably after two months, when the new crop begins to come to market,
-we may be able to buy cheaper than now, if the news from China should
-not cause the price to rise.
-
-As regards scammony, almost everything that has been said respecting
-opium is literally applicable. The difference in quality depends
-upon the way of preparing it, while the plant from which it is taken
-is always the same. The best sort is the pure dried juice, which
-spontaneously flows from the incisions made in the root of the plant;
-the next quality is produced by a strong pressure of the root. These
-two qualities go in commerce by the name of the 1st and 2nd scammony
-d’Aleppo, which name, however, is wrong, as Aleppo produces the 1st
-quality, but only in a very small quantity, whilst the greater part
-comes from several districts of Asia Minor. Then follows the so called
-quality of Skilip, a district that produces much, but where they have
-the bad habit of trying to gain in the weight, by adulterating the
-pure substance. The adulteration is made in several ways; the least
-injurious of which perhaps is, {47} that they add (as in opium), the
-pressed or boiled out juice of the whole plant; the not inconsiderable
-quantities of this sort, which are yearly brought from the interior,
-find a good sale in Europe, which would hardly last, if a sufficient
-quantity of the before mentioned finer qualities were to be had.
-Besides these, a number of other sorts are sold in Europe, under the
-name of Smyrna scammony, which consist of a hard and heavy mass, but
-contain only a very small part of the real scammony.
-
-With this article it would also be necessary, as we said with the
-opium, to explain our statements by sending you samples, which we will
-do if you desire it. The finest prime sort is seldom found, and is
-now entirely wanting. It would sell readily at the rate of 21 1/2c.
-per pound, English. The good second quality brings according to the
-sort, from 18c. to 15 3/4c. a pound, free on board, but is also
-now very scarce, and will, in the course of two or three months, be
-more abundant in fresh quality. Of the Skilip sort, there are several
-quantities in the market, according to the quality, at the price of 13
-to 10s. 10d. an English pound, free on board.
-
-Of the oil of roses, there is, properly speaking, only one genuine
-quality, with only little difference in odor, but with remarkable
-variation in the facility with which it congeals, which property is
-almost generally considered an essential proof of its being genuine,
-but without reason; as we have ascertained by much experience, during
-a long sojourn in the country where it is produced. Several reasons
-may contribute to this difference in congealing, but the chief one
-may be considered, the difference of soil, and method of preparation.
-We give our principal attention to the article, and have founded an
-establishment at Kissanlik, where it is chiefly produced, through which
-alone we make our purchases, and must do so, in order to have the attar
-genuine, as we have experienced, that all the essence without exception
-that is sold here, second hand, is far from pure.
-
-The common method and the one now almost exclusively adopted of
-adulterating it, with geranium essence, may be known {48} to you, and
-that it really is the most in use, you may conclude, from the price
-of the genuine article having been for a long time much higher at the
-places of production, than the price of that which is sold as prime in
-Europe. This fact has only lately been noticed in Europe, therefore
-in the price current of Trieste, for instance, you will find the
-genuine article noted, beside the prime article, with a considerable
-difference of price. What at London is designated as prime quality, is
-only a mixture of 60 to 70 per cent. essence of rose, with 30 to 40 per
-cent. essence of geranium. Samples will also prove this to you, more
-clearly. The price of the genuine attar is, to-day, 22 3/4c. for an
-ounce, at 10 drachms, according to which the English price current may
-be understood; in six or eight weeks after the preparation of the new
-crop, we hope to buy cheaper, but at what rate we cannot yet judge,
-as this depends on the produce of the crop. There is some cheaper and
-adulterated, and which is only bought by ignorant persons. This oil
-comes by caravans from the interior of Asia, and in spite of all our
-inquiries, we could not succeed in getting any sure information, about
-the plant which produces it, or the method of preparation.
-
-
-ON CHLOROFORM AS A SOLVENT.
-
-BY M. P. H. LEPAGE, OF GISORS.
-
-Hitherto, attention has been mainly directed to the manufacture of
-chloroform, and the study of its anesthetic properties. Many chemists,
-however, have casually noticed the power it possesses of dissolving
-essential oils, fixed fatty matters, camphor resins, (even those which
-dissolve with difficulty in alcohol and ether, such as copal resin, for
-example,) iodine, bromine, vegetable alkalies, india rubber insoluble
-in alcohol, and but slightly soluble in ether, and, finally, gutta
-percha, insoluble according to M. Vogel, in both these menstrua. {49}
-
-Having lately had occasion to experiment with chloroform, upon a
-variety of substances, I have thought it might be useful, with a view
-to its further application, to make known the results obtained.
-
-1. Resinous substances, gum mastic, colophony, elemi, balsam of tolu,
-benzoin, are very soluble cold, in all proportions of chloroform and
-their solutions in this liquid form varnishes, some of which might,
-I think, be usefully applied, when the price of chloroform shall be
-diminished.
-
-Gum copal and caoutchouc dissolve equally and almost entirely in this
-liquid, but more easily hot than cold.
-
-Amber, sandarac, and shellac, are only partially soluble in chloroform,
-whether hot or cold. The mixture of sandarac and chloroform separates
-into two layers; the lower one which holds in solution a certain
-quantity of resin, is fluid, whilst the upper one is of a gelatinous
-consistence.
-
-Olibanum dissolves with difficulty in it, either hot or cold.
-
-Gum guaiac and scammony resin, dissolve very easily in it; whilst on
-the contrary, pure jalap resin is insoluble; it becomes soft by contact
-with the liquid, and then floats on the top, as a pitch like mass. When
-the resin is very pure, the lower layer of chloroform has an amber
-color.
-
-Gamboge and gum dragon’s blood, also yield some of their substance
-to chloroform. The solution of gamboge being of a magnificent golden
-yellow, and that of the dragon’s blood of a beautiful red, these two
-substances might be advantageously used as varnishes.
-
-2. Fixed Fats. Oils of olive, œillettes, almond, ricinus, cod, rape,
-euphorbia, lathyris, croton tiglium, lard, tallow, the concrete oils of
-palm and cocoa, spermaceti, and probably all the fixed fats, dissolve
-remarkably and in all proportions in chloroform. As to wax, according
-to M. Vogel, six or eight parts of chloroform added to one part of this
-substance when pure, dissolve only .25, whence this chemist supposes,
-that whenever wax treated with this liquid in the above {50} named
-proportions, leaves less than .75, it may be considered as having been
-mixed with tallow or stearic acid.
-
-I placed in a small tube, seven grammes of chloroform, and one gramme
-of _pure_ white wax, shaking the mixture violently, at the end of
-six or eight hours the piece of wax had entirely disappeared, and
-the contents of the tube resembled an emulsion. The whole was passed
-through a filter of the weight of one gramme. A transparent liquid
-passed, which, exposed to spontaneous evaporation, left a residuum of
-pillular consistence weighing twenty-five centigrammes; whilst the
-filter which retained the portion of undissolved wax, left to the
-action of the air, until it no longer lost weight, was found to weigh
-one gramme, seventy-five centigrammes. The result of this experiment
-therefore, confirms the statement of the learned chemist of Munich.
-
-3. Volatile oils. All are soluble in chloroform.
-
-4. Simple metalloid bodies. We already know that iodine and bromine are
-soluble in chloroform, I have further ascertained that phosphorus and
-sulphur are slightly so.
-
-5. Immediate neutral principles. Stryacine, piperine, naphtaline,
-cholesterine, are very soluble in chloroform. Pricrotoxine, slightly
-so. Parafine will only dissolve when warm, and on cooling, again
-floats on the top of the liquid. Amygdaline, phloridzine, salicine,
-digitaline, cynisin, urea, hematin, gluten, sugar, &c., are insoluble
-in it.
-
-6. Organic acids. Benzoic and hippuric acids are very soluble in
-chloroform. Tannin is but slightly soluble, tartaric, citric, oxalic
-and gallic acids are insoluble in it.
-
-7. Organic alkalies. Quinine, pure veratrine, emetine and narcotine
-are easily soluble in chloroform. Strychnine dissolves pretty well
-in it, and the solution, even when not saturated (one décigramme to
-two grammes of chloroform, for instance,) deposits, in twenty-four
-hours, a number of little tuberculiform crystals, which may perhaps
-be a modification of this alkaloid (an isomeric state), for their
-solution in dilute acids has appeared to me less bitter, and less
-easily precipitable by {51} ammonia than that of ordinary strychnine.
-Brucine is also quite soluble in chloroform. Morphine and cinchonine
-are insoluble.
-
-8. Salts of organic acids. Tartar emetic, the acetates of potash and
-soda, lactate of iron, citrate of iron, valerianate of zinc, and
-acetate of lead do not dissolve in chloroform.
-
-9. Salts with organic bases. Sulphate and hydrochlorate of strychnine,
-are tolerably soluble in chloroform, whilst sulphate of quinine,
-hydrochlorate and sulphate of morphine are insoluble.
-
-10. Haloid salts. Iodide and bromide of potassium, the chlorides of
-sodium, potassium and ammonia, the iodides of mercury and lead, the
-yellow prussiate of potash, the cyanides of mercury and potassium do
-not dissolve in chloroform. Chloride of mercury is very soluble.
-
-11. Oxysalts. The iodates, chlorates, nitrates, phosphates, sulphates,
-chromates, borates, arseniates and alkaline hyposulphates are
-completely insoluble in chloroform. The same may be said of nitrate of
-silver, sulphate of copper, and probably of all the metallic oxysalts.
-
-The above facts prove: 1st That chloroform dissolves, with a very few
-exceptions, all bodies soluble in ether; but as it dissolves copal,
-caoutchouc, &c., much better than this latter substance, this property
-will become serviceable when the price of chloroform shall be lowered.
-
-2nd. That contrary to what was formerly believed, it dissolves shellac
-much less easily than alcohol.
-
-3rd. That it may be employed instead of ether, to separate quinine from
-cinchonine, narcotine from morphine, guaiac resin from jalap resin,
-which substances are often found mixed together in commerce.
-
-4th. That it dissolves in large proportions strychnine, brucine, and
-emetine, alkaloids, which are almost insoluble in ether.
-
-5th. Finally, that it does not dissolve tartaric, citric, oxalic and
-gallic acids, amygdaline, phloridzine, salicine, digitaline, hematine,
-gluten, &c., all which bodies are soluble in alcohol, {52} nor the
-chlorides, bromides, iodides, or nitrates, salts, all soluble in the
-same vehicle.
-
-I think it right also to add the following observation, because it
-tends to corroborate a fact recently stated in the _Journal de Chimie
-Médicale_, by my friend and former colleague, M. Aujendre, assayer at
-the mint of Constantinople, namely that chloroform possesses antiseptic
-properties. Having accidentally left in a half filled, but corked
-bottle, during a month (from April 10, to May 12), in my laboratory,
-where the variations of temperature are very frequent, some milk mixed
-with about a hundredth part of chloroform, I was rather surprised, on
-examining the milk, to find that it had preserved the fluidity and
-homogeneity of the liquid when freshly drawn, and that it could even
-be boiled without turning.—_Journal de Chimie Médicale in L’Abeille
-Médicale._
-
-[NOTE.—Chloroform will preserve Anatomical and Pathological Specimens
-without changing their color, or apparently their texture.]—ED. N. Y.
-JOURNAL OF PHARMACY.
-
-
-REPORT OF A JOINT COMMITTEE OF THE PHILADELPHIA COUNTY MEDICAL SOCIETY
-AND THE PHILADELPHIA COLLEGE OF PHARMACY, RELATIVE TO PHYSICIANS’
-PRESCRIPTIONS.
-
-(_Published by order of the Board of Trustees of the Philadelphia Coll.
-of Pharm._)
-
-The joint Committees of the Philadelphia County Medical Society, and
-of the Philadelphia College of Pharmacy, appointed for the purpose
-of considering the means best adapted to prevent the occurrence of
-mistakes in the compounding of the prescriptions of Physicians by
-Apothecaries, beg leave to report that they have given to the subject
-all the attention that its importance demands, and present the
-following hints as the results of their joint deliberations. They have
-taken the liberty of adding, also, a few general hints on the relations
-that should exist between physicians and pharmaceutists.
-
-{53}
-
-
-A. _In Respect to Physicians._
-
-1. Physicians should write their prescriptions carefully and legibly,
-making use of good paper, and, whenever possible, of pen and ink. When
-obliged to write with a pencil, they should take the precaution to fold
-the prescription twice, so as to prevent its being defaced.
-
-2. The nomenclature of the United States Pharmacopœia is becoming
-annually more in favor with pharmaceutists; a statement attested by the
-fact that 1500 copies of the book of Latin Labels for shop furniture,
-published by the Philadelphia College of Pharmacy, have been disposed
-of within three years. Physicians are also becoming more alive to
-the merits of our national Codex, and they are respectfully urged to
-familiarize themselves with its nomenclature, and to adhere to it
-strictly in their prescriptions.
-
-3. The numerous treatises on Materia Medica, Pharmacy and the Practice
-of Medicine, of English origin, that are reprinted in this country,
-notwithstanding they are generally interlarded with the formulæ of
-our own Pharmacopœia, tend, nevertheless, very much to confuse the
-physician and apothecary, in the use and exact meaning of terms
-in prescriptions. To obviate the difficulties thus occasioned,
-the physician should, when he prescribes a medicine, which is not
-officinal, nor in common use, state on his prescription, either in
-a note at the bottom, or within parenthesis, following the article,
-the authority or work from whence it is derived, as “Griffith’s
-Formulary,”—“Ellis’ Formulary,”—“Braithwaite’s Retrospect,” etc.
-
-4. Physicians would lessen the risk of errors in their prescriptions,
-and increase the chances of their detection should they be made, by
-observing the following hints.
-
-1st. Write the name of the patient at the top of the prescription,
-unless a good reason prevents this being done; in which case, it should
-be expressed as for Mr. G—, Mrs. R—, or Mrs. S.’s child, or for Master
-T—, so as to convey to the apothecary some idea of the age of the
-patient. {54}
-
-2d. The date and name of the physician or his initials, should
-always be appended, and, whenever practical, the dose and mode of
-administering the medicine directed.
-
-3d. When an unusually large dose of an active medicine is prescribed,
-as opium, morphia, elaterium, strychnia, etc., let such names be put in
-_italics_, and the quantity or quantities repeated in writing enclosed
-within a parenthesis; thus:—R Morphiæ Sulphatis grs. vj. (six grains.)
-Div. in chart. vj.
-
-4th. When an active substance is to be used externally, it should be
-so stated on the prescription; thus, “For external application”—“To be
-applied to the part as directed,” etc.
-
-5th. The quantities of each article should be placed in a line with
-the name, and not below it and in using the Roman numerals, the _i_’s
-should be dotted correctly.
-
-6th. The occasional practice of writing the directions intended for the
-patient in _latin_, and especially in abbreviated latin, is uncalled
-for, and attended with some risk; it is far safer to write them in
-English, and without abbreviation or the use of figures, unless these
-are well and distinctly formed.
-
-
-B. _In Respect to the Apothecary._
-
-1st. The apothecary should hesitate to dispense a prescription, the
-handwriting of which is so imperfect as to render the writer’s meaning
-doubtful—especially if it involves agents of a poisonous or irritating
-character—unless he is able, from collateral circumstances, to satisfy
-himself of the intent of the prescriber. In such a case he should
-delay the delivery of the medicine to the patient until he can see the
-physician, and in doing so he should avoid committing the latter, by
-agreeing to send the medicine when it is ready.
-
-2d. The apothecary is justified in the same means of delay, if he,
-after deliberate consideration, believes that the physician has
-inadvertently made a mistake in the quantity or dose of the article or
-articles prescribed; always keeping in view the physician’s reputation
-as well as his own. Every respectful application, in such cases, to a
-physician, should be met in good faith {55} and with kind feeling,
-even though no error should prove to exist.
-
-3d. In his demeanor and language, the apothecary should cautiously
-avoid compromising the physician, unless it be unavoidable, in which
-case honesty is the best policy, and the patient or his messenger
-should be told that it will be necessary to have an interview with the
-physician previously to compounding his prescription.
-
-4th. The apothecary is not justifiable in making inquiries relative
-to the patient or his disease, or remarks relative to the character
-or properties of the medicines prescribed, that are uncalled for, or
-likely to convey a wrong impression, through an ignorant messenger,
-to the patient, excepting it be done in a case where he has doubts in
-regard to the prescription, and wishes to satisfy himself, and here he
-should act with great discreetness.
-
-5th. When an apothecary is asked his opinion of a physician’s
-prescription in a manner that indicates want of faith in the
-prescriber, he should waive the question, unless by a direct answer he
-should be able to restore that confidence. When asked the nature of
-the ingredients, he should be guided in his answer by circumstances,
-avoiding to give the desired information, when he believes it would
-be contrary to the wish of the physician, or attended with injurious
-consequences. In other cases he should use his own judgment.
-
-6th. Physicians being often unacquainted with practical pharmacy, pay
-little attention to the order in which the several articles entering
-into a prescription are arranged, with the view to facilitate the
-operations of dispensing. It hence becomes the first duty of the
-apothecary carefully to read the prescription and fix the proper
-order in his mind. He should, at the same time, acquire the habit of
-considering the quantities ordered in relation to the usual doses, and,
-also, the general bearing of the prescription; and a constant resort to
-this practice, based on due knowledge, must almost inevitably detect
-mistakes, if any have been made. {56}
-
-7th. Apothecaries should accustom their assistants to study
-prescriptions in this light, and to acquire such a knowledge of the
-doses and therapeutical uses of medicines as shall serve to guide them
-in avoiding errors.
-
-8th. The apothecary, when engaged in dispensing a prescription, should,
-as far as possible, avoid mental preoccupation, and give his attention
-fully to his task. He should acquire the habit of _always_ examining
-the label of the bottle before using its contents, and he should
-satisfy himself that he has read the prescribed quantity correctly, by
-referring to the prescription anew before weighing out each article.
-It is also, a useful precaution to have bottles containing mineral or
-vegetable poisons, distinguished by some prominent mark.
-
-9th. As the conscientious discharge of his duty should be the aim of
-every apothecary, seeing that on his correct action depends, in no
-slight degree, the usefulness of the physician, no pains should be
-spared to secure the efficiency of the medicines dispensed, whether
-they be drugs or preparations. The latter should always be prepared of
-full strength, and according to the formulæ recognized by the United
-States Pharmacopœia, unless when otherwise specially ordered.
-
-10th. The apothecary should always label, and number correctly, all
-medicine dispensed by him on the prescription of a physician; he
-should, also, invariably, transcribe on the label, in a plain legible
-hand writing, the name of the patient, the date of the prescription,
-the directions intended for the patient, and the name or the initials
-of the prescriber.
-
-11th. The original prescription should always be retained by the
-apothecary, whose warrantee it is, in case of error on the part of the
-prescriber. When a copy is requested, if, as in many instances, no
-objection can be urged, it should be a _fac simile_ in language and
-symbols, and not a translation.
-
-12th. In no instance is an apothecary justifiable in leaving his
-business in charge of boys, or incompetent assistants—or in allowing
-such to compound prescriptions, excepting under his immediate and
-careful supervision. {57}
-
-13th. In justice to his sense of the proper limits of his vocation, to
-the medical profession, and to his customers, the apothecary should
-abstain from prescribing for diseases, excepting in those emergencies,
-which occasionally occur, demanding immediate action, or, in those
-every day unimportant cases where to refuse council would be construed
-as a confession of ignorance, calculated to injure the reputation of
-the apothecary, and would be attended with no advantage to either
-physician or patient.
-
-14th. The sale of quack or secret medicines, properly so called,
-constitutes a considerable item in the business of some apothecaries.
-Many of the people are favorably impressed towards that class of
-medicines, and naturally go to their apothecaries for them. It is
-this which has caused many apothecaries to keep certain of these
-nostrums, who are ready and willing to relinquish the traffic in them,
-but for the offence that a refusal to supply them to their customers
-would create. At present all that the best disposed apothecary can
-be expected to do, is to refrain from the manufacture himself, of
-quack and secret medicines; to abstain from recommending them, either
-verbally or by exhibiting show bills, announcing them for sale, in his
-shop or windows; and to discourage their use, when appealed to.
-
-15th. Having in view the welfare of the community and the advancement
-of pharmaceutic science and interest, it is all important that the
-offices of prescribing and compounding medicines should be kept
-distinct, in this city and surrounding districts. All connection with,
-or moneyed interest in apothecary stores, on the part of physicians,
-should, therefore, be discountenanced. With respect to the pecuniary
-understanding said to exist, in some instances, between apothecaries
-and physicians, we hold, that no well disposed apothecary or physician
-would be a party to such contract, and consider the code of Ethics of
-the College of Pharmacy and the Constitution of the Philadelphia County
-Medical Society as sufficiently explicit on this subject. {58}
-
-16th. In reference to the patronage on the part of Physicians of
-particular apothecaries, we are of opinion, as a general rule, that
-Graduates in Pharmacy should be encouraged in preference to others of
-the same date of business, and whilst admitting the abstract right of
-the physician to send his prescription where he pleases, we think that
-justice should dictate the propriety of his encouraging the nearest
-apothecary deserving of his confidence and that of the patient.
-
- _Committee of County Medical Society:_
-   D. FRANCES CONDIE,
-   WM. MAYBURY,
-   G. EMERSON.
-
- _Committee of Phila. College of Pharmacy:_
-   WILLIAM PROCTER, JR.,
-   H. C. BLAIR,
-   JOHN H. ECKY.
-
-[We republish the above Report from the American Journal of Pharmacy,
-as its “hints” are, in the main, practical and judicious. On one or two
-points, however, we differ from the author of the report. We do not
-think (B. Article 4th,) that the apothecary is ever justified in making
-inquiries relative to the disease of a patient. If his very inquiries
-may “convey a wrong impression to the patient, through an ignorant
-messenger,” how can that ignorant messenger give information regarding
-the disease of a patient, which can guide the apothecary, himself not
-supposed to be versed in therapeutics, in judging of the correctness
-of a prescription? The apothecary, where he is in doubt, may inquire
-the dose and the age of the patient, and then, if he deems necessary,
-may have recourse to the physician himself. And in regard to the next
-article, when the apothecary is asked the “nature of the ingredients”
-in a prescription, it is wisest to refer the patient, _as a rule_, to
-the prescriber.]—ED. JOURNAL OF PHARMACY.
-
-
-NOTE ON THE DIVISION OF GUM RESINS IN POTIONS, AND IN DIACHYLON
-PLAISTER.
-
-At a recent meeting of the Society of Pharmacy, M. Poulenc, submitted
-a method which he has employed for eight years in his laboratory, for
-suspending gum resins in medical prescriptions. It is well known how
-much difficulty there is in suspending either in a mixture, or lotion,
-one or more grammes of gum ammoniac, assafœtida, myrrh, &c. In dividing
-the {59} assafœtida with yolk of egg alone, the manipulation is long;
-but if instead of the egg, we employ 6 or 8 drops of oil of sweet
-almonds per gramme, the gum resin, even when entire, is easily reduced;
-when the oil is well mixed, and the paste as homogeneous as possible,
-a little water is first added, then gradually the quantity of the
-prescribed vehicle, as for the mucilage of a linctus; the product of
-this operation will be a speedy and very perfect emulsion. One of the
-advantages of this _modus faciendi_, is, that the product can be warmed
-without danger of coagulation, besides which, it is generally more easy
-to obtain a few drops of oil of sweet almonds, or any other kind of oil
-than the yolk of an egg.
-
-M. Poulenc has recently applied the same method to the manufacture of
-diachylon plaister, in the following manner: take some entire pieces of
-gum resin, and triturate them briskly in an iron mortar, after which
-in a marble, or porcelain mortar, mix in the oil, and add a sufficient
-quantity of water to obtain an emulsion about as thick as liquid honey;
-strain this through a coarse cloth; there will be hardly anything left
-on the cloth, and the strained substance will be perfectly homogeneous.
-Evaporate in an earthen vessel, by the water-bath, the water which had
-been mixed in, and when the mass presents the appearance of a soft
-extract, the other ingredients of the plaister may be mixed in with
-the greatest ease. This plaister presents a very beautiful appearance,
-and exhales a very decided odour of the gum resins employed in its
-composition. Should it be feared that the small quantity of oil,
-might weaken the consistence of the plaister, M. Poulenc thinks that
-the quantity of turpentine might, without inconvenience, be slightly
-diminished.
-
-We have tried with success the method of M. Poulenc for emulsions with
-gum resins; as to its further use in the preparation of diachylon
-plaister, we cannot speak with certainty.—There is a chemical question,
-which, in all cases governs the preparation of pharmaceutical
-agents.—_Stan. Martin, L’Abeille Medicale._
-
-{60}
-
-
-ESSENCE OF JARGONELLE PEAR.
-
-BY THE EDITOR OF THE PHARMACEUTICAL JOURNAL.
-
-The liquid sold under this name, and which has been for some time in
-use by confectioners, is the _acetate of the oxide of amyle_.
-
-It is prepared with great facility by submitting to distillation
-a mixture of one part of amylic alcohol (better known by the name
-of oil of grain,) two parts of acetate of potash, and one part of
-oil of vitriol. The distilled liquid is to be washed with alkaline
-water, dehydrated by chloride of calcium, and afterwards rectified by
-distillation from protoxide of lead.
-
-Its properties are thus stated by Dumas:—In the state of purity it is
-a colorless, very limpid, volatile liquor, which boils at 257° F. It
-possesses an ethereal aromatic odor, somewhat resembling acetic ether;
-its sp. gr. is less than that of water. It is insoluble in water, but
-soluble in alcohol, ether, oil of grain, &c. Concentrated sulphuric
-acid does not color it in the cold; but by heating the mixture,
-it becomes reddish-yellow, and when the temperature is elevated,
-destructive reaction takes place, the mixture blackens and evolves
-sulphurous acid. Placed in contact with a watery solution of potash
-it is very slowly altered; but an alcoholic solution of this base
-rapidly decomposes, an alkaline acetate is formed, and the oil of grain
-regenerated. Its ultimate composition is
-
- 14 equivalents of carbon,         84
- 14 equivalents of hydrogen,       14
-  4 equivalents of oxygen,         32
-                                  ───
-                                  130
-
-But its proximate composition is amyle, (an hypothetical radical)
-oxygen, and acetic acid.
-
- 1 equivalent amyle (C‗{10} H‗{11})             71
- 1 equivalent oxygen,                            8
- 1 equivalent acetic acid, (C‗{4} H‗{3} O‗{3})  51
-                                               ───
-                                               130
-
-Its formula is thus stated by Brande, AylO, AcO‗{3}; by Fownes,
-AylO, C‗{4} H‗{3} O‗{3}.
-
-_Amylic alcohol_, or _oil of grain_, called by the Germans _fuselol_;
-is the hydrated oxide of amyle, AylO, HO. It is {61} largely produced
-in the distillation of spirit from corn. It is officinal in the Dublin
-Pharmacopœia, where it is termed “_Alcohol amylicum—Fusel oil_,” and
-is employed to yield valerianic acid in the process for making “Sodæ
-Valerianas.”
-
-From information which we have received, we have reason to believe that
-the use, by very young children, of articles of confectionery, flavored
-with essence of pear, is not without danger. A child on two occasions
-became partially comatose, with livid lips and feeble pulse, after
-eating some confectionery which it was calculated contained about one
-drop of the essence.—_London Pharmaceutical Journal, November, ’51._
-
-
-_On the Growth of Plants in Various Gases, Especially substituting
-Carbonic Oxide, Hydrogen, and light Carburetted Hydrogen for the
-Nitrogen of the Air._ By MESSRS. GLADSTONES. DR. GLADSTONE gave the
-results of experiments made and still in progress, with his brother,
-Mr. G. Gladstone. After describing the effect on some flowers, as the
-pansy, the crocus, &c.—a discussion ensued—Mr. R. Warrington suggesting
-that in such experiments the plants be allowed to take root well before
-immersing them in the gases; next, that the combined atmospheres were
-too much saturated with moisture, often causing rapid growth and
-decay; and that these flowers and roots should be compared with others
-grown in similar volumes of confined common air. Prof. Dumas spoke
-of the great, and, indeed, almost unsuspected influence of carbonic
-oxide gas. The judicial investigations in France had disclosed the
-fatal effects of this gas as being so much greater than carbonic acid
-gas. In the atmosphere produced by the burning of charcoal, 1-200th
-part of carbonic oxide was fatal, while with one-third the volume of
-carbonic acid the animal was asphyxiated, but afterwards revived. The
-Chairman said that he had reason to believe that in the combustion of
-anthracite, much carbonic oxide gas is produced.—_Pharmaceutic Journal,
-from Report of British Association in the Athenæum._
-
-{62}
-
-
-EDITORIAL.
-
-
-“AN ACT RELATING TO THE SALE OF DRUGS AND MEDICINES.”—We would call the
-attention of our readers to the following strange bill, which has been
-introduced into the Legislature of this State:
-
- “_The People of the State of New York, represented in Senate and
- Assembly, do enact as follows_:
-
- SECTION 1st. It shall not be lawful for any Physician, Druggist,
- Apothecary, or any person or persons dealing in Drugs or Medicines,
- or engaged in preparing any compound to be given or administered as
- a medicine, to offer the same for sale without first affixing or
- attaching thereto, in a conspicuous manner, a written or printed
- recipe in the English language, stating the drug or drugs, medicine or
- medicines, or ingredients of which it is composed, together with the
- proportions of each.
-
- SECTION 2. Any person or persons violating the preceding section
- of this Act, shall be considered guilty of a misdemeanor, and on
- conviction thereof shall be fined for each offence in a sum not less
- than ten dollars, nor exceeding one hundred dollars, or be imprisoned
- for a term not exceeding six months.
-
- SECTION 3. This Act shall not take effect until the first day of July,
- 1852.
-
- Albany, February 6th, 1852.”
-
-On reading this bill, carelessly, we thought that it was intended to
-be levelled at nostroms and quack medicines. If it were so, however
-laudable the motives of its originators, its policy is much to be
-doubted. The public are not prepared for it; it would, at once, raise
-a clamour about selfish motives and private interests; it would never
-be enforced: and would tend to bring more moderate and judicious
-legislation into contempt. But a careful perusal of the bill shows that
-it applies to Apothecaries and venders of medicines in the ordinary
-prosecution of their business. Should it become a law, no Apothecary
-could sell six cents worth of paregoric, or an ounce of spiced syrup
-of rhubarb, unless he accompanies the article sold with a detailed
-enumeration of the substances composing it, with the proportions of
-each “written or printed in the English language,” without rendering
-himself liable to fine and imprisonment! It is not necessary to
-characterize such a law to Druggists. It is worthy of notice, however,
-as an instance of that spirit of pseudo reform which is at present so
-rampant. As a general rule, we believe, Physicians have no objection
-to their patients knowing the remedies they prescribe, particularly
-when the patients themselves are people of sense and information, but
-in many instances, of what use would it be to the sick man and his
-conclave of friends to be able to spell {63} out the ingredients of
-a prescription? Would it help them to a knowledge of its effects? Are
-they the best judges of its propriety? And if so, had not the law
-better proscribe educated Physicians altogether?
-
-And then “written or printed in the English language”! The framers of
-such a law could not be expected to recognize a National or any other
-Pharmacopœia; which of the twenty trivial names, that in different
-times and different places have been bestowed upon the same article,
-should we choose? Should we follow strictly the modern chemical
-nomenclature, or should we take that of a few years back or should we
-go to the fountain head and return to the names of the old Alchemists?
-The whole matter is unworthy serious comment.
-
-
-COFFINISM.—England for a long time supplied the United States to a
-great extent with quacks and quack medicines. We now begin to produce
-these articles not only in quantity sufficient to supply the home
-market, but are enabled to spare some of our surplus for the mother
-country. Thomsonianism has been transplanted to Great Britain, where
-it flourishes under the auspices of a man named Coffin, and is thence
-termed Coffinism. Coffin has already numerous disciples among the
-illiterate classes of the community. He gives instruction in his
-physic made easy, and furnishes his followers with certificates of
-their acquaintance with the mysteries of steam, hot drops and lobelia.
-Each of his graduates, too, pays a certain sum into a fund created to
-defend those of the associates, who may fall within the grasp of the
-law. Already several of them have been tried for manslaughter, but the
-“Anglo Saxon race,” among its other peculiarities, is determined to be
-quacked when it chooses, and the Coffinites hitherto have got off scot
-free.
-
-
-CAMPHOR AS A STIMULANT.—A lady who for a long time had suffered from
-occasional attacks of hemoptysis, and other signs of consumption, and
-who likewise from reduced circumstances, was subject to great moral
-depression, applied for advice concerning an epileptic seizure from
-which she had suffered for the first time on the preceding night. On
-inquiry it came out that she had for a long time been in the habit
-of taking large quantities of Camphor. She had begun the practice a
-number of years previously, by taking the camphor mixture which had
-been ordered for her invalid husband. Gradually she acquired a fondness
-for it, and constantly increasing the dose, she, at the time of her
-seizure, took daily from two drachms to half an ounce. She was in the
-habit of taking it crude, gradually nibbling her allowance in the
-course of the day. She described its effects as exceedingly agreeable,
-renovating her strength, inspiring her with hope and confidence, and
-enabling her to get through with the fatigues of the day.—When not
-under its influence she was languid, feeble and depressed. Taking into
-account the condition of her lungs, her general health did not seem to
-have been affected by the habit.
-
-{64}
-
-
-CAVENDISH SOCIETY.—We give place willingly to the following circular
-of Mr. Procter, convinced that in so doing we are subserving the best
-interests of our readers. The names of the officers and council of the
-society, give ample assurance of the value of the works selected for
-publication.
-
- CAVENDISH SOCIETY, LONDON.—PRESIDENT—Prof. Thomas Graham.
-
- VICE PRESIDENTS—Dr. Faraday, Prof. Brande, Sir Robert Kane, Arthur
- Aiken, and others.
-
- COUNCIL—Jabob Bell, Dr. Pereira, Dr. Golding Bird, Robert Warrington,
- Alfred S. Taylor, and others.
-
- TREASURER—Dr. Henry Beaumont Leeson.
-
- SECRETARY—Theophilus Redwood.
-
- The Cavendish Society was instituted for the promotion of Chemistry,
- and its allied sciences, by the diffusion of the literature of these
- subjects. The society effects its object by the translation of recent
- works and papers of merit; by the publication of valuable original
- works which would not otherwise be printed, from the slender chance
- of their meeting with a remunerative sale, and by the occasional
- republication or translation of such ancient or earlier modern works,
- as may be considered interesting or useful to the members of the
- Society.
-
- Heretofore persons in this country were admitted to membership on
- application to Mr. Redwood the general Secretary of the Society,
- at London. To facilitate communication between the Society and
- its American members, the undersigned has been appointed _Local
- Secretary_, at Philadelphia, and to whom application should be
- made. The payment of five dollars U. S. Currency or its equivalent,
- annually, entitles each member to a copy of every work published by
- the Society for the period during which their membership continues.
- No member shall be entitled to the Society’s publications unless
- his annual subscription shall have been duly paid, and it is to be
- understood that the charges for duty and freight on the books arising
- from their shipment to this country are to be paid to the Secretary on
- delivery.
-
- The number of Works published will necessarily depend on the number of
- annual subscribers; hence it is of great importance to the individual
- interest of the members that their aggregate number should be
- large. The Society now issue two or three volumes yearly. The books
- are handsomely printed on a uniform plan, for members only, their
- publication being conducted by the Council who are elected annually by
- Ballot from among the members; every member having a vote.
-
- Members by subscribing for all or any of the past years, may get the
- works issued during those years except the first volume, published by
- the Society in 1848, entitled “Chemical reports and Memoirs by Thomas
- Graham, F. R. S.” which is now out of print. The other volume of that
- year which is the 1st volume of Gmelin’s Handbook of Chemistry, can be
- obtained by paying half the subscription.
-
- The subscribers for 1849 are entitled to the 2d and 3d volumes of
- Gmelin’s Chemistry—and the Life of Cavendish by Dr. George Wilson of
- Edinburgh. The subscribers for 1850 receive the 4th and 5th volumes
- of Gmelin’s work, and those of the Current year will receive the 1st
- volume of Lehmann’s Physiological Chemistry translated by Dr. Day, and
- the 6th volume of Gmelin.
-
- As the sole object of the Cavendish Society is the encouragement of
- an important branch of scientific literature, all who feel interested
- in Chemistry should assist in that object by subscribing, or using
- their influence with others to extend the list of members, which now
- amounts to more than 850. All those who may desire to become members,
- to examine the works already issued, or to gain further information
- regarding the Society, are requested to apply to the undersigned.
-
- WILLIAM PROCTER, JR.
-
- October, 1851.      166 South 9th Street, Philadelphia.
-
-{65}
-
-
-
-
-NEW YORK
-
-JOURNAL OF PHARMACY.
-
-MARCH, 1852.
-
-
-ON THE HEAVY OIL OF WINE.
-
-BY EDWARD N. KENT.
-
-Having occasion to use a little of the officinal oil of wine, I applied
-to one of our wholesale Druggists, who furnished me with an article,
-which I found to be useless. On testing a sample, it _mixed with water_
-and produced a slight milkiness. It was evidently alcohol, containing a
-trace only of oil. The price of this was $4 per pound.
-
-Samples were then obtained from all of the wholesale Druggists from
-whom it could be procured, and each of these was proved to be equally
-worthless, as the results of the following tests will show.
-
-The second sample, when agitated with water, separated into two
-portions, one of which was aqueous and the other ethereal. The latter
-exposed to the air, to separate the ether by spontaneous evaporation,
-left a residue which was completely _soluble_ in water, and proved to
-be alcohol. The price of this mixture of alcohol and ether was $4,50
-per pound.
-
-The third sample when agitated with water, became slightly turbid, and
-was dissolved. It had a pale yellow color, ethereal odor, and the sp.
-gr. was .909. A portion of it, exposed twelve hours to spontaneous
-evaporation in a graduated measure, lost one-eighth of its bulk, and
-on the application of a taper, burned with a _blue_ flame. It is quite
-evident that this also was alcohol with a small portion of ether, and a
-trace of oil. The price {66} of this was $4,50 per pound, and it was
-labelled “Ol. Aetherii.” It bore also the name of the _importers_.
-
-The fourth sample, when agitated with water, became slightly turbid,
-and dissolved. It was colorless, had an ethereal odor, and the sp.
-gr. was .844. This also burned with a _blue_ flame. The price of this
-worthless article was $6,50 per pound. It was labelled “Ol. Vini Pur,”
-and bore also the name of the _London_ manufacturer.
-
-It may be well to remark, that the officinal oil of wine, when agitated
-with water, separates and falls to the bottom, being heavier than
-water, whence its name. The sp. gr. of the pure oil is not less than
-1.05, and it has a yellow color.
-
-The labels on the third and fourth samples above mentioned, are alone
-not sufficient evidence to prove that they were _imported_, but, in
-addition to the label, I was informed that one of them _was recently
-imported_, and also that the manufacturing Chemists in this country do
-not make or sell the oil of wine.—In view of this statement (if true)
-the question naturally arises: How did the above worthless articles
-pass the Custom House under the existing law for “the prevention of the
-importation of spurious and adulterated drugs?”
-
-I have examined another sample which is not offered for sale as oil of
-wine, but as it has properties resembling more nearly the officinal oil
-than either of the four samples above mentioned, it might possibly be
-confounded with the oil of wine. This sample had an agreeable _vinous
-odor_, and a _yellow_ color.—When agitated with water a considerable
-quantity of oil separated, which was _lighter_ than water. A portion of
-the original oil, distilled in a glass retort with a thermometer passed
-through a cork, inserted into the tubulare, gave about half its bulk of
-a colorless liquid below 180º F., which proved to be alcohol containing
-a small quantity of acetic ether and œnanthic ether.—The residue
-left in the retort had the properties of a mixture of œnanthic ether
-and œnanthic acid. The above article has been, extensively used (in
-connection with acetic ether) for the {67} manufacture of factitious
-brandy, and is sold for about $1,50 per ounce.
-
-After having tested samples of all the different articles offered for
-sale under the name of “oil of wine” by the wholesale Druggists in New
-York, without being able to find either of them worthy of the name, I
-prepared a little for my own use, by the following process, which is
-that of the London Pharmacopœia:
-
-2 lbs. oil of vitriol were carefully mixed with 1 lb. commercial
-alcohol, and distilled very slowly in a glass retort. The product
-consisted of two portions, the lightest of which was an ethereal
-solution of oil of wine measuring 6 oz. This was exposed to the air
-for twenty-four hours to remove the ether by spontaneous evaporation.
-The residue, washed with a little dilute solution of potash and dried,
-was pure “Heavy Oil of Wine,” and weighed half an ounce. The quantity
-obtained, though small, corresponds exactly with the proportion
-obtained by Hennell at the Apothecaries’ Hall, London, viz: 17 oz. oil
-of wine from 34 lbs. alcohol, and 68 lbs. oil of vitriol.
-
-By a simple calculation of the cost of manufacture, and expense of
-importation, it will be seen that pure oil of wine could not be
-imported and sold at the prices asked for the samples above mentioned.
-In making this calculation it will be necessary to observe that under
-the existing excise law, the price of alcohol in England is much higher
-than in the United States, and is now, I am informed, from 17 to 18
-shillings sterling per gallon. The following calculation (based on the
-results of Hennell’s process) gives the cost of _pure_ oil of wine,
-manufactured in England and imported into this country, at $35 per
-pound; but the spurious articles now sold for oil of wine, are offered
-at prices varying from $4 to $6,50 per pound.
-
- 34 lbs. alcohol (about 5 gallons)
-   at 17 shillings sterling per gallon,                $18 70
- 68 lbs. oil of vitriol, at 2 1/2 cents per pound,       1 70
- Labor, fire, packing, bottle, &c.                       1 50 {68}
-                                                         ────
- Cost of 17 oz. oil, to the English manufacturer,      $21 90
-   Or per pound,
- Cost of making 1 lb. pure oil in England,             $20 61
- Manufacturer’s profit, say 10 per cent.,                2 06
-                                                         ────
- Wholesale price in England,                           $22 67
- Duties paid by importer, 30 per cent.                   6 80
- Charges paid by importer, 10 per cent.                  2 26
-                                                         ────
- Cost of importation,                                  $31 73
- Profit on importation,                                  3 27
-                                                         ────
- Wholesale price of the imported oil,                  $35 00
-
-I regret that I have been unable to find the price of pure oil of wine
-quoted in the lists of any of the manufacturing chemists, but think
-it fair to infer that if the article is offered for sale, of English
-manufacture, at less than $2 per ounce, that impurity or adulteration
-may be suspected, and in this case, I would recommend the following
-process for testing its purity.
-
-Agitate a small portion of the oil in a test tube, with an equal
-measure of water. If it dissolves, reject the sample as impure, but if
-the mixture separates into two portions, after standing at rest for
-a few moments, put it on a paper filter, previously well moistened
-with water. The water in the mixture will pass through the moistened
-filter, leaving ether or oil upon it. If this is colorless or very pale
-yellow, it should be exposed a few hours to spontaneous evaporation,
-to ascertain if it contains oil. But if it is yellow and heavier than
-water, this portion may consist of oil of wine; this, however, should
-be verified by observing the odor and sp. gr. of the oil. By carefully
-operating upon a _known_ quantity in the above manner, the _proportion_
-of alcohol or ether (if present) may be easily determined.
-
-As the efficacy of Hoffman’s Anodyne is due to the heavy oil of wine
-contained in it, and as the proportion of this oil to the other
-constituents is small, it is particularly necessary that {69} the oil
-should be pure. The high price of alcohol in England, and a defect in
-the directions formerly given for its preparation in the United States
-Dispensatory, are the probable causes of the absence of pure oil of
-wine in New York. In recent editions of the above work, the defective
-proportions have been substituted by those of the London college, and
-there is now no reason why pure oil of wine should not be made in the
-United States, where alcohol is cheaper, probably, than in any other
-part of the world. I hope that our manufacturing chemists will turn
-their attention to this subject, and displace all worthless chemical
-and pharmaceutical preparations by such as will be useful to the
-public, and creditable to the manufacturers.
-
-[The United States Pharmacopœia directs two pints of alcohol (sp. gr.
-.835) to be mixed with three pints of sulphuric acid (sp. gr. 1.845);
-by weight rather better than 3.3 of the acid, to one part of alcohol,
-and gives 1.096 as the sp. gr. of the oil.]—ED.
-
-
-PRACTICAL HINTS,
-
-BY A WHOLESALE DRUGGIST.
-
-The prosecution of the business of preparing and vending medicines,
-has been and still is too exclusively confined to the dollar and cent
-department.
-
-Buyers take too much for granted. Ipecac is Ipecac all the world over,
-and he who can sell Ipecac at the lowest price is likely to sell the
-most and make the most money. To the credit of the craft, in part
-however, a manifest improvement in this respect, has taken place within
-the last few years, to their credit in part, I say, because the demand
-for good medicines has of late increased, _compelling_ some druggists
-to furnish better qualities than they otherwise would.
-
-It is a common remark that the late law, passed by Congress, relating
-to the introduction or importation of adulterated and inferior drugs,
-has produced a more desirable state of things in {70} our community,
-by opening the eyes of consumers to the fact that inferior drugs are
-imported and are consumed. This is only in part true. An improved
-state of public opinion first caused the law to be passed; this,
-in connection with the law when passed, caused a further progress.
-The stone, thus set in motion, will no doubt roll on till an entire
-revolution takes place both with venders and consumers.
-
-It is not to be supposed that the person who swallows a dose of
-medicine dreams that it is not of good quality, or that he would
-hesitate in the value of six cents when purchasing his dose, between
-the best of its kind and that which is comparatively inert. The root
-of this great evil, viz: the purchasing, selling, and administering
-inferior medicines is _ignorance_. The patient can have little or no
-knowledge of the efficacy of what is given to him to take, and to the
-shame of a large portion of the medical profession be it spoken, the
-doctor knows but little more. I speak with confidence when I say that
-the knowledge of the sensible properties of drugs is almost exclusively
-confined to the druggist and apothecary. Hence in the purchase of his
-supplies of medicines of the apothecary, the only guide the physician
-has, is the price and the word of the seller,—this ought not so to
-be. At this time I do not profess to offer a remedy. The object of
-the present communication is to offer a few practical hints to the
-druggist, connected with the purchase of his stock; many, if not all,
-desire to purchase reliable medicines, but from want of knowledge
-between good and bad have only the price, and the reputation of the
-seller to guide them.
-
-I now propose to take up articles of general use, and suggest a few
-simple tests of their quality and condition, which any one can apply
-with such means as an ordinary drug store furnishes.
-
-Before proceeding with this subject, however, I beg leave to urge upon
-every druggist and apothecary, the great importance of having, at his
-disposal, a set of reliable hydrometers for liquids heavier and lighter
-than water, and a properly constructed thermometer for determining
-the temperature of liquids. He will find them his right hand helps,
-not only for {71} detecting adulterations, but for determining the
-strength or quality of nearly all the liquids which come under his
-inspection.
-
-Certain arbitrary terms have been applied to solutions of ammonia
-and ethers, such as F.; F. F.; F. F. F.; and so on. These terms were
-originally intended to indicate the exact strength of those liquids to
-which they were applied; but, unfortunately, every manufacturer has a
-standard of his own, indicating the value of an F, or in other words
-these terms mean nothing, and should be banished from the books of
-every intelligent dealer. The hydrometer will determine the strength
-accurately and beyond all question, the dealer therefore should make
-his purchases, estimating the strength by the specific gravity either
-in decimals or degrees.
-
-In detecting adulterations of essential oils, the Hydrometer is
-invaluable. If the specific gravity of an oil does not accord with the
-standard, it is proof positive that the oil is not pure; the reverse,
-however, is not so clear. If the specific gravity does accord with the
-standard, it is not a positive proof that it is pure, for the reason
-that the adulteration may be of the same specific gravity as the oil
-itself.
-
-The strength of acids such as muriatic, nitric, sulphuric, aqua fortis,
-and the like, is accurately determined by this means.
-
-A set of these instruments, on which dependence may be placed, can be
-obtained at a price varying from $5 to $12.
-
-Let the dealer apply these instruments (where applicable) to all his
-purchases, and he will soon find out what he sells and who deals
-honestly by him.
-
-MAGNESIA (CALCINED). Nearly all that is used in this country is
-imported from England. The quality, notwithstanding the drug law, is
-usually quite inferior. The impurities generally are carb. magnesia,
-lime, alumina and silica.
-
-To detect carb. magnesia, put into a vial a small portion, and add two
-or three times its bulk of water; after mixing them well, add a small
-portion of sulphuric acid—effervesence will indicate the presence of
-a carbonate. On the addition of an {72} excess of acid, the solution
-should be perfectly clear; whatever is deposited is impurity of some
-kind; if lime is present an insoluble sulphate is formed.
-
-The presence of moisture is indicated by the magnesia being lumpy, and
-when shaken, the particles do not flow among themselves easily. Good
-magnesia has a light, lively appearance, and is pearly white.—(TO BE
-CONTINUED.)
-
-
-ON BLISTERING CERATE.
-
-BY EUGENE DUPUY, PARMACEUTIST, NEW YORK.
-
-The successful researches of Robiquet in his labors on the Cantharis
-Vesicatoria, have demonstrated that the cristallisable neutral
-substance to which he gave the name of _Cantharidine_, is the proximate
-epispastic principle of the blistering cerate on which the physician
-depends in most cases, where an extended and yet deep revulsive action
-is necessary, whether it is derived from the cantharis vesicatoria or
-from other members of the trachelid family. The experiments of Mess.
-Lavini & Sobrero of Turin, have confirmed the supposition made by
-analogy, of the indentity which exists in the vesicating principle
-of all these coleopters, and there is a strong presumption that our
-commerce will soon be enriched with the beautiful cantharis, (C.
-nutalli,) abounding in the midst of our rising South Western States,
-and that it will eventually supersede the cantharis vesicatoria we
-obtain from abroad. If adulteration would not destroy, by its baneful
-influence, the advantageous form of complex extracts, we could obtain
-a desirable amelioration of our officinal cerate, by substituting for
-the powdered cantharides an equivalent proportion of the oleaginous
-liquid, with which they are saturated in the fresh state, and which is
-possessed of all the vesicating properties of the insect. That liquid
-is prepared in various parts of the Sardinian kingdom, especially
-at Verceil, where it is extensively used by veterinary surgeons in
-preference to the preparations from the powdered insect, it {73}
-producing deeper revulsion. It is also used, diluted in bland
-oleaginous substances for stimulating the activity of feeble serous
-exudations. As for the present we have not generally access to that
-natural product of the cantharis, we must select those insects in the
-best possible conditions, and endeavor to fix their active principle
-in such a manner as will diminish the liability to spontaneous
-volatilisation of which it is susceptible, even at ordinary temperature.
-
-I have been for many years in the habit of preparing a blistering
-plaster which, I think, has some advantages over our officinal cerate,
-because it fixes the volatilisable principle, and at the same time
-rather increases than diminishes its energy.
-
-To the officinal plastic mixture in which the powdered cantharides
-have been gradually incorporated, I add about 5 per cent of a mixture
-containing equal parts of strong acetic acid (prepared by distillation
-of the acetates of copper or lead), and pulverised camphor. The acetic
-acid transforms the cantharidine into an acetate of the same which is
-not volatilized at ordinary temperatures, and the camphor diminishes
-the symptoms of strangury which some patients have to endure when the
-application of a blistering plaster is resorted to. I also usually
-spread the blister on adhesive plaster on account of the convenient
-adhesion of that material.
-
-
-ON THE ADULTERATION OF CERTAIN DRUGS AND THE METHODS OF DETECTING SAID
-ADULTERATIONS.
-
-BY C. TOWNSEND HARRIS,
-
-_Demonstrator of Chemistry in the New York Medical College_.
-
-Since the establishment of the Office of Inspector of drugs in the
-United States custom houses, a vast amount of spurious and adulterated
-articles has been prevented from finding its way into our market. By
-reference to the report of the {74} inspector of drugs for the port
-of New York, through which is received the great bulk of medicinals
-imported into this country, some idea may be formed of the enormous
-quantity of spurious opium, jalap root, scammony, iodine, iodide of
-potassium, etc. annually introduced from abroad. We find that in ten
-months, from July 1848 to April 1849, inclusive, 90,000 pounds of
-adulterated drugs were rejected at the above named office. During the
-years 1848 and ’50, numerous specimens of adulterated articles were
-submitted to me for examination by Dr. Baily the inspector of drugs.
-From a long list I may select one as an instance of the impudence
-exhibited by foreign manufacturers, in attempting to thrust upon
-us their villainous compounds, “as standard articles.” I found a
-specimen of iodine, purporting to be pure, to contain 2 per cent. of
-non-volatile matter and _40 per cent. of water_. The solid materials
-may be passed over as accidental, but the water is undoubtedly a
-fraudulent addition.
-
-Beneficial as the establishment of this office may be in preventing
-the admission of any but genuine articles from abroad, in the present
-state of pharmaceutical regulations, it merely serves as a stimulus to
-the exercise of ingenuity at _home_, for producing those adulterations
-no longer supplied from the other side of the water. It is hardly
-necessary to say that rogues are to be found in every nation and in
-every clime, but I am justified (as I believe) in asserting that the
-spurious articles, at present met with in our market, are manufactured
-by foreigners whose métier has been destroyed by the passage of the
-drug bill. It is positively certain that parties who some years since
-conducted a factory in Brussels, from which spurious sulphate of
-quinine, sulphate of morphine, narcotine, &c., were palmed upon the
-citizens of the United States as genuine, are now at work in a city not
-one hundred miles distant.
-
-How is this home adulteration to be met? The appointment of a home
-inspector of drugs, whose duty it should be to visit, from time to
-time, our apothecaries’ establishments, and to inspect the quality
-of the drugs therein, would be at variance {75} with republican
-ideas; too much like the excise law of England so obnoxious to the
-semi-republican inhabitants of Great Brittain. This question, however,
-has been sufficiently discussed by others more able than myself.
-The remedy for these abuses rests with the druggists themselves.
-Legislative enactments are useless. The present college of pharmacy
-which includes in its list of trustees, some of the leading
-pharmaceutists of the country, has done much towards elevating the
-profession. It is to be hoped that the laws under which they act will
-be extended to other states, and that no apothecary, unless duly
-licensed by the society, shall have any right to pursue his profession
-without the diploma of the college.
-
-It is a matter of congratulation that some houses in this city, and
-those doing an extensive business, and of the highest reputation, have
-associated with themselves partners possessing a competent knowledge of
-chemistry. From these houses nothing can be obtained which is not up to
-the standard. Our apothecaries will find it to their advantage in the
-end, to employ persons possessing sufficient knowledge to enable them
-to detect adulterations in drugs, and not only that, but to be able to
-prepare the most difficult articles.
-
-I shall relate in this paper some instances of _home adulterations_
-which have recently come under my notice. I have been furnished by
-retail druggists in the city with several specimens of the bitartrate
-of potassa. The results of the examination of five different specimens
-are here given:
-
- No. 1. Bitartrate of Potassa,      50 per cent.
-        Sulphate of Lime,           50 per cent.
-                                   ────
-                                   100
-
- No. 2. Bitartrate of Potassa,      65 per cent.
-        Sulphate of Lime,           35 per cent.
-                                   ────
-                                   100
-
- No. 3. Bitartrate of Potassa,      70 per cent.
-        Sulphate of Lime,           30 per cent.
-                                   ────
-                                   100 {76}
-
- No. 4. Bitartrate of Potassa,      75 per cent.
-        Sulphate of Lime,           25 per cent.
-                                   ────
-                                   100
-
-No. 5 contains a small per centage of carbonate of potassa and a
-considerable amount of carbonate of lime. No weighings were made, but
-the amount of adulteration was apparently much less than in the other
-cases.
-
-I have also had occasion to examine some specimens of iodide of
-potassium, procured from some of the first druggists in the city.
-
- Specimen No. 1, contained:
-                 Iodide of Potassium,           64 per cent.
-                 Chloride of Potassium,         36 per cent.
-                                               ────
-                                               100
-
-   No. 2. Iodide of Potassium,                  70 per cent.
-          Chloride of Potassium and Carbonate
-          of Potassium,                         30 per cent.
-                                               ────
-                                               100
-
-   No. 3. Iodide of Potassium,                  35 per cent.
-          Chloride of Potassium and
-          Chloride of Sodium,                   65 per cent.
-                                               ────
-                                               100
-
-In numerous examinations made of the bitartrate of potassa and of the
-iodide of potassium from foreign sources, I have never detected in the
-iodide of potassium more than 15 per cent of impurities, nor in the
-bitrate of potassa, as imported from France, more than 8 per cent. Of
-course the crude commercial argol always contains a small amount of
-tartrate of lime.
-
-In a sample of so called “cod liver oil,” submitted to me for
-examination by Professor Davis, of the New York Medical College, I
-am unable to detect a single trace of iodine. The {77} oil is rank,
-_almost black_, and is evidently a mixture of whale oil and linseed
-oil; in fact it contains no cod liver oil whatever. This article has
-been sold by a fellow professing to be a druggist and physician.
-
-It is certainly most important that druggists and their employers
-should possess a sufficient knowledge of chemical tests to enable them
-to detect sophistications. I propose to give hereafter the details of
-examinations of adulterated medicines and the simplest methods I can
-devise for the detection of such adulterations, and I trust others
-beside myself will turn their attention toward a subject so fraught
-with interest to the Pharmaceutist.
-
-
-ON WOORARA.
-
-A NOTE READ TO THE ACADEMY OF SCIENCES, BY M. U. BERNARD, IN HIS OWN
-NAME, AND THAT OF M. PELOUZE.
-
-Woorara is a violent poison, prepared by some of the tribes inhabiting
-the forests bordering the Upper Oronoco, the Rio Negro, and the Amazon.
-
-Although the existence of this poison has been long known, very vague
-notions are still entertained regarding its component parts. Amongst
-the savages who sell or barter it, its preparation remains secret; and
-has only been made known through their priests or sorcerers. According
-to Humboldt, woorara is simply a watery extract of a creeper, belonging
-to the genus Strychnia. According to M. M. Boussingault and Roulin,
-it contains a poisonous substance, analagous to a vegetable alkali,
-woorarine. The information given us by M. Houdet, differs from that of
-M. Humboldt only in this respect, that he observes, before the extract
-is quite dry, the Indians of Messaya pour on it a few drops of the
-venom gathered from the glands of the most venomous serpents. This
-last circumstance is important, as we shall see that the physiological
-effects of woorara must {78} cause us to regard its mode of action as
-entirely analogous to that of venoms.
-
-Woorara is a solid extract, black, resinous looking, soluble in water.
-We shall have occasion hereafter to advert to its chemical properties.
-Our attention will now be directed to its physiological effects when
-exerted on living animals. Woorara resembles venom in this, that it
-can be eaten, that is, taken into the digestive canal of man and
-other animals with impunity, whilst when introduced by puncture
-under the skin, or in any other part of the body, its absorption is
-invariably attended with fatal results in all animals. This fact we
-have repeatedly tested. The action of this poison is instantaneous,
-when it is injected directly into the blood vessels. A weak, watery
-solution thrown into the jugular vein of a dog or a rabbit, has always
-produced sudden death, the animal uttering no cry, nor manifesting any
-convulsive agitation. The effect on the whole organization is electric,
-and the vital functions are arrested as by lightning. When introduced
-under the skin in solution or in solid fragments, its poisonous action
-manifests itself more slowly, and the time is varied by the dose, the
-size of the animal, and its species. Other things being equal, birds
-die soonest, then the mammalia, and then reptiles; thus, with the same
-specimen, birds and mammalia die in a few minutes, whilst a reptile
-will survive for several hours. But death is invariably accompanied
-by similar, and very remarkable symptoms; in the first place, when
-pricked, the animal apparently feels nothing. If a bird, for example,
-it flies as usual, and at the end of a few seconds, when the woorara
-is very active, it drops dead without uttering a cry, or appearing to
-suffer; if it be a rabbit or a dog, it runs about as usual after the
-puncture, without any abnormal symptom, then, after some seconds, as if
-fatigued, it lies down, appears to sleep, its respiration stops, and
-life is terminated, without a groan or sign of pain. Rarely do we see
-even slight contraction of the sub-cutaneous muscles of the face and
-body.
-
-On examining immediately after death, the bodies of {79} animals
-thus poisoned, we have always observed phenomena which indicate a
-complete annihilation of all the properties of the nervous system. It
-is generally found that when death has been sudden, the nerves retain
-for some time the power of reaction under the influence of mechanical
-or chemical excitement; if a nerve of motion be excited, convulsions
-supervene in the muscles to which it leads; if the skin be pinched, it
-causes reflex motion. But none of these are observed after death by
-woorara. The nerves of the still warm animal, in whom life has been
-extinct but a minute, are inert as if it had been dead and cold for
-several hours.
-
-Again, in animals poisoned by woorara, the blood is invariably black,
-and frequently so changed as to coagulate with difficulty, and not to
-become bright on re-exposure to air.
-
-If we compare this effect of woorara with that of the viper, we shall
-observe a great analogy between them, varying only in intensity. We
-may further remark, that woorara, like the poison of the viper, may be
-introduced with impunity into the intestinal canal. We might be led
-to suppose from its perfect innocuousness when introduced into the
-stomach, that it became modified, or in a word, digested by the gastric
-juice, so as to destroy its deleterious properties. To verify this
-supposition, we caused some woorara to be digested in the gastric juice
-of a dog, at a temperature of between 38° and 40° of centigrade. After
-leaving it for forty-eight hours, we introduced it by puncture into
-the veins of some animals, who died with the before-named symptoms;
-establishing the fact, that a prolonged contact with the gastric juice
-in no way modified its deleterious properties. This experiment has
-been repeated in various ways, and on the separate parts, as well as
-on the living animal. We made a dog, in whose stomach we had formed a
-fistulous opening, swallow some fragments of woorara mixed with his
-food; after a little time we obtained some of his gastric juice, and on
-analysis found it to resemble in every respect a solution of woorara.
-Thus we have the singular phenomenon of an animal, carrying in its
-stomach, harmless to itself, a liquid {80} which would cause instant
-death to any others who should be inoculated with it. Not only did the
-dog which swallowed the poison experience no fatal result from it, but
-its digestion was not even affected by it; the gastric juice thus mixed
-retaining all its digestive properties.
-
-These facts prove that the innocuousness of woorara when introduced
-into the stomach, is not attributable to the action of the gastric
-juice. The other intestinal liquids, saliva, bile, pancreatic juice,
-were attended with similar results, none of them producing by contact
-the least difference in the poisonous effect of woorara.
-
-The explanation of these facts appears to be simply this: there
-is a want of absorption of the venomous substance through the
-gastro-intestinal mucous membrane. This can be shown by the following
-experiment:—Take the fresh gastric mucous membrane of a dog or rabbit,
-recently killed; adapt it to an endosmometer in such a manner that
-the mucous surface remains outwards; then plunge the endosmometer
-containing sweetened water into a watery solution of woorara, and we
-shall find, after two or three hours, that the endosmosis will be
-complete. The level will have risen in the endosmometer, and yet the
-liquid contained in it will shew no trace of the poison, as can be
-proved by inoculating other animals with it.
-
-If the experiment were to last longer, the endosmose of the poison
-might take place, but we should then find that the epithelium which
-covers its surface, had become changed, and had permitted the
-imbibition and endosmosis of the poisonous principle. This is so
-true, that if a partially decomposed membrane should be used instead
-of a fresh one, the endosmose of the poisonous principle takes place
-immediately. On the living animal, we can establish this property
-of the intestinal mucous membrane, and can demonstrate that amongst
-substances perfectly soluble in appearance there are some which when
-lodged on the surface of the intestinal membrane, may remain there
-without being absorbed, or without affecting the system. The active
-principle of woorara is of this kind. {81}
-
-It was necessary to ascertain whether other mucous membranes, besides
-those of the digestive organs, were possessed of this same property
-with regard to woorara. We have tried it successively on those of
-the bladder, the nasal fossæ and the eyes, and in all we have found
-an equal resistance to the absorption of the poisonous principle. An
-injection of this poison into the bladder of a dog, was retained six or
-eight hours, with no bad effects; but the urine voided after that time
-had all the poisonous properties of woorara.
-
-One mucous membrane alone offers a remarkable exception; it is the
-pulmonary. This acts, in regard to the absorption of woorara, precisely
-like the sub-cutaneous cellular tissue; and on the introduction of
-some drops of the poisonous solution into the air passages, when every
-precaution is taken, death takes place as rapidly as when the skin has
-been punctured.
-
-We readily perceive that this membrane, destined solely for the passage
-of the air to accomplish the phenomena of respiration, possesses a
-peculiar structure, and is unprovided with that protecting mucous which
-lubricates the other membranes communicating with the exterior. This
-similarity between the pulmonary mucous membrane and cellular tissue,
-supports the ideas which M. Majendie, long ago, promulgated on the
-structure of the lungs.
-
-We shall not expatiate, at present, on the remarkable difference in
-the absorbent properties of the various mucous membranes of the body.
-We shall have occasion again to revert to the subject, and shall only
-state that this fact, in relation to the absorption of woorara, is
-not isolated, and that in the intestines, for example, many active
-principles, although soluble, cannot be absorbed, and are consequently
-forced to act locally, or as if shut up in a closed vessel.
-
-For the present we will content ourselves with these conclusions:
-
-1st. That woorara acts upon animals in the same manner as venom.
-
-2nd. That its harmlessness, when injected into the intestinal {82}
-canal, cannot be explained by any change which the poisonous principle
-undergoes, but rather by a special property of the gastro-intestinal
-mucous membrane which resists its absorption.—_Journal de Pharmacie et
-Chimie._
-
-
-SUMBUL, OR YATAMANSI.
-
-Sumbul, the name and therapeutical properties of which are almost
-unknown to French physicians, appears to have been employed in India
-from a very remote period. Pietro Della Valle, who travelled through
-the different countries of Asia, in 1623, 1624 and 1625, mentions that
-sumbul is a root, and not a stem, although the Arabic word, sumbul, he
-observes, refers to the whole plant. It appears that the word sumbul is
-applied in India to a plant and portions of a plant, used as a perfume,
-as an incense in religious ceremonies, and again, as a medicinal
-substance. Sir William Jones thought that the true sumbul was a species
-of valerian, known both to the Hindoos and Brahmins, under the name of
-yatamansi. But, according to M. Granville, it appears to be an aquatic
-umbelliferous plant, found in the neighborhood of rivers.
-
-It is erroneously asserted that it grows in Hindostan. It is not found
-in any part of the Indian territory, occupied by the English. The
-plant grows in Bootan and the mountains of Nepaul; and although large
-quantities of the dried plant have been exported, no botanist has yet
-been able to describe its characteristics from a living specimen. It
-is said that the native laws forbid the exportation of a living plant,
-without an order from the sovereign.
-
-Sumbul has been described as a mass of roots and leaves of a greenish
-color, crumpled and pressed one against the other. This is an error,
-and arises from the fact of some having been first shown at St.
-Petersburg, which had been mixed with a {83} strong decoction of
-this substance of a greenish color. Sumbul appears, on the contrary,
-under the form of a root, thick, homogeneous, of two, three, and even
-four inches in diameter, cut in pieces of an inch to an inch and a
-half long, and whose section presents a fibrous aspect, and a white
-and yellowish tint. It is brought from the centre of Asia, to Moscow,
-via Kiatcha. In all the good specimens of sumbul, the epidermis, or
-external covering, is of a dark shade, approaching to brown; if the
-color be strongly marked, it indicates that the plant was old. The
-epidermis is very thin, and much wrinkled. The interior substance is
-composed of thick, irregular fibres, which may be separated from one
-another, after the outer covering is detached, and which indicate a
-porous structure, common to aquatic plants. If, after taking off the
-outer covering, we make a transverse cut, we shall perceive an external
-layer, white and marbled, and an internal layer, thicker and yellowish.
-With a powerful lens we can distinguish transparent points, which look
-like grains of fecula.
-
-Two very remarkable physical characteristics demand our attention when
-we examine this root: first, its perfume, resembling the purest musk;
-then the powerful aroma which it exhales when under mastication. This
-odor of musk is so marked, that some had thought it owed this quality
-to its contact with musk, in the transportation of drugs from Asia to
-Europe; but such an idea is negatived by the fact that sumbul retains
-this odor, even when very old; that even when the external parts have
-lost it, it continues in the interior; that this odoriferous principle
-may be extracted from it by chemical manipulation; and again, that it
-has received from botanists the name of moschus-wurzel or musk-root.
-Its aromatic taste is also a distinguishing characteristic. The first
-impression on the palate is slightly sweet, this is rapidly replaced by
-a balsamic flavor, and then by a bitter, but not unpleasant taste.—As
-mastication proceeds, the mouth and throat experience a strong
-aromatic and pungent taste, and the breath becomes impregnated with
-the penetrating odor of the {84} substance.—This flavor is still more
-decided in the alcoholic tincture than in the root.
-
-The chemical analysis of sumbul has occupied several German chemists,
-Reinsch, Schnitzlein, Frichinger, and Kalthover. According to Reinsch,
-the root of sumbul contains, besides water, traces of an ethereal oil,
-two balsamic compounds, (resins) one soluble in ether, the other in
-alcohol, wax, aromatic spirit, and a bitter substance, soluble in water
-or alcohol. The solution of this bitter substance, treated with lime,
-and chloride of sodium, gives a sediment composed of gum, starch and
-saline materials. The perfume appears to be contained in the balsams,
-and its intensity is increased by being diluted with water. Finally,
-sumbul contains an acid, which Reinsch proposes calling _sumbulic acid_.
-
-Kalthover directed his attention further to its pharmaceutical uses,
-and obtained an alcoholic tincture of a yellowish color, musky odor,
-and bitter taste; an ethereal tincture, yellowish, musky, and of
-a sharp taste; and a substance resembling wax, precipitated after
-repeated decoctions in water.
-
-It appears then, that we may obtain from sumbul for medical purposes,
-two tinctures, one alcoholic, the other ethereal, which seem to differ
-in their principles, and which may be given in drops alone, or combined
-with other medicines; and a bitter extract, soluble in water, which may
-be administered in pills. The powdered root may also be given crude, or
-in pills.—_(Union Médicale) in Journal de Pharmacie et de Chimie._
-
-[Sumbul has been used as an anti spasmodic and a nervine; further
-investigation is needed however to ascertain its true place in the
-Materia Medica. In the mean time it has been imported by one of our
-apothecaries, Mr. Delluc, and we may soon hope to learn something more
-concerning its effects upon the system.] ED. JOURNAL OF PHARMACY.
-
-{85}
-
-
-OBSERVATIONS ON THE STRENGTH OF TINCTURE OF OPIUM.
-
-BY A. B. GARROD, M. D.
-
-Professor of Materia Medica at University College, and Physician to
-University College Hospital.
-
-As many discrepant statements are to be found in works on Materia
-Medica, in various dispensatories, &c. concerning the strength of the
-tincture of opium of the London Pharmacopœia, it may not be either
-uninstructive or uninteresting at least to the medical profession,
-to have the subject brought under notice and discussion at this
-society, in order that they may arrive at some definite conclusion
-concerning the strength of a preparation they are in the daily habit of
-prescribing. If we refer to the London Pharmacopœia of 1836, we find
-the following directions for making the tincture of opium:―
-
- Take of hard opium powdered, 3 ounces,
- Proof spirit, 2 pints,
- Macerate for fourteen days, and strain.
-
-In the Pharmacopœia of 1851, we are ordered to―
-
- Take of opium powdered, 3 ounces,
- Proof spirit, 2 pints,
- Macerate for seven days, press out, and strain.
-
-The only difference in the directions being that powdered _hard_
-opium, and digestion for _fourteen_ days, are ordered in the one case,
-and simply powdered opium and seven days digestion in the other. If
-we look at the authorised edition of the Pharmacopœia by Mr. Philips
-of 1836, (and also at the present edition) we find stated, that the
-preparation has a deep brownish red color, possesses the peculiar odor
-and taste of opium, has sp. gr. 0.952, and about 19 minims contain 1
-grain of opium, which is said to be proved by the following data: 1st,
-by evaporating the tincture, and finding the amount of solid extract
-left; 2d, by ascertaining the quantity of opium remaining undissolved.
-The conclusion at which Mr. Phillips arrived, viz: that 1 grain of
-opium was contained in 19 minims of the Pharmacopœia tincture, has
-been copied into most English works on Materia {86} Medica, and
-most medical men have been and are still in the habit of prescribing
-the tincture considering it to be of the _above_ strength. Were Mr.
-Phillip’s conclusions correct?
-
-With regard to the amount of solid extract left on evaporation of
-the tincture, it appears from the experiments of Mr. Allchin, which
-are also confirmed by those which I have myself made, that 19 minims
-yield about 1 grain of extract; but in these cases the Turkey opium of
-commerce must be first exsiccated; and the tinctures of commerce yield
-quantities varying from 1 in 19 to 1 in 28 minims of the tincture.
-Tincture of opium made with Turkey opium in small masses not previously
-dried, fl. ℥j. gave on drying 2.7 of solid residue, or 1 grain in about
-22.2 minims. Tincture of opium made with good Turkey opium, previously
-dried and reduced to powder (Pharmacopœia directions) fl. ℥j. gave on
-drying—three experiments—3.1, or 1 grain of residue in 19.3 minims.
-
-If made with opium capable of being reduced to a state of powder,
-the average quantity of extract would be about 1 grain in 20 minims;
-this proportion would indicate that one-third of the solid ingredient
-(opium) is left undissolved, which was found by Mr. Phillips to be
-the case. I believe all good specimens of Turkey opium yield about
-this amount of residue. An experiment made within the last week at Mr.
-Bell’s establishment gave this result. If then the strength of tincture
-of opium be considered to be that indicated by Mr. Phillips, we must
-assume that the undissolved portion possesses the same therapeutic
-effects as the dissolved portion. Is this correct?
-
-It has been stated by some that morphia can be extracted from the
-residuum, and in Dr. Pereira’s _Materia Medica_, we find the following
-observations: “Proof spirit dissolves the same constituents as water
-does, but it takes up a larger proportion of _narcotine_, _resin_,
-_oil_. I have repeatedly prepared morphia from the insoluble residue
-left behind in the preparation of the tincture.” Again, in Dr.
-Thomson’s _Dispensatory_ it is stated that Mr. Brande finds that the
-whole of the morphia is not taken up; but is found in no inconsiderable
-quantity in the filter. {87} We suspect occasionally _narcotine_ has
-been taken for _morphia_,[7] and in the cases where _morphia_ has
-really been found, unless the residue had been previously washed, an
-error may have arisen from the alkaloid being contained in the tincture
-of opium adhering to the dregs, and not from any contained in the
-residue itself. I have recently endeavoured to ascertain the true state
-of the case, and chiefly by means of a therapeutic inquiry into the
-strength of the residuum. The residue of tincture of opium prepared
-in the ordinary way at University College Hospital, was taken for
-experiment; it was first washed with a little cold water to remove any
-adhering tincture, and afterwards dried in a water-bath. By digestion
-with ether, it was found to yield abundance of _narcotine_, and was
-also found to contain _meconic acid_ sufficient to strike a claret
-color with the persalts of iron; but at the same time nitric acid
-gave no evidence of the presence of _morphia_. It was found also by
-experiment that proof spirit at the ordinary temperature dissolved but
-a very small portion of narcotine; the bulk of the narcotine therefore
-remains in the residuum from the tincture of opium, perhaps united with
-meconic acid; for when treated with water acidulated with acetic acid,
-both _narcotine_ and _meconic_ acid were dissolved.
-
-[7] In the sixth edition of Dr. Thomson’s _Dispensatory_, page 1061,
-the following method is given for obtaining “meconate of morphia,”
-extracted from the _Quarterly Journal of Science_, vol. xx., from
-which it will be at once observed, that _narcotine_ was mistaken for
-crystallized _meconate of morphia_.
-
-“Reduce good opium to powder, put it into a paper filter, add distilled
-water to it, and slightly agitate it; and in this way wash it till the
-water passes through colorless, after which, pass a little diluted
-alcohol through it; dry the insoluble portion (now diminished to
-one-half,) in a dark place; digest it, when dry, in strong alcohol for
-a few minutes, applying heat; separate this solution, which by boiling,
-and after evaporation, will yield crystallized meconate of morphia of a
-pale straw color.”
-
-A portion of the residue was given internally; _one grain_ to a healthy
-adult produced no effect; _two grains_ were given with no result; the
-dose was then successively increased to _four grains_ then to _six
-grains_, afterwards to _thirteen_, and lastly to _thirty grains_,
-without causing the slightest effect on the individuals to whom it
-was administered; the only limitation to the quantity given being
-the unpleasantness of taking so large an {88} amount of so bulky a
-matter. It appears, therefore, that the residue is, to all intents and
-purposes, inert.
-
-From these experiments, it is evident that even _should_ traces of
-_morphia_ be contained in the dregs, still the quantity must be such
-(when the tincture is prepared according to the London Pharmacopœia) as
-to make no appreciable diminution of the strength of the preparation,
-and that the tinctura opii contains the active matter of the whole
-of the drug used in its formation, and therefore about 12 minims of
-tincture of opium possesses all the activity of 1 grain of crude opium,
-assuming that it loses only 12 per cent. in the drying. If dry opium is
-taken for comparison, 1 grain is contained in about 13 1/2 minims;
-and, therefore, _one_ fluid drachm of tinctura opii contains about 5
-grains of the drug, or 4 1/2 grains (according as it is compared
-with the dry or moist opium), in place of 3 grains; or 1 fluid ounce
-contains 40 or 36 grains in place of 24 grains usually assumed to be
-contained in it: a difference of strength of the highest importance
-when we consider the highly poisonous and powerful therapeutic action
-of the drug.
-
-In the Edinburgh preparation the amount of tincture containing a grain
-of opium is about 13 1/2 minims, for the opium is ordered in the
-same proportion but not previously reduced to powder or dried. In the
-Dublin preparation the opium is ordered to be coarsely powdered, but
-avoirdupois weight is used in place of apothecaries, which makes the
-strength of the tincture such that 12.75 minims contain _one_ grain.
-
-The error as to the strength of the tincture of opium, which is found
-in so many works, has been recently commented on. Thus Dr. Christison
-objects to Mr. Phillip’s statements; Dr. Royle also alludes to it, and
-so does Mr. Squire, in his recent work on the Pharmacopœias; and even
-those writers who have copied the statement must have done so without
-much thought on the subject, as they have calculated the strength of
-other preparations of opium, as that of the tinctura opii ammoniata,
-tinctura camphoræ composita, assuming that all the active properties
-of the opium used in the preparation had been taken up {89} by the
-menstrua. And this is the case even with Mr. Phillips himself, in the
-case of the compound tincture of camphor, when he states that _nearly
-two_ grains of opium are contained in the ounce, the Pharmacopœia
-proportions of opium being 1.6 grains only.
-
-I have brought the question before the Society more for the purpose
-of eliciting the opinions of the members on the point, than with
-the idea of bringing forward much that is novel on the subject; if
-the conclusion to which we have arrived, namely, that 12 minims of
-tincture of opium contain all the medical properties of 1 grain of the
-crude drug, I think it very important that the members of the medical
-profession should be made fully aware of the delusion under which they
-have labored for so many years with regard to the strength of this
-important preparation.
-
-
-NOTICE OF SOME VEGETABLE AND ANIMAL SUBSTANCES, NATURAL PRODUCTS OF NEW
-GRANADA.
-
-BY M. J. RAF. MONZON, M. D.
-
-(_In a Letter to Dr. Pereira._)
-
-Sandi is a resinous gummy substance, produced in abundance by a tree
-known by this name, on making an incision in its bark. At first it
-presents itself white, or liquid like milk, and it is called in the
-province of Barbacoas, “milk of sandi.” In a few days it acquires the
-consistency of resinous gum. In this state it is applied to various
-medicinal uses in different parts of New Granada, especially in the
-province of Barbacoas, a warm and damp country near the Ecuador, from
-whence the present sample comes. Its principal therapeutic property is
-_resolutive_; applied as a plaster upon lupus, fleshy excrescencies of
-the skin, cold and indolent tumors, &c. it produces their resolution;
-and this result is frequently confirmed by the {90} inhabitants of
-those countries. I have obtained it almost always when I have made use
-of the milk in similar cases. At present my father has applied this gum
-in the valley of Cauca, and with extraordinary success, for the cure
-of “bocios,” or obstructions of the thyroid gland. He has been able
-to purify it, taking away the part of potass which it contains in its
-original state, and has been able to give it the consistence and color
-of gum Arabic; with this substance he makes a plaster, which destroys
-the “bocios,” which so much abound in New Granada; and its general
-benefits are felt and acknowledged.
-
-It is likewise used as an agent against sterility in women, applying it
-as a plaster upon the hypogastric region. In ulcers of a good character
-I have obtained frequent and quick cicatrisation by applying it in
-the same manner; I have also used it as a vehicle for preparing and
-applying blisters.
-
-ACEITE DE PALO (oil of wood) is produced by a tree called “manteco,”
-in the same province. Its principal therapeutic qualities are topical
-and blistering. By using it as an embrocation I have destroyed
-the epidermis, and have thus been able to get rid of freckles and
-superficial stains on the face and other parts of the body. Applied
-in larger quantities it produces the effect of a strong blister,
-excoriating and inflaming the skin. This oil is used in its natural
-state as an ointment, on arms and instruments of steel: it destroys
-their temper and softens them. By decoction it loses these qualities,
-and might be used as an ointment without any risk. It cannot be used
-as a lamp-oil, because it exhales a very thick smoke and the most
-disagreeable smell. It has no known internal medicinal qualities; it
-may be classed amongst the corrosive poisons; its color is purple, its
-taste _sui generis_.
-
-LECHE DE POPA (milk of the cow-tree).—This substance, in its natural
-state, possesses the physical properties of animal milk. It is obtained
-by incision in the bark of the tree, which is very abundant in the
-province of Barbacoas. The Indians and the African race take it
-instead of cow milk; it is very nutritive, but has no known medicinal
-qualities. It is used also {91} for whitewashing houses, combining
-it with earthy substances, because, being glutinous, it makes the
-whitewashing last longer, and prevents its staining or rubbing off.
-
-MIEL DE ABEJA DE BREA (honey of the pitch bee).—This honey is extracted
-from the hive of a bee, very different from the one known in Europe,
-and very much smaller. It is acid. Its medicinal qualities are for
-interior refrigeration. I have applied it externally for contusions
-and ecchymosis, caused by blows or falls, and I have always obtained
-a good result. The pitch is a resinous substance, of a dark yellow
-color, and constitutes the hive made by this bee. It has a peculiar
-taste and smell, is very combustible, and is used by the common people
-for torches. It is soluble in alcohol. I have applied it as a plaster
-for nervous rheumatic pains, and it has always relieved the pains and
-swellings.
-
-CANEDILLO.—This is the name of a cane with a bitter and aromatic bark,
-and, in my opinion, it belongs to the family of Winter’s bark. It
-has many therapeutic qualities; amongst others it has particularly
-attracted my attention as an antidote against the bite of snakes and of
-other venomous animals. I consider it the best and safest of all the
-antidotes known. Put two ounces of this bark in a bottle of alcohol,
-allow it to macerate for three or four hours, to obtain a tincture.
-Use two parts of this mixture with common water; a wineglass every two
-hours until you allay the headache of the bitten person—an infallible
-consequence of the bite, cupping at the same time, and extracting the
-tooth, which often remains in the part, which is then to be washed and
-covered with lint wetted with the tincture. By this simple method I
-have cured hundreds, without the loss of a single life. This antidote
-is now generally kept by all the owners of mines, as a certain cure for
-bites of snakes, in preference to other antidotes formerly used. It has
-this advantage over them, that it may be taken in any quantity without
-danger. It is, besides, a tonic and anti-spasmodic. I have used it also
-as a febrifuge; in rheumatism (by friction); and in the windy colic,
-taken in the same way as for bites by snakes. {92} For indigestion
-caused by weakness, and for amenorrhœa, from the same cause, it is also
-used.
-
-SANDALO.—This is the bark of a tree which grows in the province of
-Esmeraldas, in the republic of the Ecuador. When burned, it produces
-a balsamic smell; by boiling the bark when fresh, it produces a very
-aromatic balsam, which, like the balsam of tolu is used in catarrh,
-spasmodic cough, ulcers, &c.
-
-NOTE.—All these substances are indigenous in the province of Barbacoas.
-Popa and sandi are found in great abundance. Manteca de palo (oil, or
-literally butter of wood), is obtained only from young trees which grow
-in the plains.
-
-
-ON THE SODA-PYROPHOSPHATE OF IRON.
-
-BY ALEXANDER URE, ESQ., SURGEON TO ST. MARY’S HOSPITAL.
-
-My attention was attracted some time back by an ingenious paper of
-Mons. Persoz on the double pyrophosphoric salts, published in the
-_Annalen der Chemie und Pharmacie_ for 1848. In the latter part of that
-paper, the author expresses an opinion that the pyrophosphoric salts
-are likely to prove of importance as medicinal agents. It is well known
-that iron is rendered very eligible for internal use, if administered
-in the form of a triple salt, as when combined, for example, with
-tartaric acid and potash; because the iron then is no longer
-precipitable by the alkaline hydrate. It would appear, however that the
-soda pyrophosphate of iron is in many respects superior as a medicine
-to the triple salts into which the vegetable acids enter.—Thus, the
-pyrophosphoric salt, from being saturated with oxygen, cannot in
-passing through the system absorb more, whereas the latter salts under
-like circumstances, are constantly undergoing a process of combustion,
-according to Millon; and by withdrawing oxygen in this manner, must
-necessarily impair the efficacy of the oxide of iron as an oxydizing
-agent. It deserves notice, moreover, that the constituent ingredients
-of the soda-pyrophosphate of iron are to be found in the organism. {93}
-
-
-I have prescribed this salt to various patients, and found it to act
-as a mild but efficient chalybeate. One little scrofulous girl, now
-under my care in St. Mary’s Hospital, for disease of the hip-joint, has
-taken it in solution during several months with the best effect. The
-remedy was accurately prepared by Mr. Blyth, dispenser to the hospital,
-according to the subjoined directions of Mons. Persoz: 32.5 grammes
-of green sulphate of iron in crystals are to be mixed in a porcelain
-capsule with 5 grammes of sulphuric acid, 30 grammes of water, and as
-much nitro-muriatic acid as will suffice to effect the oxidation of the
-protoxide of iron. The above mixture is to be evaporated to dryness
-in order to get rid of the free acid, and then treated with water
-to the amount of one litre. From 107 to 110 grammes of crystallized
-pyrophosphate of soda are to be dissolved likewise in a litre of water,
-of course in a separate vessel. The two solutions are next to be mixed
-together, and provided the iron solution has been rightly prepared
-there will be no precipitate whatever.
-
-Each litre of liquid will contain as much iron as 16.5 of the green
-sulphate.
-
-This solution is not affected by dilution with rain or distilled water,
-but from being faintly alkaline, is rendered slightly turbid on the
-addition of water impregnated with lime.
-
-
-ON THE SIMABA CEDRON.
-
-BY M. BERTHOLD SEEMANN.
-
-A tree, which has attained great celebrity, is that called _Cedron_
-(_Simaba Cedron_, Planch.). The most ancient record of it which I can
-find is in the _History of the Buccaneers_, an old work published in
-London in the year 1699. Its use as an antidote for the bite of snakes,
-and its place of growth, are there distinctly stated; but whether
-on the authority of the natives, or accidentally discovered by the
-pirates, does not appear. If {94} the former was the case, they must
-have learned it while on some of their cruises on the Magdalena, for in
-the Isthmus the very existence of the tree was unsuspected until about
-1845, when Don Juan de Ansoatigui, ascertained, by comparison, that the
-_Cedron_ of Panama and Darien was identical with that of Carthagena.
-The virtues of its seeds, however, were known, years ago, from those
-fruits imported from the Magdalena, where, according to Mr. William
-Purdie, the plant grows in profusion about the village of San Pablo.
-In the Isthmus it is generally found on the outskirts of forests in
-almost every part of the country, but in greater abundance in Darien
-and Veraguas than in Panama. The natives hold it in high esteem, and
-always carry a piece of the seed about with them. When a person is
-bitten, a little, mixed with water, is applied to the wound, and about
-two grains scraped into brandy, or, in the absence of it, into water,
-is administered internally. By following this treatment the bites of
-the most venomous snakes, scorpions, centipedes, and other noxious
-animals, have been unattended with dangerous consequences. Doses of
-it have also proved highly beneficial in cases of intermittent fever.
-The _Cedron_ is a tree, from twelve to sixteen feet high; its simple
-trunk is about six inches in diameter, and clothed on the top with long
-pinnated leaves, which give it the appearance of a palm. Its flowers
-are greenish, and the fruit resembles very much an unripe peach. Each
-seed, or cotyledon I should rather say, is sold in the chemist’s shops
-in Panama for two or three reals (about 1_s._ or 1_s._ 6_d._ English),
-and sometimes a much larger price is given for them.—_Hooker’s Journal
-of Botany._
-
-[A large number of the Cedron seeds have lately been received in New
-York, probably from a section of the country where they are cheaper
-than upon the Isthmus. As a remedy for the bites of venomous reptiles,
-like all others of the same class, it is of little value, but from its
-intense bitterness, it may be expected to possess great tonic powers,
-and if, in addition to these, further experience shall confirm the
-report of its virtues as an antiperiodic, it will prove a remedy of
-great value.]—ED. NEW YORK JOURNAL OF PHARMACY.
-
-{95}
-
-
-EDITORIAL.
-
-
-COLCHICUM AUTUMNALE.—In the December number of the Edinburgh Monthly
-Journal of Medical Science, Dr. J. McGrigor Maclagan, has published
-an article on Colchicum Autumnale, which contains little that is new,
-but is of interest as confirming the statements of other observers.
-The ordinary mode of propagation of the plant by the formation of a
-single new bulb is thus described. In June, “the bulb is as large as an
-apricot, firm, amylaceous, and extremely bitter, and having attached to
-it the shrivelled remains of the old bulb, and the leaves now yellow
-and decayed. At the end of June or commencement of July, a small bulb
-will be observed to have become developed upon the side of the corm
-at its lower part. At this time it is a little larger than a grain of
-wheat, and lies in a little fissure on the side of the parent bulb,
-a little above the origin of the radicles. It increases slowly and
-gradually in size till the beginning of August, when it appears as a
-dilatation of the flower stalk, which it then commences to put up.
-
-In September the flower is in full perfection, the long tube of the
-perianth of which has raised the six partite limb to the height of
-from six to eight inches above the ground. The flower remains for two
-or three weeks, and then dies down; and nothing of the plant is seen
-above the surface till the beginning of February, when the leaf stalk
-commences to rise. If at this time the plant be taken up, the old and
-new bulb will still be found to be united, but the new one will be
-observed to have increased little in size since autumn, being still
-hardly larger in diameter than the leaf stalk. The bulb thus grows
-little during the autumn, but in winter it increases rapidly in size;
-in April it is like a large hazel nut, and from that time it increases
-still more till the end of June or the beginning of July, when it is,
-as Dr. Christison states, as large as an apricot.
-
-In April the leaf stalk is found perfected by a fine group of dark
-green leaves, generally three in number, and having within their sheath
-the capsules which ought to ripen their fruit in the course of the
-summer.
-
-In May the old bulb will be found dry and withered, and containing very
-little starch; and in July if the plant be taken up, three bulbs will
-be found, the first now reduced to the form of a membrane, bearing no
-resemblance to a bulb at all; the second, arrived at full growth; and a
-third the progeny of the second.
-
-In February and August, instead of one leaf stalk and flower stalk
-making their appearance at their respective periods, I have often
-remarked that two have occurred, one on either side of the parent bulb.
-I believe this to be one of the effects of cultivation, as I have
-no where seen it remarked in descriptions of the plant by botanical
-authors.
-
-Dr. Christison has mentioned that the full size of a Colchicum bulb is
-that of a small apricot. Where the plant has been cultivated however,
-Dr. Maclagan, frequently met with them as big as large apples, and on
-one occasion procured one in October weighing nine and a half ounces.
-{96}
-
-He thinks that the cormus should be taken for medicinal use about the
-middle of July, at which time it has attained its greatest size, and
-is firm, amylaceous and exceedingly bitter. The bitterness is the best
-criterion of its medicinal activity.
-
-A number of years ago, Dr. A. T. Thomson, proposed the tincture of
-Guaiacum as a test for the goodness of Colchicum. Ten grains of
-the bulb were rubbed in a mortar, with sixteen minims of distilled
-vinegar, and immediately afterwards sixteen minims of the tincture
-of guaiacum were added. When the bulb was good, a beautiful cerulean
-color, according to Dr. Thomson, was produced. Having ascertained
-that several specimens which he knew to be good failed in giving this
-characteristic color, Dr. M. proceeded to investigate the causes on
-which it depended. He expressed several bulbs and filtered the juice
-to separate the starch; a beautiful blue color was now immediately
-produced by the test. The blue liquid was then heated till the albumen
-was coagulated; the color remained with the coagulum, while the liquid
-was colorless. On raising the heat to 212° the blue color disappeared.
-The test produced no change in the starch collected on the filter.
-When the fluid was boiled previously to the application of the test,
-no blue color was produced by it either with the filtered fluid or the
-coagulum. From these experiments Dr. M. concludes, “1st. That albumen
-is the principle acted on. 2nd. That a heat above 180° destroys this
-action. 3rd. That the value of the test is to prove that the bulbs have
-been dried at a temperature not higher than 180°.”
-
-Dr. Maclagan was unable to procure colchicia, the alkaloid announced by
-Geiger & Hesse, in the crystalline form, though he followed the process
-they give very exactly, and consequently he doubts its crystalline
-nature. What he obtained was in the form of a brown resinous looking
-mass without smell, and of a bitter taste, the bitterness being
-followed by a slight sense of irritation in the throat but by nothing
-like the intense acrimony of veratria.
-
-In regard to the physiological action of Colchicum, Dr. M. confirms
-the statement of previous observers, that it markedly increases the
-amount of urea in the urine; and contrary to what has been maintained
-by some, found it likewise to increase the quantity of uric add. In an
-experiment related in detail, after the colchicum had been employed for
-six days, the amount of urea in the urine was found to be increased by
-nearly one half, and the uric acid was more than doubled.
-
-
-ERRATA IN THE FEBRUARY NUMBER.
-
- Page 33, 13th line from the bottom—for “slack” read “slacked.”
-      36, 17th line from the bottom—for “grns.” read “grms.”
-      36, 11th line from the bottom—for “grns.” read “grms.”
-      36, 11th line from the bottom—for “0.845 grn.” read “0.845 grm.”
-      37, 2nd line from the top—for “monohydrate” read “molybdate.”
-
-{97}
-
-
-
-
-NEW YORK
-
-JOURNAL OF PHARMACY.
-
-APRIL, 1852.
-
-
-REMARKS UPON SOME OF THE PREPARATIONS OF THE PHARMACOPŒIA OF THE UNITED
-STATES, 1851.
-
-BY GEORGE D. COGGESHALL.
-
-(Continued from page 44.)
-
-In giving formulæ it is to be supposed that the purpose of a
-Pharmacopœia is to be practical, responding to the every day wants of
-the associated professions of medicine and pharmacy. It would seem to
-be in no case of practical utility to retain a formula that is not
-used, and of this character I think is the one for “MUCILAGE OF GUM
-ARABIC.” It does not appear to be employed of the consistence directed
-except as a paste. Nor is this consistence understood when mucilage
-of gum arabic is prescribed by physicians, but by some apothecaries a
-solution of only one eighth, and by others, one fourth the strength
-is put up. If physicians are expected to prescribe, and apothecaries
-to compound according to the letter of the Pharmacopœia, this is
-certainly a daily and unfortunately, owing to the want of a standard,
-a variable exception. The formula in our Pharmacopœia is substantially
-the same as in those of London and Edinburgh, while that of Dublin is
-one half stronger. In the latter three it enters into other officinal
-preparations, but in every case it is combined with water, which
-appears to be a needless multiplication of the process, as the proper
-proportions of gum and water for the whole might as well be directed
-at once. Nor, is it probably used in {98} extemporaneous prescription
-without similar addition of water, unless it may be to form pills,
-for which it is rarely, if ever, well adapted, or employed by the
-apothecary when it is prescribed, as it makes, with most substances,
-an intractable mass. I have been told by a highly intelligent and
-well educated English apothecary, that “it was formerly the practice
-of English physicians to prescribe one ounce of mucilage of gum
-arabic with seven ounces of water, (or in that proportion,) making a
-solution of the strength now commonly used here, and that it had become
-gradually the practice to direct the whole quantity required, under
-the term of ‘mucilage of gum arabic,’ with the general understanding
-that the diluted strength was intended.” As this seems to be now
-the universal practice in prescribing and putting up mixtures, the
-officinal directions are practically useless, and lead to the adoption
-of various proportions by different apothecaries, to produce the
-mucilage to complete mixtures.
-
-Another circumstance may be noticed. The Pharmacopœia directs the use
-of powdered gum and of boiling water, whereas gum, in its ordinary
-condition or coarsely broken, and cold water make a clearer solution.
-Cold water is directed for the solution of the gum by the Edinburgh
-process, and in our present formula for “Syrup of Gum Arabic;”—if
-appropriate for the latter, it is quite as much so for the forming of
-mucilage. When the gum has been ground in a mill it appears to have
-been a little charred and forms a somewhat turbid solution; if powdered
-by hand, and rather more coarsely, its solution is clearer.
-
-Upon the whole it seems desirable that there should be a uniform
-strength for the mucilage of gum arabic, prescribed by physicians
-in mixtures, which the officinal preparation evidently is not. Our
-mucilage does not enter into any other officinal preparations, and if
-it did, the combination of gum and water had better be made in the
-general process, as in our almond mixture.
-
-“COMPOUND SPIRIT OF LAVENDER” appears to be but seldom {99} made
-according to the officinal directions, owing to the difficulty
-of procuring the simple spirit of lavender. On this account most
-apothecaries use a proportion of the oil of lavender and of spirit,
-variable no doubt in different private recipes. The oil makes a
-decidedly inferior preparation, separating upon admixture with water,
-and even the best English oil—which is probably never used—is less
-congenial to the stomach than the distilled spirit. But the difficulty
-may be overcome, and an excellent preparation, essentially the same and
-perhaps quite equal in quality and flavor to that of the Pharmacopœia,
-may be made by the employment of recently dried flowers. The following
-is the formula I have used for several years, with an entirely
-satisfactory result:―
-
- Take of Lavender flowers twelve ounces,
-   Rosemary leaves,
-   Cinnamon, bruised, each four ounces and a half,
-   Nutmegs, bruised,
-   Cloves, bruised, each six drachms,
-   Coriander seed, bruised,
-   Red Sanders each three ounces,
-   Powdered Turmeric one drachm,
-   Alcohol six pints,
-   Water five pints and a quarter.
- _Mix, digest for fourteen days, express and filter._
-
-THE “SYRUP OF GUM ARABIC,” unaccountably withdrawn from the
-Pharmacopœia in 1840, when it had become a familiar favorite, comes to
-us again in the new revision, not at all improved by seclusion. It is
-changed in its proportions, but not for the better, as it now has too
-little gum and too much sugar in its composition. Of numerous formulæ
-by which I have made this syrup, I have always found that from our
-Pharmacopœia of 1830, the best in proportions, consistence and flavor.
-It is defective however, in one point of construction, and incorrect
-in the use of boiling water to make the solution of gum. The syrup is
-probably not better in any essential particular, but it is clearer, and
-therefore more pleasing in {100} appearance, when it is constructed
-by making the solutions of gum and sugar separately, that of the gum
-in half the water cold, and that of the sugar in the remainder of the
-water boiling, then immediately combining the two and bringing to the
-boiling point. It may then be easily filtered through flannel.
-
-In preparing “SYRUP OF CITRIC ACID,” it would be preferable to use, in
-place of the oil of lemon, a tincture made from the outside yellow part
-of the rind of the fresh fruit, made by covering it with pure alcohol.
-Two drachms of this tincture are about equivalent to four minims of the
-oil of lemon.
-
-The formula for “SYRUP OF IPECACUANHA” is one of the most objectionable
-we have to notice, and the least calculated to answer medical wants in
-regard to its importance. There is a verbal error, either in the list
-of components or in the directions, which leads to some confusion.
-Amongst the former we find “_diluted alcohol_,” and in the latter, we
-are told to “macerate the ipecacuanha in the _alcohol, &c._” The same
-error occurs in the edition of 1840. This formula is unnecessarily
-complex, and yields an inefficient preparation of about half the
-strength of the wine of ipecac, which it was intended to equal at
-its origin, about twelve years before its introduction into our
-Pharmacopœia. Previously to this it had, for six or eight years, been
-made here of about double the strength of the wine, in accordance with
-the general plan of forming medicinal syrups, by combining as large a
-proportion of the remedial agent in them as can readily be done, to
-obviate at once the necessity of bulky doses, and the exhibition of
-undue quantities of sugar. I cannot discover the advantage of making a
-pint of tincture with an ounce of the root, evaporating the filtered
-tincture to six fluid ounces, filtering again, and then adding water to
-bring back the measure of a pint. If the object be to get rid of the
-alcohol, it is an unnecessary exposure of the soluble principles of the
-ipecac to heat, for half a pint of diluted alcohol, especially with
-four ounces of water added by way of displacement, would exhaust the
-root equally well; so that the evaporation need not {101} be carried
-so far. There is no mention of a water bath, which should be used by
-all means.
-
-We should prefer, if we could, to make all preparations which the
-Pharmacopœia contains, in accordance with it. But when a preparation
-has been in such general and favorite use, for several years, as to be
-considered indispensable before it becomes officinal; and in such form
-is reduced to a third or a fourth of what is felt to be an eligible
-strength, not only without any compensating advantage, but with the
-positive disadvantages of greatly diluting its remedial influence, and
-increasing the quantity required to be taken of a nauseous medicine,
-there is naturally an unwillingness to yield well settled convictions
-of utility, and replace an important remedy, that has proved quite
-satisfactory, with a preparation believed to be of comparatively little
-value. It is not probable that, in New York, the present officinal
-syrup of ipecacuanha, can ever supersede the efficient and reliable
-one we have so long been accustomed to, nor answer the wishes and
-expectations of the medical profession. I append the formula proposed
-in a paper read before the Board of Trustees in 1835, seven years
-before one for this syrup appeared in our Pharmacopœia. I have not
-found cause to change it in any respect. It affords about three pints
-of syrup, which keeps well for years at the ordinary temperatures of
-the shop, and of dwellings; the proportion of sugar proves to be just
-what is wanted for a proper consistence without crystallization, and,
-as a medicine, it gives entire satisfaction to the prescriber. It is as
-follows:―
-
- Take of Ipecacuanha, bruised, six ounces,
-   Alcohol one pint and a half,
-   Water one pint,
-
-_Mix, to form a tincture. Digest for ten days, filter, and add one pint
-of water, by way of displacement, evaporate in a water bath to two
-pints, add immediately:_
-
- Refined sugar three pounds and a quarter.
-
-_And bring to the boiling point._
-
-The “COMPOUND SYRUP OF SQUILL” is presented in the {102} Pharmacopœia
-with two processes for its preparation. The first is liable, though in
-a less degree, to the same objection which has rendered the original
-form, given by Dr. Coxe, obsolete, that it produces a turbid syrup,
-and one that will not keep. The second process is better, but scarcely
-adequate, I should think, to extract the full strength of the roots
-so well as by the employment of a greater proportion of alcohol,
-and longer digestion. The following produces three and a half pints
-of syrup from the same materials, apparently stronger than if the
-boiling, which is only for a few minutes, were continued down to three
-pints, retaining a portion of honey, for the sake of the flavor, and
-with as large an addition of sugar as the syrup will bear without
-crystallization. The proportion of tartar emetic is, of course, the
-same:
-
- Take of Seneka, bruised,
-   Squills, bruised, each four ounces.
-   Alcohol,
-   Water each two pints.
-
-_Mix, to form a tincture. Digest ten days, filter, and add twelve
-ounces of water, by way of displacement, evaporate by water bath to two
-pints, add:_
-
- Sugar fifteen ounces,
- Honey eighteen ounces,
-
-_Boil to three pints and a half, in which dissolve while hot:_
-
- Tartar emetic fifty-six grains.
-
-“SYRUP OF TOLU,” made after the London formula, is a more elegant and
-better flavored preparation than can be made by any combination of the
-tincture. So decided is the superiority of the London process, that it
-is rather surprising the other Pharmacopœias should not adopt it. An
-apothecary who does, will hardly be satisfied with the tincture-made
-syrup afterwards.
-
-The “TINCTURE OF ACONITE ROOT” is desired by our physicians of full
-saturation. The “strong tincture,” to which we have been accustomed for
-several years, is that of Fleming’s process, viz: sixteen ounces of the
-root to a pint and a half of alcohol. {103}
-
-The “COMPOUND TINCTURE OF CARDAMOM” is now first introduced into our
-Pharmacopœia, with a change from the pleasant tincture we have been
-in the habit of making after the London or Edinburgh formula, by
-increasing the proportion of cardamom, from two drachms and a half to
-six drachms, and reducing the caraway one fifth, which makes a tincture
-not near so pleasant to the taste, owing to the strong predominance of
-the cardamom flavor, which is rather harsh when in too great excess. As
-this tincture is of little medical importance by itself, and chiefly
-used as an agreeable adjunct to mixtures, the proportions which have
-been found to answer so well may still be considered preferable.
-
-There are other cases, no doubt, in which apothecaries will find
-it expedient to vary the processes of carrying out formulæ, not
-with a view of altering the strength of preparations, but arriving
-at substantially the same results or better ones, from the same
-materials, by improved application of skill. Whoever can, by superior
-method, more fully develope the qualities of a substance to be acted
-upon, than has hitherto been done, or change the character of a
-preparation from perishable to permanent, from uncertain to definite,
-from slovenly to elegant, can accomplish something for the benefit
-of his art, and render it so much the more useful to the community.
-Most of the improvements in pharmacy have been effected by the
-practical apothecary, and rendered available by him, in advance of the
-Pharmacopœia.
-
-
-NOTES IN PHARMACY.
-
-BY BENJAMIN CANAVAN.
-
-The fact in the natural kingdom, that “nothing is destroyed,” suggests
-an equally true axiom, as applied to the moral world, that “nothing
-is useless;” and, with this impression, I am induced to send the
-following trifles to the New York Journal of Pharmacy, which, if not
-unacceptable, it will give me pleasure to repeat “_pro re natâ_.” {104}
-
-
-PIL. FERRI COMP.—This very much neglected pill, which is the prototype
-and should have precluded the necessity of Vallet’s preparation, I
-would beg leave to introduce, for the purpose of recommending, or
-rather verifying an improvement which I have sometimes adopted, in
-the mode of compounding it, differing from the officinal directions
-for so doing. We are told to “rub the myrrh with the carb. sodæ; then
-add the sulph. ferri, and again rub them; lastly, beat them with the
-syrup so as to form a mass.” I do not hesitate to say that no amount
-of trituration or skill, with which I am acquainted, will enable the
-manipulator by this means to make the mass properly, either in a
-chemical or pharmaceutical point of view.—In a note the editor of the
-United States Dispensatory informs us: “It is said the salt of iron
-will be better preserved, if the operator should dissolve the sulphate
-of iron in the syrup with a moderate heat and then add the carb. sodæ,
-_stirring!_ till effervescence ceases;” this is correct in principle;
-but the same object is attained, and the _only_ way by which the pill
-ought or can be properly prepared, is by triturating separately, and
-to solution the two salts in the necessary quantity of syrup, mixing,
-and again triturating until perfect decomposition is induced, and by
-incorporating the myrrh, form into a mass without delay. In this way
-you insure the existence of the intended proto carb. ferri in the
-pill, which is not, or only partially the case when prepared by any
-other process. I would remark, en passant, that this pill presents us
-with the very perishable proto carb. in the _most permanent_ form,
-retaining, when properly prepared, its chemical integrity unimpaired,
-indefinitely, and is therefore superior in this important respect to
-the quickly changeable mist. ferri comp., the presence also of a larger
-proportion of myrrh being often a decided advantage.
-
-EXTRACTA LIQUIDA OPII.—It has been suggested, and I believe attempted,
-to introduce certain preparations with the above titles, as substitutes
-for the demi-nostrum, known as “McMunn’s Elixir of Opium,” which has
-been very extensively used, and enjoyed high favor, but of which
-the exact nature {105} and mode of preparation are not generally
-understood, and which, either from having become too antiquated for
-this novelty hunting age, or its success having tempted the cupidity
-of avaricious persons, or from whatever cause, has been for some time
-diminishing in popularity, and subjected to many complaints. In all
-preparations of this potent drug, with which I am acquainted, ancient
-or modern, the great object has been, to get rid of the narcotine,
-which has been more or less accomplished by various processes. At
-present an aqueous fluid extract is said to supply the desideratum.
-This is merely a modification of the watery extract of all the
-Pharmacopœias, and is no doubt as good, but no better preparation.
-The denarcotised tincture is superior to all of them, and the _very
-small_ quantity of spirit contained in an ordinary dose, is scarcely
-an objection, and is only little more than is necessary to preserve
-the extract; but if deemed otherwise, a fluid extract may be prepared
-from denarcotised opium, _entirely free_ from the peccant alkaloid, and
-possibly the evaporation necessary to the process, may dissipate some
-noxious volatile property, which would exist in a tincture, and which
-it is most probable the opium possesses, from the fact, among others,
-that _old opium_ is much less prone than _new_ to cause disagreeable
-after effects. It has been supposed that meconic acid has been the
-evicted principle; but this is doubtful. However, the action of heat
-is useful, and I think a “fluid extract of denarcotised opium,” would
-perhaps be found to be as free as possible from objectionable effects.
-
-ETHER HYDROCHLORIC; CHLORINAT: or ether hydrochlorique chlorè, as the
-French have it, is another change, rung by M. Mialhe of Paris, with
-the transcendental compounds of carbon and chlorine. It is a mongrel
-preparation, intermediate between hydrochloric: ether and chloroform,
-professing to have the advantage of not irritating the skin like
-the latter. If this be so, experience will tell, and also whether
-the irritation is not proportionable to the effect. With regard to
-such a refinement of an already infinitesimally delicate class of
-preparations, I should suppose it would be {106} desirable to effect
-the object aimed at by them, by if possible some more palpable method,
-as for instance diluting chloroform either with hydrochloric ether or
-alcohol, to the necessary mildness, or by interposing between it and
-the skin, a thin _moist_ layer of some substance, as bibulous paper,
-which would not interfere with the rigefacient effect of evaporation,
-and would prevent any injury arising from actual contact.
-
-
-INDELIBLE INK.
-
-BY M. GUILLER, OF PARIS.
-
-Hitherto the various inks prepared for marking linen, have but
-imperfectly answered the end proposed. Some produced yellowish marks;
-others though blacker at first, disappeared either partially or
-entirely after several washings.
-
-Again, others, in separate bottles, necessitated two distinct
-operations, and were thus attended with inconvenience, from the
-possibility of mistakes or forgetfulness, from the care required, and
-also from the time taken up in the operation.
-
-In view of these difficulties, and to meet a demand constantly
-occurring in commerce, and in all kinds of manufactures, as well as
-in hospitals, and civil and military administrations, we have applied
-ourselves to the composition of an ink free from all these objections,
-and perfectly easy and certain in its application.
-
-We shall subjoin some formulæ for the manufacture of marking inks,
-which represent particular improvements, as can be verified by trying
-them.
-
- Formula, No. 1, Nitrate of silver,         11 grammes,
-                 Distilled water,           85 grammes,
-                 Powdered gum arabic,       20 grammes,
-                 Sub-carbonate of soda,     22 grammes,
-                 Solution of Ammoniæ,       20 grammes.
-
-Dissolve the 22 parts of sub-carbonate of soda in the 85 parts of
-water; put into a marble mortar the gum, and pour on {107} it very
-gradually the solution of the sub-carbonate, stirring it with the
-pestle to cause it to dissolve.
-
-In the mean time, you will have dissolved the 11 parts of nitrate in
-the 20 parts of liquid ammonia. Mix the two solutions; put the whole
-in a matrass and expose it to heat. The mass which was of a dirty grey
-color, and half coagulated, becomes clear and brown, and when arrived
-at the boiling point, it becomes very dark, and sufficiently limpid
-to flow readily in the pen. This ink, made without heat like the two
-following forms no sediment, the ebullition thickening it, and besides
-giving the ink a very dark color, disengages the ammoniacal vapors,
-which attenuate the odor of the ammonia in it.
-
- Formula No. 2, Nitrate of silver,          5 grammes,
-                Water,                     12 grammes,
-                Gum,                        5 grammes,
-                Sub-carbonate of soda,      7 grammes,
-                Solution of Ammoniæ,       10 grammes.
-
-Mix as in No. 1; put the whole into a matrass and evaporate until the
-liquor has acquired a very dark brown tint, which will take place when
-it has lost about 5 per cent. of its bulk; a more complete evaporation
-would form a precipitate, as the vapors would draw off too much of the
-ammonia.
-
-This ink will be found excellent for marking, the character will be
-very black, and it will be found especially useful for applying with
-the stamp.
-
- Formula No. 3, Nitrate of silver,          17 grammes,
-                Water,                      85 grammes,
-                Gum,                        20 grammes,
-                Sub-carbonate of soda,      22 grammes,
-                Solution of Ammoniæ,        42 grammes,
-                Sulphate of copper,         33 grammes.
-
-First dissolve the 22 parts of sub-carbonate in the 25 parts of water,
-and the 15 of nitrate in the 42 of ammonia.
-
-This done, put into the marble mortar the 20 parts of gum with the
-sixty parts of water which remain, stir it {108} with the pestle, and
-pour on it the solution of sub-carbonate, after which, pour the whole
-into the solution of the nitrate; finish by adding the 33 parts of the
-solution of sulphate of copper.
-
-The greater quantity of ammonia is explained by the presence of the
-sulphate to be dissolved.
-
-This composition differs from the others in having a blue tinge, due to
-the solution of copper.
-
-It will be readily seen that these relative qualities, given as
-formulæ for the production of suitable inks, may vary according as it
-is desirable to produce a thicker or thiner ink, or according to the
-material on which it is to be used, observing that if, on the one hand,
-the ammonia acts as a solvent, and facilitates the composition of an
-ink which can be used without a previous preparation; on the other
-hand, the evaporation of a part of the ammonia by heat, gives to the
-liquid a dark color which renders the writing immediately black; again,
-the boiled liquid greases less, and thus penetrates and spreads better
-on the linen without making a blot.
-
-As to the mode of using, whether with a pen or a stamp proceed as
-usual, namely: pass a hot iron over the writing, to cause it more
-completely to penetrate the material.
-
-
-ON VALERIANIC ACID AND ITS SALTS.
-
-BY MR. J. B. BARNES.
-
-Considerable attention having of late been directed to this class of
-compounds, perhaps a few practical observations relating to their
-manufacture, &c. might be of interest to the readers of _The Annals of
-Pharmacy_.
-
-Although some of the combinations of valerianic acid with bases,
-and the properties of those salts, have been described in the books
-on chemistry, yet I believe I may lay claim to the priority of the
-preparation of an extensive series of the combination of valerianic
-acid with bases. {109}
-
-Valerianic acid, it is well known, occurs preformed in certain plants;
-and it is equally well known, that it can be produced in the laboratory
-by artificial means. This very fact is of great interest to the
-investigating chemist, as it encourages him in the belief that he will,
-sooner or later, be able to produce artificially, not only acids, which
-are known to exist in the animal and vegetable kingdoms; but that he
-will so far imitate Nature in her wonderful processes, as to produce
-the vegetable alkaloids, morphia, quina, &c., by the combination of
-their elements.
-
-The acid employed in the preparation of this series, _for which I have
-had the honor of being awarded a Prize Medal by the Jurors of the Great
-Exhibition_, was prepared, in principle, the same as that directed to
-be used by the Dublin Pharmacopœia in the preparation of valerianate of
-soda, namely, the oxidation of Fusel oil by means of chromic acid. The
-formula I employed is as follows:―
-
- Take of
-         Bichromate of potash,      2 parts.
-         Oil of vitriol,            3 parts.
-         Water,                     4 parts.
-         Pure Fusel oil,            1 parts.
-
-The bichromate of potash is to be finely powdered and dissolved in the
-water; the solution being put into a glass retort, the oil of vitriol
-is gradually added, and, when quite cold, the _fusel oil_ is carefully
-added; the contents of the vessel must be constantly agitated, and at
-the same time kept immersed in cold water. The deep green liquid is
-now distilled from a sand bath; the distillate is mixed with caustic
-soda, or potash, and separated from the oily fluid floating on the
-surface; the _valerianate of soda_ is evaporated to a convenient degree
-of concentration, introduced into a retort, decomposed with dilute
-sulphuric acid, and distilled; the liberated valerianic acid is finally
-dried over chloride of calcium.
-
-It is also obtained by the oxidation of oil of valerian, by means of
-an alkali. It is formed from fats, by treating them {110} with fuming
-nitric acid; from animal nitrogenous matters, both by putrefaction
-and on decomposing them with strong nitric acid; and also if leucine
-be treated with caustic potash, or allowed to putrefy, it becomes
-converted into valerianic acid (no other acid being formed), ammonia
-and hydrogen being evolved.
-
-It is most easily obtained in a state of absolute purity by the action
-of spongy platinum and atmospheric air upon potatoe Fusel oil.
-
-Valerianic acid is composed of C‗{10} H‗{9} O‗{3}, H O. It possesses a
-well known characteristic odour, an acrid burning taste, and produces a
-white spot on the tongue. It boils at 348° Fahr., and dissolves in 26
-parts water; it also forms a second hydrate.[8]
-
-[8] Lehmann’s Physiological Chemistry.
-
-
-_Combinations with the Alkalies._
-
-The potash salt was prepared by saturating the acid with liquor
-potassæ, and evaporating carefully until aqueous vapour ceased to
-be given off: it should be, while still warm, cut up and preserved
-in well stoppered bottles. It does not crystallize, but forms a
-semi-transparent colorless mass, very much resembling phosphorus in
-appearance. It (probably from its compactness) produces when sharply
-struck with any hard body a metallic sound, somewhat like that
-occasioned when a bell of camphor is struck in a similar manner. It is
-deliquescent, and very soluble.
-
-The soda salt was prepared in the same manner as the potash salt, cut
-up into pieces while warm, and preserved in stoppered bottles: it is in
-snow-white masses composed of minute crystals; it is deliquescent, and
-very soluble. The ammonia salt was prepared by saturating the acid with
-strong liquor ammoniæ, and evaporating at a temperature not exceeding
-100° Fahr., until crystals appeared on the surface of the liquid. When
-it was set aside for further crystallization, the mother liquor was
-allowed to drain off, the crystals were placed upon bibulous paper, and
-finally dried _in vacuo_, over oil of vitriol. They are {111} of a
-tabular form; when held between the fingers for a moment, they become
-liquid. They are deliquescent and dissolve readily in water.
-
-
-_Combinations with the Alkaline Earths._
-
-The baryta salt was prepared by adding the acid to carbonate of baryta
-in excess, which had been previously mixed with water; a gentle heat
-was applied, and, when the disengagement of carbonic acid had ceased,
-the excess of carbonate was filtered off; the filtrate was evaporated
-very carefully, until aqueous vapour ceased to be given off, it
-remained a transparent gummy mass, readily soluble in water.
-
-The strontia, lime, and magnesia salts were prepared in the same
-manner as the baryta salt. The two former are crystalline, and do not
-deliquesce by exposure to the atmosphere; they are soluble. The lime
-salt crystallizes in nacreous plates; it effloresces when exposed to
-the atmosphere; it is beautifully white.
-
-The magnesia salt would not crystallize, therefore it was evaporated
-to dryness, at a temperature not exceeding 120° Fahr. It forms a
-light white soluble powder, sweet to the taste, and strong in the
-characteristic odour of valerianic acid.
-
-
-_Combinations with Metallic Oxides._
-
-The alumina, chromium, and nickel salts were prepared by the direct
-combination of the hydrates of those bases with the acid.
-
-The alumina and chromium salts are in powder, and are soluble.
-
-The nickel salt is in crystalline masses, of an apple-green color,
-soluble in water.
-
-The cobalt salt was also prepared by the direct way; the flocculent
-blue precipitate, obtained by precipitation from nitrate of cobalt,
-by means of caustic potash, after being well washed, was dissolved in
-valerianic acid, filtered and very carefully evaporated to dryness; it
-occurs in masses of a rose color, and is soluble.
-
-The manganese salt was also prepared in the direct way by {112} mixing
-an excess of the hydrated oxide with water and the acid, allowing
-them to remain in contact for some time, filtering and evaporating
-at a temperature not exceeding 120° Fahr., until crystals appeared
-on the surface of the fluids; it was set aside, and after a while,
-the crystals were separated from the mother liquor. The latter being
-again evaporated, another crop of crystals was obtained; it occurs in
-glistening scales of a flesh color, and dissolves very readily in water.
-
-The valerianate of _protoxide of iron_ was prepared by the double
-decomposition of valerianate of baryta and proto-sulphate of iron; it
-can only be kept in a state of solution, as least the heat and exposure
-to the air converts it immediately into the peroxide salt.
-
-The valerianate of _peroxide of iron_, was prepared by bringing
-together neutral cold solutions of perchloride of iron and valerianate
-of soda, the precipitated valerianate was thrown upon a filter, well
-washed, to separate the chloride of sodium, and dried without heat on a
-porous tile; it occurs as a bright red loose powder, perfectly soluble
-in alcohol.
-
-The valerianate of zinc was prepared according to the directions in the
-Dublin Pharmacopœia; it occurs in small smooth crystals, somewhat like
-boracic acid; it is soluble in water and alcohol.
-
-The lead salt was prepared by decomposing freshly precipitated
-carbonate of lead with the acid, filtering and evaporating at a low
-temperature. In due time, crystals made their appearance in the fluid;
-but (probably from the temperature being too high) they subsequently
-disappeared; and, upon further evaporation, it remained in the form of
-a syrup.
-
-The silver salt was produced by the double decomposition of nitrate of
-silver, and valerianate of soda. The valerianate of silver being very
-insoluble, was precipitated as a white powder; after washing with cold
-water, it was dried in the dark on a porous tile. By exposure to the
-light, it becomes black.
-
-The salt of the suboxide of mercury was also prepared by double
-decomposition. It is a loose, yellowish white powder. {113}
-
-The salt of oxide of mercury was prepared by agitating together, the
-yellow hydrate of the oxide with water and valerianic acid. After
-some time, I obtained a colorless liquid, which, upon evaporation
-at a temperature not exceeding 100° Fahr., yielded crystals which,
-however, speedily fell into a red powder. I therefore again repeated
-the operation, omitting the application of heat; the solution was set
-aside, when in the course of two or three weeks, I obtained this salt
-in prismatic white crystals.
-
-The bismuth salt was obtained by the addition of valerianate of soda,
-to a solution of bismuth in nitric acid, which was nearly saturated
-with carbonate of soda. It occurs as a loose white powder.
-
-The copper salt was obtained by double decomposition, and occurs as a
-beautiful green powder.
-
-The cadmium salt was prepared in the same manner as the zinc salt. It
-occurs in crystalline scales, resembling in form that of zinc, but
-larger.
-
-
-_Combinations with Organic Bases._
-
-The valerianate of oxide of ethyle (valerianic ether) was obtained by
-distilling, together, alcohol, oil of vitriol, and valerianic acid; it
-was well washed, dried over chloride of calcium, and re-distilled. It
-is an oily liquid, with a penetrating smell of fruit, and of valerian;
-of specific gravity, 0,894. (Otto). It is miscible with alcohol and
-ether: it has an agreeable, cool, and aromatic taste.
-
-I prepared the valerianate of quina, both by double decomposition, and
-by direct combination of the base with the acid.
-
-That by double decomposition, was prepared by adding to a warm solution
-of neutral sulphate of quinine, a warm solution of valerianate of
-baryta; the mixture was allowed to stand for a while, and filtered to
-separate the insoluble sulphate of baryta; the filtrate was evaporated
-at a temperature of about 100°, until crystals made their appearance,
-when it was set aside for {114} further crystallization. The crystals
-obtained by this process are in silky tufts and perfectly white.
-
-The valerianate of quina, made by the direct combination of the acid
-with the base, was effected by triturating, in a mortar, freshly
-precipitated quina, with water and valerianic acid, until the quina
-had disappeared. It was then exposed in shallow dishes, to a current
-of air; when sufficiently evaporated, octohedral crystals were formed.
-Valerianate of quina in both forms dissolves readily in water.
-
-When a solution of valerianate of quina is evaporated at a temperature
-of 130°, it does not crystallize, but has the appearance of an oil.
-
-From the different appearances of this salt, it is highly probable that
-they each differ in composition. This phenomena is worthy of a thorough
-investigation.
-
-The morphia salt was prepared in the direct way. It crystallizes in
-silky tufts; it dissolves readily in water.
-
-Although but three of the salts of valerianic acid are employed in
-medicine, namely, those of _peroxide of iron_, oxide of zinc, and
-_quinine_, there appears to me no reason why those of _potash_, _soda_,
-_ammonia_, _teroxide of bismuth_, and _oxide of ethyle_, (_valerianic
-ether_), should not be employed by the physician.
-
-In conclusion, I must express my sincere thanks to Mr. Savory, for his
-kindness in having placed at my disposal the materials necessary for
-the preparation of this series.
-
-
-ESSENCE OF PINE APPLE.
-
-The above essence is, as already known, butyric ether, more or less
-diluted with alcohol; to obtain which pure, on the large scale and
-economically, the following process is recommended:―
-
-Dissolve 6 ℔s. of sugar and half an ounce of tartaric acid, in 26 ℔s.
-of boiling water. Let the solution stand for several days; then add
-8 ounces of putrid cheese broken up with 3 ℔s. {115} of skimmed and
-curdled sour milk, and 3 ℔s. of levigated chalk. The mixture should be
-kept and stirred daily in a warm place, at the temperature of about 92°
-Fahr., as long as gas is evolved, which is generally the case for five
-or six weeks.
-
-The liquid thus obtained, is mixed with an equal volume of cold water,
-and 8 ℔s. of crystallized carbonate of soda, previously dissolved in
-water, added. It is then filtered from the precipitated carbonate of
-lime; the filtrate is to be evaporated down to 10 ℔s., when 5 1/2
-lbs. of sulphuric acid, previously diluted with an equal weight of
-water, are to be carefully added. The butyric acid, which separates on
-the surface of the liquid as a dark-colored oil, is to be removed, and
-the rest of the liquid distilled; the distillate is now neutralized
-with carbonate of soda, and the butyric acid separated as before, with
-sulphuric acid.
-
-The whole of the crude acid is to be rectified with the addition of
-an ounce of sulphuric acid to every pound. The distillate is then
-saturated with fused chloride of calcium, and re-distilled. The
-product will be about 28 ounces of pure butyric acid. To prepare the
-butyric acid, or essence of pine apple, from this acid, proceed as
-follows:—Mix, by weight, three parts of butyric acid with six parts
-of alcohol, and two parts of sulphuric acid in a retort, and submit
-the whole, with a sufficient heat, to a gentle distillation, until the
-fluid which passes over ceases to emit a fruity odor. By treating the
-distillate with chloride of calcium, and by its re-distillation, the
-pure ether may be obtained.
-
-The boiling point of butyric ether is 238° Fahr. Its specific gravity,
-0,904, and its formula C‗{12} H‗{12} O‗{4}, or C‗{4} H‗{5} O +
-C‗{8} H‗{7} O‗{3}.
-
-Bensch’s process, above described, for the production of butyric
-acid, affords a remarkable exemplification of the extraordinary
-transformations that organic bodies undergo in contact with ferment,
-or by catalytic action. When cane sugar is treated with tartaric
-acid, especially under the influence of heat, it is converted into
-grape sugar. This grape sugar, in the {116} presence of decomposing
-nitrogenous substances, such as cheese, is transformed in the first
-instance into lactic acid, which combines with the lime of the chalk.
-The acid of the lactate of lime, thus produced, is by the further
-influence of the ferment changed into butyric acid. Hence, butyrate of
-lime is the final result of the catalytic action in the process we here
-have recommended.
-
-
-ON A REMARKABLE SPECIMEN OF DECOMPOSED CHLOROFORM.
-
-BY JONATHAN PEREIRA, M.D., F.R.S.,
-
-Physician to the London Hospital.
-
-In July of the present year I received from Mr. Grattan, apothecary of
-Belfast, a specimen of chloroform, accompanied with a note, from which
-the following is an extract:―
-
-  “Some weeks prior to October 25, 1851, I received from my friend
- Dr. M’Killen a small bottle of chloroform which he had had of me two
- or three months previously, and which he stated was subject to very
- singular changes of color, despite the stopper never having been
- removed.
-
- At the time he handed it to me the fluid exhibited a delicate pink
- tint, as though colored with cochineal, and was put aside in a glass
- case in my shop, of which I kept the key myself. The case was exposed
- to the diffused light of a large shop window but not to the direct
- rays of the sun.
-
- Conceiving that the chloroform had by some unobserved means or other
- become accidentally colored, I took very little interest in the
- matter, and was not surprised to find it fade gradually, and in a
- short time become perfectly colorless—and I made a note to that effect
- upon the 25th of October, {117} concluding that there must have been
- some error of observation on the part of Dr. M’Killen.
-
- On the 16th of November, however, it again began to change, and the
- enclosed notes were made, from time to time, as I happened to have
- opportunity of noticing it.
-
- I tried it under different conditions of light and temperature,
- without their exerting apparent influence upon it, and being unable
- to form the slightest conjecture as to the cause or nature of the
- molecular disturbance which produces these chromatic changes, have
- taken the liberty of forwarding it to you, should you consider it
- worthy of attention.
-
- It is at present colorless, and the stopper fast in; and I would only
- suggest that, before removing the stopper, it might be well to observe
- for yourself whether changes similar to those I have noticed may not
- occur again.
-
-   1850.
- Oct.  25. Perfectly colorless.
- Nov.  16. Faint Pink.
-       18. Fading.
-       25. Faint pink, as on the 16th.
-       26. Dirty-looking, neutral tint, without any pink.
- Dec.  17. Pink again.
-       21. Ditto, and deeper.
-       27. Perfectly colorless, after having passed through various
-             shades of pink.
-   1851.
- Jan.  10. Again pink.
-       11. Faint neutral tint.
- Feb.  19. Perfectly colorless. On shaking the
-             vial, observed a deposit on its sides,
-             like small crystals, but cannot say
-             that they were not there before.
-       21. Pink and deeper than ever.
- March 10. Deep pink.
-       12. Faint pink.
-       13. Colorless.
-       28. Colorless.
- May   16. Colorless. No change having occurred
-             between the 13th March and 16th
-             May, concluded too hastily that the
-             property of changing its color, upon
-             whatever cause dependent, had been
-             lost, for on
-       17. It again became faintly pinked.
-       19. Deeper pink.
-       22. Fading.
-       24. Fading.
-       31. Colorless.
- June  13. Again pink.
-       16. Ditto.
-       17. Colorless.
- July   2. Ditto, up to present date, when it again became pink.
-        3. Deeper.
-        5. Still very deep.
-        7. Fading
-       13. Perfectly colorless.
-
- The foregoing changes of color were not influenced by any change
- of temperature between 27° and 86° Fahr., nor by exposure to, nor
- seclusion from light. The stopper being fast, atmospheric pressure
- cannot have been connected therewith. Whether it may have been
- influenced by electrical changes, am not prepared to say.” {118}
-
-The specimen of chloroform sent me by Mr. Grattan was, in July, quite
-colorless, and on the sides of the bottle a few minute crystals were
-observed. The stopper of the bottle was, however, so firmly fixed in
-that I could not remove it, and I, therefore, placed the bottle on the
-mantel-shelf in my library exposed to diffused light, for the purpose
-of observing the changes which its contents would undergo.
-
-In the course of a few weeks it began to acquire a pinkish or
-amethystine tint, as described by Mr. Grattan. This slightly augmented
-in intensity for a few days, and then became somewhat paler. But for
-several weeks, during which it remained in the same situation, it never
-became colorless, though the intensity of the color was frequently
-changing.
-
-The color of the liquid was precisely that of a weak solution of
-permanganate of potash.
-
-Some weeks ago I placed the bottle in a dark cupboard, and at the
-expiration of about three weeks found that the liquid had become quite
-colorless. As the stopper was still immovable, I was obliged to cut
-off the neck of the bottle to get at the contents. I found that the
-chloroform had undergone decomposition, and had acquired a powerful
-and irritating odor, somewhat allied to, but distinct from, that of
-hypochlorous acid. The vapor yielded white fumes when a rod moistened
-with solution of ammonia was brought in contact with it, blue litmus
-paper was reddened but not bleached by it. A few drops of the liquid
-were placed on a watch glass and volatilized by a spirit lamp; they
-left scarcely any appreciable residue.
-
-The crystals which lined the bottle were then examined. They were few
-in number, and not larger than pins’ points. They were white, and when
-examined by the microscope, were found to be six-sided pyramids, like
-the crystals of sulphate of potash. Some of them were heated to dull
-redness in a test tube, without undergoing any appreciable change. When
-heated on the point of a moistened thread in the outer cone of the
-flame of a candle, they communicated a violet-white tinge to the flame,
-characteristic of a potash-salt. They readily {119} dissolved in
-water, and the solution did not yield any precipitate on the addition
-of a solution of nitrate of baryta, showing that the salt was not a
-sulphate. The solution was boiled with nitric acid, and then treated
-with a solution of nitrate of baryta, but no precipitate was observed.
-Nitrate of silver produced in the aqueous solution of the crystals a
-white precipitate, soluble in ammonia, but insoluble in nitric acid.
-
-Whether these crystals were in any way connected with the change
-of color which this sample of chloroform underwent, I am unable to
-determine; but I suspect not. I am anxious, however, to draw the
-attention of others to the subject, in the hope that larger specimens
-of the salt may be obtained for examination. For at present the
-circumstances under which chloroform frequently undergoes decomposition
-are very obscure. Except in this instance, I have never met with, nor
-heard of, any sample of chloroform which underwent these remarkable
-changes of color.
-
-The chloroform was transferred into another bottle, on the sides of
-which a few minute crystals are now formed. But since the removal of
-the stopper the pink color has not re-appeared.
-
-I have written to Mr. Grattan to obtain, if possible, further
-information respecting this specimen of chloroform. But he tells me he
-has not any more of the sample, and has no means of ascertaining by
-whom it was made, as about the time it was purchased of him he had in
-his shop parcels from London, Edinburgh and Dublin, as well as a small
-quantity prepared in Belfast, and he is quite unprepared to say from
-which of them it was taken.
-
-I suspect that the pink color of the chloroform must have been due
-to the presence of manganese. If so, was this metal derived from the
-chloride of lime used in the manufacture of chloroform? Mr. Squire
-informs me that he has occasionally found the solution of chlorinated
-soda to become of a pinkish hue after being prepared a few days (not
-immediately), and that he has attributed it to some manganese carried
-over with the {120} chlorine gas, as he does not remember having
-observed this change when the gas had been passed through water before
-entering the solution of carbonate of soda.
-
-If this suspicion should prove well founded, it is obvious that
-the purity of the chloride of lime employed in the preparation of
-chloroform deserves the attention of the manufacturer.
-
-_Postscript._—Subsequently to the reading of this paper before the
-Pharmaceutical Society, I have received from Mr. William Huskisson,
-jun., a specimen of pink chloroform, which, he informs me, owes its
-remarkable color to the presence of manganese, derived from peroxide of
-manganese employed in the purification of chloroform, as recommended by
-Dr. Gregory, (see _Pharmaceutical Journal_, vol. ix., p. 580.)
-
-Mr. W. Huskisson, jun., tells me, that he has observed in his specimen
-neither the alterations of color nor the crystals met with in the
-specimen sent me by Mr. Grattan.
-
-       *       *       *       *       *
-
-The chairman stated, that he had never, in the various specimens of
-chloroform, of which his firm had always a large quantity in stock,
-observed the pink color described by Dr. Pereira, nor had he ever seen
-any crystals deposited in the bottles, but he would have a more minute
-examination made with the view of ascertaining whether such existed.
-When the chloroform was first drawn over, and before it was purified,
-it frequently possessed more or less of a brown color, but this was
-quite distinct from the character described in the paper which had just
-been read.
-
-Mr. D. Hanbury observed, that the use of manganese had been suggested
-in the process for purifying chloroform, and its presence might in this
-way be accounted for.
-
-Mr. Barnes thought it desirable that the decomposed chloroform
-should be examined for formic acid. Although constantly subject to
-decomposition, no satisfactory explanation of the nature of the change
-had yet been afforded.
-
-{121}
-
-
-REPORT PRESENTED TO THE ACADEMY OF MEDICINE OF PARIS,
-
-ON THE SUBSTITUTION OF AN ARTIFICIAL IODURETTED OIL FOR COD LIVER OIL.
-
-_By a Commission composed of Messrs. Gibert, Ricord, Soubeiren and
-Guibourt._
-
-On the 20th of August, 1850, the Academy appointed a commission,
-composed as above, to whom was submitted a memoir, by M. Personne,
-entitled, “Researches on the Cod-liver and Skate Oils; and on the
-preparation of an ioduretted oil, by which they may be replaced as
-Medicinal Agents.” A note was also submitted to us on the same subject,
-from M. Deschamps, and another from M. Marchall, the latter of which
-claimed for the author priority in the employment of ioduretted oil of
-almonds, as a substitute for cod-liver oil.
-
-We proceed now to report the results of our examinations of these
-communications, and of the investigations to which the enquiry has led.
-
-Cod-liver oil has long been the object of a considerable commerce
-arising principally from the decided superiority which it possesses
-over other animal oils, for the preparation of chamois leather; but
-it has only been within about twenty years that it has been used in
-medicine. It was first employed as a remedy for rheumatic pains, then
-for bronchial affections, and subsequently as a remedy for scrofula
-and consumption. It now constitutes one of the medicinal agents most
-extensively used, and one of those, on the action of which medical men
-place the greatest reliance, as a remedy capable either of curing very
-formidable diseases, or of retarding their fatal termination.
-
-The most important memoir which has been published on cod-liver oil
-is that of Dr. Jongh, in which three kinds of oil are described as
-met with in commerce, which are called the _black_, the _brown_, and
-the _white_ cod-liver oil. These oils are represented to consist,
-principally, of oleic and margaric acids, and glycerine, and, as
-accessory bodies, of butyric acid, acetic {122} acid; some principles
-appertaining to the bile, a non-azotised yellow or brown coloring
-matter, called gaduine, iodine, phosphorus, and some inorganic salts.
-In France, Messrs. Girardin and Preisser have been engaged in comparing
-the effects of the oil obtained from the cod with that obtained
-from the ray; and they advocate the superiority of the latter for
-medicinal use. But this superiority seems to depend, in part, on the
-circumstance, that the oil obtained from the livers of the ray, being
-carefully prepared by the pharmaciens, and being transparent, and of
-a light yellow color, proves less offensive to the patients than the
-cod-liver oil of commerce, which is generally thick, of a dark color,
-and has a disagreeable flavor. This, however, is scarcely admitted at
-the present time. Moreover, it appears from recent observations, that
-the above characters cannot be much depended upon for distinguishing
-the two kinds of oil, in consequence of their being so variable.
-
-According to Messrs. Girardin and Preisser, these two oils contain
-iodine in the state of iodide of potassium, and in quantity much less
-than had been indicated by Dr. Jongh. The latter author gives, as
-follows, the quantity of iodine in 1,000 parts of oil:―
-
- Black cod-liver oil     0,295 parts of iodine.
- Brown cod-liver oil     0,406 parts of iodine.
- White cod-liver oil     0,374 parts of iodine.
-
-Messrs. Girardin and Preisser have found in a litre (thirty-five fluid
-ounces),
-
- Of ray-liver oil      0,180 gramme of iodine.
- Of cod-liver oil      0,150 gramme of iodine.
-
-According to M. Gobley, a litre of ray-liver oil, prepared by direct
-action of the fire, contains twenty-five centigrammes of iodide of
-potassium. M. Goodley was unable to find phosphorus in this oil.
-
-Such were the principal analytical results known when M. Personne
-presented his memoir to the Academy. The uncertainty which appeared to
-attach to the subject, and the {123} variations in the statements of
-chemists, induced him to put to himself the following questions:―
-
-1st. Do the oils of cod and ray-liver contain iodide of potassium or
-iodine?
-
-2nd. Do the different sorts of these oils contain the same proportion
-of iodine?
-
-3rd. Do these oils contain phosphorus, to which their effects may be
-partly attributed?
-
-For detecting the presence of the iodine, M. Personne saponified the
-oil with an excess of caustic potassa, incinerated the soap, and
-treated the product of incineration with strong alcohol. The alcohol
-was evaporated, the residue dissolved in water, and to this, solution
-of starch and sulphuric acid were added. The quantity of iodine
-was estimated by the intensity of the color; it is too small to be
-estimated by the balance.
-
-Mr. Personne examined in this way the dark brown and thick cod-liver
-oil, such as is employed in the hospitals of Paris; the transparent
-and nearly colorless oil of English commerce; and the ray-liver oil
-prepared by the direct action of a moderate heat, and subsequent
-filtration. The following are the results:―
-
-1st. The brown cod-liver oil of the hospitals of Paris contains more
-iodine than the fine white oil of English commerce.
-
-2nd. It also contains more iodine than the ray-liver oil, and,
-moreover, the quantity present is certainly less than a decigramme of
-iodine in a kilogramme of oil (1 in 10,000.)
-
-3rd. The residue of the liver, left after the preparation of the oil,
-contains much more iodine than the oil itself.
-
-With regard to the question as to whether the iodine exists in
-cod-liver oil in the state of iodide of potassium, or directly
-combined with the oil, M. Personne, while he admits the difficulty of
-satisfactorily determining the point, inclines to favor the opinion
-that the iodine is directly combined with the elements of the oil.
-
-[The different methods which have been suggested for the preparation of
-the ioduretted oil proposed as a substitute for {124} cod-liver oil
-are described. A discussion follows of the claims of the authors, whose
-communications were submitted to the commissioners, for having first
-introduced the artificial ioduretted oil, which discussion is also
-omitted here as being uninteresting to our readers. The commissioners
-next proceed to state the result of the evidence obtained, by the
-medical members of the commission, of the therapeutical action of the
-artificial ioduretted oil.]
-
-M. Gibert administered the ioduretted oil for periods varying from
-several weeks to several months, to patients suffering with eruptive
-complaints and scrofulous tumors; and, in some instances, found the
-benefit to be greater than from the use of cod-liver oil, under similar
-circumstances. He states, that he does not think he has tried it in a
-sufficient number of cases, and for a sufficient length of time, to
-enable him to state decidedly what its absolute value is as a specific
-for eruptive and scrofulous complaints; but the results he has obtained
-are sufficient to prove, that it is easy of administration and devoid
-of any injurious quality, and that it possesses a resolutive action,
-which renders it a valuable remedy for certain chronic eruptions and
-glandular swellings.
-
-M. Ricord has employed the ioduretted oil for twelve months, in a great
-number of cases of scrofula, some of which were considered to be of
-venereal origin. He thus obtained excellent results in the treatment of
-strumous bubo, tubercular epididymis, and in some cases of scrofulous
-enlargement of the joints, etc., and other things being equal, curable
-cases were cured, or relief afforded, much more quickly by the use of
-the artificial ioduretted oil than by the natural cod-liver oil.
-
-The average dose in which the ioduretted oil was administered was sixty
-grammes (℥ij.), which was sometimes raised to 100 grammes (℥iiiss.) The
-patient generally took it without inconvenience. It was only in a few
-instances, where the dose had been raised, that vomiting, colic, and
-diarrhœa were produced. If the precautions which are necessary in the
-administration of every remedy be observed, and the degrees of {125}
-susceptibility of the patients, together with all special conditions,
-properly studied, it may be affirmed that the ioduretted oil is a
-medicine of great value and that it presents considerable advantage
-over the cod-liver oil.—_Journal de Pharmacie, in Pharmaceutic Journal._
-
-
-EDITORIAL.
-
-
-INTERNAL USE OF ATROPINE.
-
-ABRIDGED FROM THE JANUARY NUMBER OF THE LONDON JOURNAL OF MEDICINE.
-
-In the practice of English and American physicians, atropine (atropia)
-has been hitherto used chiefly as an external application, to dilate
-the pupil, but, as far as we know, has never been administered
-internally. In France, the powdered belladonna root has been strongly
-recommended as affording a reliable and efficient preparation; in this
-country, the leaves and the extracts and tincture derived from them are
-alone officinal. Dr. Lusanna, an Italian physician, has ventured upon
-the internal use of atropia, and, according to our notions, in very
-large doses. He commences its administration in doses of one-thirtieth
-of a grain every three or four hours, gradually increasing the dose
-according to the effect produced. In some instances he went so far as
-to give one-third of a grain five times a day.
-
-It may be given, according to Dr. L, in solution in alcohol, or in
-acetic or some other mild acid. Pills and powders, from the difficulty
-of apportioning the dose he deems unadvisable. The alcoholic solution
-has a taste somewhat like that of quinine, but feebler, and not
-particularly disagreeable. The patient soon becomes habituated to the
-remedy, and the dose has to be increased. In cases of neuralgia he
-recommends the application of one-fourteenth to one sixth of a grain
-to a blistered surface, in the form of pomade. Dr. L. carries the
-administration of atropia so far as to produce what we would call its
-toxicological effects.
-
-1st. _Dilatation and immobility of the pupil._ Between fourteen and
-fifteen minutes after the exhibition of from one-twenty-fourth to
-one-thirtieth of a grain of atropia, the pupil becomes enormously
-dilated. If the remedy be persevered in the dilatation passes of, but
-the iris becomes immoveable, and the pupil no longer contracts on
-exposure to light. When the remedy is stopped, as the other phenomena
-produced by its exhibition subside, the pupil again becomes extremely
-dilated. Previous to this it commences to oscillate, contracting
-slightly when exposed to strong light, and dilating again in the shade.
-This indicates that the {126} effects of the remedy are disappearing.
-The dilatation of the pupil is the last of the phenomena to subside,
-being sometimes met with eight days, or more after the suspension of
-the atropia.
-
-2. _Disturbance of vision._ Objects at first seem hazy and ill-defined,
-persons are not recognized, and it is impossible to read or write. If
-the dose be increased, objects seem covered with a dark shade, and
-vision may be wholly lost. Every fresh dose has a sudden and marked
-effect in diminishing vision, and on its suspension the disturbance of
-vision disappears with equal rapidity. In one or two days the sight is
-perfectly restored.
-
-3. _Disturbance of Intellect._ At first the patient appears dull and
-stupid, then there is vertigo and confusion of ideas.
-
-4. _Hallucinations of sight and hearing._ Objects are seen double or
-greatly magnified; motes and insects flit before the eyes; well known
-objects assume strange and monstrous forms, or horrible phantoms are
-seen. The hearing is more rarely affected. Buzzing, tinkling, hissing
-and whistling are sometimes heard.
-
-5. _Anaesthesia._ Touch remains apparently perfect, but pain is
-relieved or blunted. The patient does not seem to suffer from painful
-tactile impressions.
-
-6. _Dryness of the mouth and throat_ were invariably felt. At first
-this seemed a purely nervous phenomenon, but if the medication was
-continued, from the diminution of the salivary secretion it became real.
-
-7. _The appetite_ is early lost, and there is no thirst; but on the
-cessation of the remedy it returns sharper than ever. Speech is early
-embarrassed, and the power of swallowing early diminished, becomes
-finally lost.
-
-8. _Delirium_ alternating with stupor or succeeded by it, is produced
-by one-tenth of a grain of atropia at the commencement of the
-treatment, or by one-fourth of a grain later, or by any sudden increase
-of the dose. The delirium is commonly gay and ridiculous; in one
-instance only was it mournful. When these phenomena are at all intense,
-they subside slowly. For several days after the cessation of the
-medicine, there is confusion and slowness of thought.
-
-9. _Redness of the skin_ was observed in but a single case.
-
-10. _Torpor and paralytic tremblings._ As the patient gets under the
-influence of the atropia, the legs become weak and trembling, gradually
-lose their strength, and he is confined to bed. They may be still
-agitated by twitching, and convulsive movements.
-
-11. _Paralysis of the sphincters of the rectum and bladder._ This is
-the highest point to which, according to Dr. L., the medicative action
-of atropia can attain. In one case, only, the fæces and urine were
-passed involuntarily.
-
-The functions of respiration, circulation, and calorification, were
-never affected by atropia.
-
-After this long catalogue of serious symptoms, Dr. Lusanna rather
-naively observes, he has never seen any truly alarming results arise
-from the use of atropia! Should they occur, he recommends wine as the
-best antidote.
-
-{127}
-
-
-CULTIVATION OF OPIUM.—In a late number of the Archives Generales
-de Medicine, will be found a short notice of a paper, read by M.
-Aubergier, to the French Academy of Science upon the cultivation of
-native opium. When the juice is obtained according to the methods
-described by M. A., the seeds continue to ripen, and the oil they
-yield pays the expense of cultivation. If the opium then more than
-repays the expense of the labor necessary to procure it, its production
-will be a source of profit. Now M. A., by successive improvements in
-his processes, has been enabled to raise the amount obtained by each
-laborer from a maximum of 75 to 90 grammes (1157 1/2 grs. to 1389
-grs.) to five times that quantity. The commercial value of the opium
-will always, therefore, more than repay the cost of manufacture. He
-farther finds that the proportion of morphia contained in the opium
-varies. 1st, with the maturity of the capsules from which it is
-collected, opium collected from capsules nearly ripe yielding less
-morphia than that obtained from those that are not so near their
-maturity. 2d, different varieties of the poppy yield an opium varying
-in the quantity of contained morphia from 15 to 17.833 per cent. Twenty
-specimens of foreign opium examined by M. A. yielded quantities varying
-from 2.64 to 13 per cent.
-
-The superiority of some specimens of European opium has been noticed by
-previous observers, and depends probably on the greater care bestowed
-on its preparation and on the cultivation of the plant.
-
-
-CHROMIC ACID AS AN ESCHAROTIC. Chromic acid has lately been employed
-in Germany, both in concentrated solution and in substance, as an
-escharotic. The advantages it possesses are, that it is efficient,
-manageable, and less painful than the more ordinary applications. The
-concentrated solution is applied by means of a glass rod, a pencil
-made of asbestos, or if necessary, an ordinary hair pencil, which,
-if washed immediately, can be used a second time. The solid chromic
-acid on account of its penetrating action has to be employed with much
-care. All organic compounds are first oxydised and then dissolved in
-an excess of the acid, and this change is accelerated by an elevated
-temperature. Smaller animals, birds, mice, &c., were so completely
-dissolved by the acid within fifteen or twenty minutes, that no trace
-of their bones, skin, hair, claws, or teeth could be discovered. It
-would thus appear to be not only a gentle and gradual escharotic, but
-also a complete and rapid solvent. _Dublin Quarterly Jour. of Med.
-Science, from Wiener Medizinische Wochenschrift_, 1851, No. viii.
-
-
-PUBLIC HYGEINE. M. M. Bicourt & A. Chevalier have presented a memorial
-on the diseases which attack workmen engaged in the manufacture of
-chromsate of potash. The result of the facts presented in their
-memorial, proves, 1st. That workmen engaged in the preparation of
-bi-chromsate of potash, are subject to peculiar diseases. 2d. These
-diseases attack workmen who do not take snuff, and the mucous membrane
-of the nose is destroyed. 3d. Workmen who take snuff do not experience
-the same diseases. 4th. Workmen whose skin is broken {128} in any
-part, suffer severely when the bi-chromsate comes in contact with
-the abraded surface, and should, therefore, carefully preserve the
-abrasions from contact with the solution of bi-chromsate. 5th. Workmen
-lightly clothed are exposed to some inconveniences, but these may be
-easily avoided. 6th. Animals are, like men, exposed to maladies caused
-by the bi-chromsate of potash.—_Archives Generales de Medicine._
-
-
-CHEMICAL TECHNOLOGY; or Chemistry applied to Arts and to Manufactures,
-by Dr. T. Knapp, Professor at the University of Giesen; Dr. Edmund
-Ronalds, Professor of Chemistry at Queen’s College, Galway; and Dr.
-Thomas Richardson, of New Castle on Tyne. Illustrated with nine
-engravings and one hundred and twenty-nine wood cuts. Vol. iii. London:
-HYPPOLYTE BAILLIERE, 219 Regent street, and 209 Broadway, New York.
-
-Knapp’s Technology belongs to a class of books characteristic of the
-present day, and of the highest and most extended usefulness. Giving
-the practical details of the arts in connection with the scientific
-principles on which they are founded, it extends the views of the
-manufacturer and the economist, and places him on the right path for
-further improvement. To the American it presents the further advantage
-of ample and precise details of what is being done in Great Britain
-and on the Continent of Europe. All engaged in pursuits with which
-chemistry has any connection (and with what is it not now connected?)
-will find in the various volumes of the Technology, valuable
-information in regard to their own peculiar avocations, while the
-variety of its information and the copiousness of its illustrations,
-gives it a high interest to the general reader.
-
-       *       *       *       *       *
-
-At a meeting of the College of Pharmacy of the city of New York, held
-on Thursday, 25th of March, the following gentlemen were elected
-officers for the ensuing year.
-
- GEO. D. COGGESHALL, _President_.
- JOHN H. CURRIE, _1st Vice President_.
- WILLIAM L. RUSHTON, _2d Vice President_.
- OLIVER HULL, _3d Vice President_.
- JAMES S. ASPINWALL, _Treasurer_.
- B. W. BULL, _Secretary_.
-
-TRUSTEES.
-
- WM. J OLLIFFE,
- JOHN MEAKIN,
- THOMAS B. MERRICK,
- EUGENE DUPREY,
- R. J. DAVIES,
- JUNIUS GRIDLEY,
- WM. HEGEMAN,
- GEORGE WILSON,
- THOMAS T. GREEN.
-
-{129}
-
-
-
-
-NEW YORK
-
-JOURNAL OF PHARMACY.
-
-MAY, 1852.
-
-
-NOTES IN PHARMACY, No. 2.
-
-BY BENJAMIN CANAVAN.
-
-
-TINCT. FERRI AETHEREA.—At the instance of one of our physicians, I made
-some of the above preparation for a lady patient of his, who, after
-having used the other preparations of Iron “ad nauseam,” had taken it
-with benefit in Europe under the name of “Bestucheff’s tincture,” as
-which, it at one time enjoyed great popularity, so that a very large
-sum was given to the author in purchase of it by the Czarina Catharine.
-After the composition became known it fell into disuse, almost
-justifying us in reversing the quotation from Celsus,―
-
- “Morbos autem, non remediis, sed verbis curari.”
-
-It presents the metal in a different chemical state from what it is
-in the muriated tincture, viz: a very soluble deuto chloride; no
-acid is present and there are besides the anodyne and anti-spasmodic
-properties of the ethereal spirit, rendering it peculiarly appropriate
-in hysterical affections; and being pleasant to the taste and miscible
-with water, it is not at all repulsive.—Supposing it may prove useful
-elsewhere and to others, I subjoin the formula I have used, and to
-which I give the preference, as being the most complete. It is original
-in the Austrian Pharmacopœia of 1820, whence it has been copied into
-many French formularies, under the name of “teinture étherée de {130}
-chlorure de fer,” and may be found with a number of other formulæ for
-the same preparation in the _“Pharmocopée Unverselle” of Jourdan_.
-
- ℞ Acidi hydro chlorici ℥iv.
-   Acidi hydro nitrici ℥i.
- Limatura. Ferriqs. saturare acida.
-
-Add the iron filings _very gradually_, and in small quantity at a time
-to the acids mixed together, in a porcelain mortar of ten or twelve
-inch diameter, and allow each portion to be dissolved before another is
-added, and so proceed until saturation is complete. Decant; evaporate
-to dryness in a sand bath; dissolve the residue in a quantity of water
-equal in weight to itself, and to each ounce of this solution add six
-ounces of sulphuric ether, agitate them well together and separate the
-supernatant ethereal solution, to which add four times its bulk of
-alcohol; finally, expose it to the action of the sun’s rays until the
-color is altogether discharged. The dose is twenty to thirty drops.
-
-MUCILAGO (GUMMI) ACACLÆ.—Among the many useful hints which have
-appeared in the New York Journal of Pharmacy, in relation to several
-formulæ of the U. S. P., I perceive the preparation mucilage of gum
-arabic has been deemed worthy of a supervisory notice, and having
-experienced some annoyance with regard to it, arising simply from
-the fact that the officinal preparation has been heretofore entirely
-overlooked by apothecaries generally, each one instituting a formula
-for himself, I have been very much gratified by the result of
-adhering strictly to the formula of the Pharmacopœia, and would take
-the liberty to say that as the formulæ of all the Pharmacopœias of
-countries wherein our language is spoken are alike, it surely would
-not be productive of any advantage to introduce an exception to this
-conformity, to suit a local peculiarity, arising, to say the least,
-from inadvertence. Besides the thickness of the officinal mucilage is
-not much greater than that of syrup of gum, and is even absolutely
-necessary for the _chief proposes_ for which it is intended or
-prescribed, viz: the suspension of weighty metallic {131} oxydes,
-&c., and the holding balsams, oils, &c., in mixtures,—much benefit
-then would, so far as my experience goes, accrue from the apothecary
-confining himself strictly to the officinal mucilage, and as individual
-formulæ are based upon it, the re-compounding them from transcribed
-versions would be rendered more accurate. This “whittling” away of
-standards, to make them correspond to the shortcomings of negligence
-or parsimony, has only the effect of rendering “confusion worse
-confounded.”
-
-
-MISTURA AMYGDALARUM.—Being a work of some hour or so’s duration to
-prepare the almond emulsion ab initio, it has been usual to keep the
-ingredients in the form of paste, from a proportionate quantity of
-which the mixture is made when required. The paste does not keep,
-becoming musty and sometimes exceedingly hard. I have therefore adopted
-the plan of keeping the almonds already _bleached and well dried_, in
-which state they do not undergo any change and thus is made all the
-preparation that can be, to expedite the process.
-
-
-LIQ. ARSENIT. POTASS.—On taking up, the other day, a shop bottle in
-which Fowler’s solution had been kept for some half a score or dozen of
-years, I perceived it to exhale a strong garlicky odor characteristic
-of free metallic arsenic. On examining the bottle which is of the
-ordinary flint glass, the inner surface presented the appearance of
-being coated or rather corroded, and having a metallic lustre so far
-up as the bottle was generally occupied by the solution, and in the
-upper part several specks were visible, of the same character, as if
-they had been produced by the sublimation of the corrosive agent. The
-coating was not affected by any amount of friction nor by alkalies but
-was slowly dissolved by acetic acid, from which iodide of potassium
-threw down a precipitate of iodide of lead.—Deeming, therefore, the
-decomposition to have arisen from the lead contained in the flint glass
-I have since then kept the solution in green glass bottles.
-
-{132}
-
-
-LIQUOR MAGNESIÆ CITRATIS.
-
-THOS. S. WIEGAND, PHILADELPHIA.
-
-The attention which has been given to this article by pharmaceutists,
-both on account of its pleasantness and its great tendency to change,
-has induced me to offer the following observations.
-
-The advantage of the plan proposed is that a perfectly satisfactory
-article can be furnished in five or eight minutes, thus rendering
-unnecessary any attempt to make the preparation permanent at the
-expense of its remedial value. That this is the manner in which the
-public are supplied, save at stores where large quantities are sold,
-there can be but little doubt, from the experiments of Professor
-Proctor of Philadelphia, detailed in the 23rd volume of the American
-Journal of Pharmacy, p.p. 214 and 216, which show conclusively that a
-permanent solution of citrate of magnesia must be a decidedly acid one.
-
-Another method for making a soluble citrate has been devised by
-Dorvault, which is published in his treatise, entitled “L’officine;”
-but from certain difficulties in manipulation his process cannot come
-into very general use.
-
-The formula offered is―
-
-Take, of carbonate of magnesia, in powder, five drachms, boiling water
-five fluid ounces, throw the magnesia upon the water in a shallow
-vessel, when thoroughly mixed, pour five sixths of the pulp into a
-strong quart bottle, fitted with cork and string for tying down; then
-make a solution of seven and a half drachms of citric acid in two fluid
-ounces of water, pour it into the magnesia mixture, cork and tie down
-immediately; when the solution has been effected (which will require
-but a minute and a half, or two minutes,) empty it into a bottle
-capable of holding twelve fluid ounces, containing two fluid ounces of
-syrup of citric acid, add the remaining pulp of carbonate of magnesia,
-nearly fill the bottle with water, and cork instantly, {133} securing
-it with twine or wire; if the carbonate be of good quality it will be
-entirely dissolved in seven minutes.
-
-Of course it is not intended that the carbonate of magnesia can be
-rubbed to powder, the water boiled, the bottles washed and fitted with
-strings and corks in the time above mentioned. My plan is to have the
-bottles prepared with their corks, strings, and syrup in advance, and
-to keep the carbonate of magnesia in a state of powder for this purpose.
-
-
-[Continued from the March number.]
-
-PRACTICAL HINTS.
-
-BY A WHOLESALE DRUGGIST.
-
-
-BALSAM PERU. For many years past a factitious balsam Peru has been
-manufactured in a neighboring city in very considerable quantities,
-and has entered largely into consumption; it is made by dissolving
-balsam tolu in alcohol. It closely resembles the true balsam, and is
-calculated to deceive unless subjected to a close examination. If
-one’s attention is particularly called to it, a smell of alcohol is
-perceptible. It is, however, easily tested by burning in a spoon or
-small cup. The factitious balsam readily ignites on the application of
-flame and burns, as may be supposed, with a blue flame. The true balsam
-ignites with much more difficulty and emits a dense black smoke, and on
-the application of considerable heat, the air becomes filled with small
-feathery flakes of lamp black. This test, together with the sensible
-properties of appearance, taste and smell, will enable one to determine
-without doubt as to its genuineness.
-
-
-LAC SULPHURIS. SULPHUR PRECIPITATUM. MILK OF SULPHUR. This preparation
-of sulphur is made by boiling sulphur and lime in water, and after
-filtering, precipitating the sulphur with muriatic acid. It differs
-from the ordinary sulphur in being in a state of more minute division
-and being softer and less brittle after having been melted. {134}
-
-When sulphuric acid is used to precipitate the sulphur, sulphate of
-lime is formed and cannot be separated from the precipitated sulphur by
-the ordinary process of washing, that salt being insoluble in water;
-for this reason muriatic acid should be used, as the salt thus formed,
-the muriate of lime or chloride of calcium is perfectly soluble and can
-be readily separated from the sulphur by washing.
-
-The ordinary lac sulphuris of commerce, is prepared by the use of
-sulphuric acid, and in consequence is found to contain a very large
-proportion of sulphate of lime, or plaster of Paris.—Several specimens
-examined were found to consist of nearly equal parts of sulphate of
-lime and sulphur.
-
-The test for the above impurity is by burning in a small cup or spoon.
-The sulphur burns out entirely, leaving the impurity unaltered. The
-exact amount of impurity may be determined by weighing the substance
-before and after burning, and deducting the one weight from the other.
-
-PRECIPITATED CHALK OR CARB. LIME. It is very important that physicians
-should be able to obtain this preparation of a reliable quality. A
-preparation purporting to be the above, but in fact nothing more nor
-less than sulph. lime or plaster of Paris, has, in very considerable
-quantities entered into consumption within a year or two past. It is
-difficult to determine between the two from their appearance. The
-test, however, is very simple and consists in treating the suspected
-article with muriatic acid. It should dissolve perfectly with brisk
-effervescence, if it be in reality pure carbonate of lime. If it
-consists, wholly or in part, of sulphate of lime, the whole or such
-part remains unaffected by the acid.
-
-Pure muriatic acid should be used, as the commercial acid frequently
-contains sulphuric acid, in which case a portion of sulphate of lime is
-formed and remains undissolved.
-
-Magnesia is sometimes found in this preparation, but by accident
-generally and not by design, as the price of the magnesia offers no
-inducement for the adulteration.
-
-{135}
-
-
-WEIGHTS AND MEASURES.[9]
-
-   “Una fides, pondus, mensura, moneta sit una,
-    Et status illæsus totius orbis erit.”—BUDEUS.
-
- “One faith, one weight, one measure and one coin,
-  Would soon the jarring world in friendship join.”
-
-The confusion of Babel is felt most severely in the matter of weights
-and measures. Whether we consider the _number of names_ of weights
-and measures, the _similarity_ of names, the _discrepancy in amount_
-between those of the same name, or the _irregular relations_ of those
-of the same denomination, we find a maze, the intricacies of which
-we cannot retain in our memory an hour after we have committed them
-to it. Sometimes, too, we find a farther discrepancy of a surprising
-nature; as if the authorised pint should not be the exact eighth of the
-authorised gallon, and so there should be two different quarts, one of
-two exact pints, and one of a fourth of a gallon, as well as a false
-gallon of eight exact pints, and a false pint of an eighth of an exact
-gallon.
-
-[9] Universal Dictionary of Weights and Measures. By J. H. ALEXANDER.
-Baltimore. W. Menefie & Co. 158 pp. 8vo.
-
-We cannot here trace the genealogy of this multitude; Chaos and old
-night are the ancestors of them all, except those now prevailing in
-France. A large number of them are of vegetable origin, from grains
-of wheat, carob beans, carat seeds, &c. The Accino, the Akey, and
-innumerable others seem to have had a similar origin. Most measures of
-length have been derived from the human form, as foot, span, fathom,
-nail, &c. To originate a new measure or weight has proved much easier
-than to preserve their uniformity when established. Here legislation
-has been resorted to. The arm of Henry I. was measured, and a _yard_
-of the same length was deposited in the exchequer as a standard.
-“Thirty-two (afterwards twenty-four) grains of well dried wheat from
-the middle of a good ear” were to weigh a penny, twenty pence one
-ounce, and twelve ounces a pound. Science finally carried the matter
-one step further, and a yard is now 36/39.13929 part of the length
-of “a pendulum that {136} in a vacuum and at the level of mid-tide,
-under the latitude of London, shall vibrate seconds of mean time.” The
-metre, a measure established by science, is 1/10,000,000 part of
-the distance from the equator to the north pole. Measures of capacity
-have been still more difficult to verify, and weights, when depending
-upon these last, have been involved in further difficulties.—William
-the Conquerer, enacted that 8 pounds good wheat, 61,440 grains, make
-a gallon. In England now, 10 pounds of water, 70,000 grains, at 60°
-Fahr., make a gallon. In France a cubic decimetre of water, at maximum
-density, 39.2° Fahr., weighs a kilogramme.
-
-But the impotency of law is nowhere shown more strikingly than in
-its attempts to destroy spurious and useless weights and measures.
-Thirty of these are said to be prevalent in Scotland at this day; and
-although Magna Charta required that there should be but one weight in
-all England, the assize of bread is still regulated by a pound, 16
-of which = 17℔ 6 oz. avoirdupois. Still further, it may not always
-occur to us that English measures, dry and liquid, need translating
-when their works are reprinted in the United States, as much as the
-French measures; for the imperial gallon, used for both dry and liquid
-measures, differs from both our gallons. It contains 1.2006 of our
-liquid gallons; our dry gallon contains 1.1631 of our liquid gallons.
-
-But it is in the _weights of the United States_ that we are more
-particularly interested. We will, therefore, take our leave of the rest
-of 5,400 and more weights and measures which Mr. Alexander has ranged
-in alphabetical order, from
-
-        Name.          Locality.      Character.           Value.
- “Aam; _for wine_,   _Amsterdam_,   Liquid capacity,   41.00041 gall.” to
- “Zuoja _piccola_,   _Udino_,       Superficial,       0.8553 acres.”
-
-Let us enquire what are the weights of the United States.—We find but
-one unambiguous term to measure the rest by, the grain. We have then:
-
- 1.  The long ton,      15,680,000       grains.
- 2.  The ton,           14,000,000       grains. {137}
- 3.  The quintal,          784,000       grains,
- 4.  The hundred weight,   700,000       grains,
- 5.  Quarter,              196,000       grains,
- 6.  Pound avoirdupois,      7,000       grains,
- 7.  Pound Troy,             5,760       grains,
- 8.  Pound Apothecaries’,    5,760       grains,
- 9.  Ounce Troy,               480       grains,
- 10. Ounce Apothecaries’,      480       grains,
- 11. Ounce Avoirdupois,        437.5     grains,
- 12. Drachm Apothecaries’,      60       grains,
- 13. Drachm Avoirdupois,        54.6875  grains,
- 14. Dram of the arithmetic,    27.34375 grains,
- 15. Pennyweight,               24       grains,
- 16. Scruple,                   20       grains,
- 17. Grain,                     1        grains.
-
-A formidable array truly! From this we see that while an ounce of cork
-is lighter than an ounce of gold, a pound of cork is heavier than a
-pound of gold! Nay, further, let the apothecary go to the druggist
-for a drachm of opium, and he will receive and pay for a _drachm_
-avoirdupois, a weight unknown even to Mr. Alexander, although in
-constant use in this city. But the moment he puts it into his mortar
-there is not a drachm of it! If he wishes to use a drachm in pills
-or tincture, he must add more than five grains to it. Could anything
-be more inconvenient or more prolific in mistakes? To prevent butter
-from becoming rancid, we are told to mix with it the bark of slippery
-elm, in the “proportion of a drachm (or dram) to the pound.” Who can
-tell what it means? Six different proportions might accord with this
-Delphic response; the most probable is 60∶7000. But the grievance to
-which the apothecary is subject does not all consist in his buying
-by lighter ounces, and selling by heavier. The subdivisions by which
-he compounds have no reference to his convenience. Long habit alone
-can save him from either laborious calculation or risk of error. But
-still another chance of error comes into the account. Two characters,
-ʒ and ℥, are joined to numerals, to indicate {138} quantities; a
-mistake of these, by either prescriber or apothecary, may prove fatal.
-A case in point occurred a few years since, well known to many of our
-readers. A physician, prescribed cyanide of potassium, by a formula in
-which ℥ had been printed, by mistake, for ʒ. The apothecary, instead
-of sending him the prescription for correction, _as he ought to have
-done_, put it up and sent it with the fearful monition that the dose
-would prove fatal—and so it did—to the prescriber himself, who took the
-dose his patient dared not touch. He died in five minutes, a victim to
-a printer’s error, to his own self confidence, to want of etiquette
-in the apothecary, and last, not least, to an ill-contrived system of
-weights.
-
-This brings us to the practical question, What is to be done? All agree
-that there ought to be a reform. On this point we can do no better
-than quote the close of Mr. Alexander’s preface.—“Finally,” says he
-(page vii.) “if I may be allowed, in connection with this work and its
-appropriate applications, to allude to certain dreams of my own, (as
-they may be; although I consider them capable, without undue effort,
-of a more prompt and thorough realisation than seems to be ordinarily
-anticipated,) as to the prevalence, some day, of an universal
-conformity of weights and measures, I must acknowledge that such a
-result was one of the ends I had in view in the original collection of
-materials. Not that such a work was going to show more emphatically
-than business men feel, and reflecting men know, the importance of such
-an universal conformity; or that a book whose pages deal in discords,
-could, of itself, produce unison; but the first step to any harmonious
-settlement is, to see clearly, and at a glance, where the differences
-lie, and what they are.—If a millennial period for this world is
-ever to come, as many wise have deemed, and pious prayed, it must be
-preceded by one common language, and one common system of weights and
-measures, as the basis of intercourse. And the way to that is to be
-built, not by the violent absorption of other and diverse systems into
-one, but rather by a compromise into which all may blend. When the
-Earth, in her historical orbit, shall {139} have reached that point,
-(as it stood ere mankind were scattered from the plain of Shinar)
-and not till then, may we begin to hope that her revolutions will be
-stilled, and that before long the weights and measures of fleeting
-Time will be merged and lost in the infinite scales and illimitable
-quantities of Eternity.” We are not sure that we precisely understand
-the last sentence, and we are sure we dissent entirely from the one
-that precedes it. No compromise can be of service in bringing about
-a uniformity in weights and measures. We must either make a better
-system than the best extant, and ask all men to adopt it, or if the
-best that human ingenuity and science can devise is already in use,
-so much the better; let us adopt it with all our heart. Is the French
-system this best one? We believe it is, nor have we ever heard it
-called in question.—Why then speak of a new one as desirable? We fear
-the suggestion is the offspring of a national vanity, which ought to be
-beneath us. We would not oppose such a motive even to the introduction
-of the centigrade thermometer, which is much more inconvenient than
-Fahrenheit’s, and has _no one_ advantage over it in any respect; still
-less should it bar the progress of a system against which no fault can
-be alleged, but that it is _foreign_.
-
-We agree with our author that the introduction of a new system is much
-easier than is generally supposed. It will not be like the change of
-a monetary system, where the old coins remain, mingled with the new,
-to perpetuate the old names.—The change could be, by law, effected
-next New Year’s day, and all inconvenience from it would be over
-in a month, save some awkwardness from habit, and two more serious
-difficulties. One is from the human propensity to _bisection_. Thus the
-old hundredweight of 112 pounds is bisected down to 7 pounds, and the
-grocer will sell half this quantity, 3 1/2 pounds, at a cheaper rate
-than he will sell 3 pounds or 4. Unfortunately in bisecting 100 we run
-down too soon to the fractions 12 1/2 and 6 1/4. The French have
-been obliged to give way to this propensity, and divide the kilogramme
-in a binary manner, {140} with an unavoidable irregularity, reckoning
-31 1/4 grains as 32. Would that 32 × 32 = 1000! Our only remedy is to
-change the radix of numeration from 10 to 16, a thing impossible but to
-a universal dictator. The other difficulty is in our measure for land.
-This must remain in all surveyed tracts in such a shape that 40 acres,
-and also 5 acres, shall be some multiple of unity.
-
-But shall the apothecary wait the action of government?—This is neither
-necessary nor desirable. Some relief he ought to have speedily. If
-he dare not make so great an advance as to adopt the French system,
-(his truest and most honorable policy,) let all subdivisions of the
-avoirdupois pound be discarded, except the grain. Introduce the
-chemists’ weights of 1000, 500, 300, 100, 50, &c. grains, and let all
-prescriptions be written in grains alone. This, perhaps, is the only
-feasible course.
-
-We must return once more to our author before taking leave of our
-readers. The motive for making the collection was one that strikes
-us as new. It was for ethnological and historical purposes. As the
-carat points to India as the origin of the diamond trade, so we find
-in the names, mode of subdivision, and amount of weights and measures
-evidences of the migrations of races, and of the ancient and obsolete
-channels in which trade once flowed. The care with which Mr. Alexander
-seems to have corrected these tables, and adjusted the discordant
-elements of which they are composed, and corrected the discrepancies
-between them, makes them more worthy of reliance than anything that has
-preceded them, and leaves little to be desired that is within the reach
-of human attainment. After the alphabetical arrangement, are given the
-weight and measure systems of the “principal countries of the world,”
-beginning with Abyssinia and ending with Würtemberg. And we have only
-to add that the mechanical execution of the volume is worthy of the
-care and labor the author has spent upon it, unsurpassed, in fact, by
-any book made for use we have ever seen.
-
-{141}
-
-
-QUINIDINE.
-
-BY MR. ROBERT HOWARD.
-
-This alkaloid, which gained a prize in the Great Exhibition, has
-scarcely yet attracted much attention. Some of the cheaper barks now
-largely imported from New Grenada contains so much of it that it
-is, perhaps, as well that it should be more studied. The _Cinchona
-cordifolia_, from this part of the continent, is particularly rich
-in it. It is, however, contained in larger or smaller quantities in
-the Bolivian and Peruvian barks—the _Cinchona Calisaya_, _Boliviana_,
-_rufinervis_, and especially _ovata_.
-
-Referring your readers to a very able paper in your Journal,[10] I beg
-to add a few facts from my own observations.
-
-The sulphate of quinidine, or β quinine as it is called by some, (Van
-Heijninger and others,) is so like the sulphate of quinine, that the
-eye or the taste can with difficulty distinguish them. It forms the
-same light fibrous crystallization, and occupies as large a bulk. It
-corresponds in appearance with the description given by Winckler, of
-“chinidine.” (See _Pharm. Journ._ for April, 1845, vol. iv., p. 468.)
-He notices that it has “a remarkably white color and a peculiarly faint
-lustre.” Its most striking characteristic is its extreme solubility.
-Pure sulphate of quinine requires nearly thirty times its weight of
-boiling water for solution, whilst the sulphate of quinidine dissolves
-in four parts. On the other hand the pure alkaloid crystallizes
-readily out of proof spirit and out of ether, whilst quinine does
-not crystallize out of either. A very good test for the presence of
-cinchonine in sulphate of quinine is also capable of being applied
-to detect the presence of β quinine. On this point I would refer for
-very interesting details to a paper by M. Guibourt, in the _Journal de
-Pharmacie_ for January in this year.
-
-[10] _Pharmaceutical Journal_, vol. ix., p. 322, January, 1850.
-
-In your Journal of April, 1843, I gave a test for sulphate of quinine,
-to which I would again advert, because subsequent {142} experience has
-proved it to be a tolerable easy, and at the same time exact means of
-ascertaining its purity. Put 100 grains in a Florence flask with five
-ounces of distilled water, heat this to brisk ebullition; the sulphate
-of quinine ought not to be entirely dissolved; add two ounces more
-water, and again heat it to ebullition; ought to make a perfectly clear
-solution. If this be allowed to cool for six hours, and the crystals
-carefully dried in the open air on blotting paper, they will be found
-to weigh about ninety grains, the mother-liquor may be evaporated and
-tested with ether, when any cinchonine or β quinine will be easily
-detected. On examining sulphate of quinine of commerce from several
-leading manufacturers, I have found all of them give, within a grain or
-two, the same result, and, in each, indications of a β quinine, though
-to an unimportant extent.
-
-The above quantity of water (seven ounces) readily dissolves 800 grains
-of sulphate of β quinine; and if 100 grains of this salt are dissolved
-in seven ounces of water, the crystals as above weigh only fifty-four
-grains, thus leaving forty-six grains in solution instead of about ten
-grains.
-
-The medical effects of β quinine deserve investigation, the chemical
-constitution and the taste appear to indicate a great similarity if not
-identity.
-
-
-ON THE ADULTERATION OF SULPHATE OF QUININE, AND THE MEANS OF DETECTION.
-
-Mr. Zimmer, manufacturer of sulphate of quinine in
-Frankfort-on-the-Maine, has published the following circular and paper
-to his correspondents abroad:
-
- _Frankfort-on-the-Maine, Feb._ 6th, 1852.
-
-You are doubtless, aware that various and partly spurious kinds of
-sulphate of quinine have for some time past found their way into
-the market. The substance now frequently {143} mixed with quinine
-is quinidine. But little positive is as yet known of the medicinal
-properties of this alkaloid, and whatever may be the result of future
-experiments, its arbitrary substitution is, under any circumstances,
-unwarrantable, and renders all fair and honest competition almost
-impossible.
-
-The importance of the subject has induced me to address a few words to
-you, that I may submit a simple experiment by means of which the most
-usual adulterations of quinine may readily be detected.
-
- I have the honor to be, with much respect, &c.
- C. ZIMMER.
-
-       *       *       *       *       *
-
-The high price of genuine Bolivian _Cinchona Calisaya_, through the
-monopoly of its export, has given occasion to imports, from other
-districts, of _Cinchonas_, the quality of which widely differs from
-that of the Calisaya, inasmuch as they contain principally quinidine.
-The lower prices of these barks, regardless of their different
-constituents, have brought them quickly into use in many factories of
-quinine, whereby a large quantity of quinine, containing quinidine,
-has got into the market, causing an undue depreciation in the price of
-quinine.
-
-The existence of this third cinchona-alkaloid is now established beyond
-a doubt by ultimate analysis, by the peculiarity of its salts, and by
-important distinctive tests; and there can be no further question, that
-quinidine must, equally with cinchonine, be distinguished from quinine.
-The external characters of sulphate of quinidine differ from those
-of sulphate of quinine; it has a greater specific gravity and less
-flocculent crystallization. In dry warm air it parts with its water
-of crystallization, without deliquescing or losing its crystallized
-aspect; lastly, it is far more soluble than sulphate of quinine in cold
-water and in alcohol.
-
-One of the distinctive properties of the three alkaloids in question,
-_viz._, their behavior with ether—places in our hands a ready means
-of detecting the mixture of cinchonine and {144} quinidine, with
-quinine. Schweitzer (_Lond. Med. Gazette_, vol. xxi., p. 175) has
-already employed ether for the detection of cinchonine with complete
-success, and his process has, with justice, been subsequently quoted
-in most manuals, as it answers its purpose completely; cinchonine is
-known to be entirely insoluble in ether, whatever may be the quantity
-of ether employed. The solubility of quinidine in ether, as compared
-with that of quinine, is but slight; ten grains of pure sulphate of
-quinine dissolve in sixty drops of ether, and twenty drops of spirit of
-ammonia, while only one grain of sulphate of quinidine is soluble in
-the same quantity of the fluid; and in proportion quinine containing
-quinidine will always be less soluble than pure sulphate of quinine.
-
-Guided by this fact I can recommend the following simple and very
-convenient process for the detection of quinidine and quinine:―
-
-Ten grains of the salt to be examined is to put into a strong test
-tube, furnished with a tight-fitting cork, to this are to be added
-ten drops of diluted sulphuric acid, (one acid and five water) with
-fifteen drops of water, and a gentle heat applied to accelerate the
-solution. This having been affected, and the solution entirely cooled,
-sixty drops of officinal sulphuric ether with twenty drops of spirits
-of ammonia, must be added, and the whole well shaken while the top is
-closed by the thumb. The tube is then to be closely stopped and shaken
-gently from time to time, so that the bubbles of air may more readily
-enter the layer of ether.
-
-If the salt examined be free from cinchonine and quinidine, or contain
-the latter in no greater proportion than ten per cent., it will be
-completely dissolved; while on the surface, where contact of the two
-layers of clear fluid takes place, the mechanical impurities only will
-be separated (in which respect the various sorts of commercial quinine
-differ.) After sometime longer the layer of ether becomes hard and
-gelatinous, after which no further observation is possible.
-
-From the above statement respecting the solubility of {145} quinidine
-in ether, it appears that the ten grains of the salt to be examined,
-may contain one grain of quinidine, and still a complete solution with
-ether and ammonia may follow; but in this case the quinidine will
-shortly begin to crystallize in the layer of ether. The last trace of
-quinidine may be yet more definitely detected by employing, instead of
-the ordinary ether, some other, previously saturated with quinidine, by
-which means all of the quinidine contained in the quinine must remain
-undissolved. It is particularly requisite in performing this last
-experiment to observe, after the shaking, whether all has dissolved,
-for owing to the great tendency of quinidine to crystallization, it may
-become again separated in a crystalline form, and be a source of error.
-
-If more than a tenth of quinidine or cinchonine be present, there will
-be found an insoluble precipitate at the limits of the two layers of
-fluids. If this be quinidine, it will be dissolved on the addition of
-proportionately more ether, while cinchonine will be unaffected.
-
-It is expressly to be remarked, that the necessity for testing sulphate
-of quinine, in search of other fraudulent adulterations is not
-superseded by the above described process.
-
-We have particularly to determine upon the absence of inorganic
-substances, which may be effected by subjecting to red heat on a
-platinum dish, or simply by solution in alcohol. Gypsum, chalk,
-magnesia, &c., will be left undissolved. Boracic acid will be dissolved
-by alcohol, but its green flame will indicate its presence in the
-alcoholic solution when ignited.
-
-The absence of organic substances, such as salicine, sugar, stearic
-acid, &c., may be inferred from the formation of a colorless solution
-with pure concentrated cold sulphuric acid; it is as well to leave the
-sulphuric acid to act for some hours.
-
-The presence of sal-ammoniac may be detected by the addition of caustic
-potash to the suspected salt, when, if present, it will be known by
-the diffusion of the ammoniacal odour.—_Pharmaceutical Journal, March,
-1852._
-
-{146}
-
-
-REMARKS ON THE ENVELOPEMENT OF PILLS.
-
-BY DORVAULT.
-
-The envelopement of pills is a minute question, an accessory in this
-form of administering medicines, but as it is a frequent cause of
-trouble to practitioners, and as their successful operation is often
-due to their peculiar mode of exhibition, we shall perhaps be pardoned
-for devoting a short space to the subject.
-
-In order that pills may not adhere to one another, they are rolled
-in an inert powder, such as marsh-mallow, liquorice, and above all,
-lycopodium. Carbonate of magnesia is now particularly used for pills
-of turpentine and copaiba. To disguise the peculiar odour of the pill
-mass, German practitioners use iris powder, or cinnamon.
-
-To render pills more pleasing to the eye, as well as to disguise their
-taste, instead of rolling them in the before named powders, they are
-frequently covered with gold or silver leaf. The mode of doing this is
-too well known to need repetition. We will only remark that those pills
-which contain iodine, bromine, sulphur, iodides, bromides, sulphides,
-salts of mercury, gold, platina, &c., cannot be silvered.
-
-These methods conceal but imperfectly the unpleasant taste and smell of
-certain pillular compounds. M. Garot, to obviate this inconvenience,
-has proposed to cover pills with a layer of gelatine, by means of a
-process which he has made public, and into the details of which we
-think it needless to enter. The gelatinous layer conceals the bad taste
-and smell perfectly, but it is attended with one inconvenience; in time
-it shrinks, cracks, and the pill mass exudes. Besides, much skill is
-required in its manipulation. After gelatinization comes sugaring. This
-is frequently preferable to the former modes, and can be equally well
-applied to pills of a repulsive taste and smell, (copaiba, turpentine,
-musk, assafœtida, &c.,) or to those which are changed by air or light,
-(proto salts of iron,) or deliquescent, (iod-hydrargyrate of iodide
-of potassium,) or caustic, (croton oil.) It can extemporaneously be
-performed in the following manner:—Put the pills into a vase with a
-round bottom, {147} or into a box lined with silver, moisten them with
-a little syrup of sugar, clear mucilage, or white of eggs, agitate
-them so as to moisten them uniformly; add a mixture of equal parts of
-gum, sugar and starch; again rotate them, so as equally to enclose
-all the pills. If a first layer be not sufficient, add a second and
-third in the same manner. Dry them in the air or in a stove. In damp
-weather, these pills should be enclosed in corked bottles. Gelatine
-of carragheen or caseine dried and powdered may be substituted for
-the above powdered mixture. This method is more expeditious than
-gelatinisation, and it has besides the advantage of the material being
-always perfectly soluble. Collodion has been proposed for enveloping
-pills, but seems never to have been used.
-
-The last method we shall call _toluisation_. It appears to possess
-many decided advantages over the others. M. Blancard, its originator,
-employs it particularly for pills of proto iodide of iron. It is to
-induce its more general use that we make these remarks. The following
-is the mode of proceeding, which can be modified to suit the daily
-wants of practice:
-
-Dissolve one part of balsam of tolu, in three parts of ether, (the
-balsam which has been used in the preparation of syrup of tolu will
-answer perfectly;) pour some of this tincture into a capsule containing
-the pills, to favor the evaporation of the ether. When the pills
-begin to stick together, throw them on a mould of tin passed through
-mercury, or simply on a plate, taking care to separate those which
-stick together. Set them in the air to dry. The drying may be completed
-in a stove of moderate heat, especially if several layers have been
-found necessary. This mode of enveloping may take the place, or nearly
-so, of all the others. An important point in it, is, that it resists
-the effects both of damp and dryness on the pill mass. Its balsamic
-odour is generally agreeable; but should it not be so, the tolu might
-be replaced by some inert resin soluble in ether, as mastic tears for
-example. The layer of resinous matter is so thin, that we apprehend no
-obstacle in its influence on the medicine. {148}
-
-We will, however, make one general remark, namely: that as each method
-possesses some peculiar advantages, we thought it right to give them
-all.—_Bulletin Gen. Ther. Med. et Chir. January, 1852._
-
-
-ON THE APPLICATION OF ORGANIC CHEMISTRY TO PERFUMERY.
-
-BY DR. A. W. HOFFMAN.
-
-Professor to the Royal College of Chemistry, London.
-
-Cahours’ excellent researches concerning the essential oil of
-gaultheria procumbens (a North American plant of the natural order
-of the Ericinæ of Jussieu,) which admits of so many applications in
-perfumery, have opened a new field in this branch of industry. The
-introduction of this oil among compound ethers must necessarily direct
-the attention of perfumers towards this important branch of compounds,
-the number of which is daily increasing by the labors of those who
-apply themselves to organic chemistry. The striking similarity of the
-smell of these ethers to that of fruit has not escaped the observation
-of chemists; however, it was reserved to practical men to discover
-by which choice and combinations it might be possible to imitate the
-scent of peculiar fruits to such a nicety, as to make it probable that
-the scent of the fruit is owing to a natural combination identical to
-that produced by art; so much so, as to enable the chemist to produce
-from fruits the said combinations, provided he could have at his
-disposal a sufficient quantity to operate upon. The manufacture of
-artificial aromatic oils for the purpose of perfumery is, of course,
-a recent branch of industry; nevertheless, it has already fallen into
-the hands of several distillers, who produce sufficient quantity to
-supply the trade; a fact, which has not escaped the observation of the
-Jury at the London Exhibition. In visiting the stalls of English and
-French perfumers at the Crystal Palace, we found a great variety of
-these chemical perfumes, {149} the applications of which were at the
-same time practically illustrated by confectionery flavored by them.
-However, as most of the samples of the oils sent to the Exhibition were
-but small, I was prevented, in many cases, from making an accurate
-analysis of them. The largest samples were those of a compound labelled
-“Pear oil,” which, by analysis, I discovered to be an alcoholic
-solution of pure acetate of amyloxide. Not having sufficient quantity
-to purify it for combustion, I dissolved it with potash, by which free
-fusel oil was separated, and determined the acetic acid in the form of
-a silver salt.
-
- 0,3080 gram. of silver salt = 0,1997 gram. of silver.
-
-The per centage of silver in acetate of silver is, according to
-
- Theory.      Experiment.
-  64,68          64,55.
-
-The acetate of amyloxide which, according to the usual way of preparing
-it, represents one part sulphuric acid, one part fusel oil, and two
-parts of acetate of potash, had a striking smell of fruit, but it
-acquired the pleasant flavor of the jargonelle pear only after having
-been diluted with six times its volume of spirits of wine.
-
-Upon further inquiry I learned that considerable quantities of this
-oil are manufactured by some distillers, from fifteen to twenty pounds
-weekly, and sold to confectioners, who employ it chiefly it flavoring
-pear-drops, which are nothing else but barley-sugar, flavored with this
-oil.
-
-I found, besides the pear-oil, also an _apple-oil_, which, according to
-my analysis, is nothing but valerianate of amyloxide. Every one must
-recollect the insupportable smell of rotten apples which fills the
-laboratory whilst making valerianic acid. By operating upon this new
-distillate produced with diluted potash, valerianic acid is removed,
-and an ether remains behind which, diluted in five or six times its
-volume of spirits of wine, is possessed of the most pleasant flavor of
-apples.
-
-The essential oil most abundant in the Exhibition was the pine-apple
-oil, which, as you well know, is nothing else but the butyrate of
-ethyloxide. Even in this combination, as in {150} the former, the
-pleasant flavor or scent is only attained by diluting the ether with
-alcohol. The butyric ether which is employed in Germany to flavor
-bad rum, is employed in England to flavor an acidulated drink called
-pine-apple ale. For this purpose they generally do not employ pure
-butyric acid, but a product obtained by saponification of butter, and
-subsequent distillation of the soap with concentrated sulphuric acid
-and alcohol; which product contains, besides the butyric ether, other
-ethers, but nevertheless can be used for flavoring spirits. The sample
-I analyzed was purer, and appeared to have been made with pure butyric
-ether.
-
-Decomposed with potash and changed into silver salt, it gave
-
- 0,4404 gram. of silver salt = 0,2437 gram. of silver.
-
-The per centage of silver in the butyrate of silver is according to
-
- Theory.      Experiment.
-  55,38         55,33.
-
-Both English and French exhibitors have also sent samples of cognac-oil
-and grape-oil, which are employed to flavor the common sorts of
-brandy. As these samples were very small, I was prevented from making
-an accurate analysis. However, I am certain that the grape-oil is a
-combination of amyl, diluted with much alcohol; since, when acted upon
-with concentrated sulphuric acid, and the oil freed from alcohol by
-washing it with water, it gave amylsulphuric acid, which was identified
-by the analysis of the salt of barytes.
-
-1,2690 gram. of amylsulphate of barytes gave 0,5825 gram. of sulphate
-of barytes. This corresponds to 45,82 per cent. of sulphate of barytes.
-
-Amylsulphate of barytes, crystallized with two equivalents of water,
-contains, according to the analysis of Cahours and Kekule, 45,95 per
-cent. of sulphate of barytes. It is curious to find here a body,
-which, on account of its noxious smell, is removed with great care
-from spirituous liquors, to be applied under a different form for the
-purpose of imparting to them a pleasant flavor. {151}
-
-I must needs here also mention the artificial oil of bitter almonds.
-When Mitscherlich, in the year 1834, discovered the nitrobenzol, he
-would not have dreamed that this product would be manufactured for the
-purpose of perfumery, and, after twenty years, appear in fine labelled
-samples at the London Exhibition. It is true that, even at the time of
-the discovery of nitrobenzol, he pointed out the striking similarity of
-its smell to that of the oil of bitter almonds. However, at that time,
-the only known sources for obtaining this body were the compressed
-gases and the distillation of benzoic acid, consequently the enormity
-of its price banished any idea of employing benzol as a substitute
-for oil of bitter almonds. However, in the year 1845, I succeeded by
-means of the anilin-reaction in ascertaining the existence of benzol
-in common coal-tar-oil. In his essay, which contains many interesting
-details about the practical use of benzol, he speaks likewise of the
-possibility of soon obtaining sweet scented nitrobenzol in great
-quantity. The Exhibition has proved that this observation has not been
-left unnoticed by the perfumers. Among French perfumeries we have
-found, under the name of artificial oil of bitter almonds, and under
-the still more poetical name of “essence de mirbane,” several samples
-of essential oils, which are no more nor less than nitrobenzol. I was
-not able to obtain accurate details about the extent of this branch
-of manufacture, which seems to be of some importance. In London, this
-article is manufactured with success. The apparatus employed is that
-of Mansfield, which is very simple; it consists of a large glass worm,
-the upper extremity of which divides in two branches or tubes, which
-are provided with funnels. Through one of these funnels passes a stream
-of concentrated nitric acid; the other is destined as a receiver of
-benzol, which, for this purpose, requires not to be quite pure; at
-the angle from where the two tubes branch out, the two bodies meet
-together, and instantly the chemical combination takes place, which
-cools sufficiently by passing through the glass worm. The product is
-afterwards washed with water, and some diluted solution of carbonate
-of {152} soda; it is then ready for use. Notwithstanding the great
-physical similarity between nitrobenzol and oil of bitter almonds,
-there is yet a slight difference in smell which can be detected by an
-experienced nose. However, nitrobenzol is very useful in scenting soap,
-and might be employed with great advantage by confectioners and cooks,
-particularly on account of its safety, being entirely free from prussic
-acid.
-
-There were, besides the above, several other artificial oils; they all,
-however, were more or less complicated, and in such small quantities,
-that it was impossible to ascertain their exact nature, and it was
-doubtful whether they had the same origin as the former.
-
-The application of organic chemistry to perfumery is quite new; it is
-probable that the study of all the ethers or ethereal combinations
-already known, and of those which the ingenuity of the chemist is daily
-discovering, will enlarge the sphere of their practical applications.
-The caprylethers lately discovered by Bouris are remarkable for their
-aromatic smells (the acetate of capryloxide is possessed of the most
-intense and pleasant smell,) and they promise a large harvest to the
-manufacturers of perfumes.—_Annalen der Chemie.—In An. of Pharmacy._
-
-
-ON TESTS FOR THE IMPURITIES OF ACETIC ACID.
-
-Pure acetic acid is colorless, possesses strong acid properties and
-taste, and no empyreumatic flavor. It should have, according to the
-new London Pharmacopœia, a specific gravity of 1.048, and one hundred
-grains should saturate eighty-seven grains of crystallized carbonate
-of soda; consequently the pharmacopœial acid consists of thirty-one
-per cent. of the anhydrous acid, and sixty-nine per cent. of water.
-It should leave no residuum by evaporation. Sulphuretted hydrogen,
-nitrate of barytes, ferrocyanuret of potash, and nitrate of silver,
-should produce no precipitate in it. When it contains empyreumatic
-{153} matter, which besides being evident to the smell, concentrated
-sulphuric acid causes its color to darken. Sugar, in a more or less
-changed condition, is frequently one of the impurities of the German
-diluted commercial acid, and may be recognized by the taste of the
-residuum left upon its evaporation.
-
-When sulphuretted hydrogen produces in acetic acid a milky turbidity,
-it shows that sulphurous acid is present, the presence of which is due
-to the decomposition of coloring and other organic matters, contained
-as impurities in the acetates, from which the acetic was prepared, when
-treated with sulphuric acid. The turbidity is caused by the separation
-of sulphur from the sulphuretted hydrogen, and from the sulphurous acid
-by reason of the hydrogen of the former combining with the oxygen of
-the latter, and forming water (Wittstein.) If the sulphuretted hydrogen
-produces a black precipitate, either lead or copper may be present.
-The lead may be recognized by sulphuric acid giving a precipitate of
-sulphate of lead; and the copper, by the blue reaction which ensues,
-with an excess of ammonia. Sulphuric acid can be readily known when
-present by nitrate of barytes producing a white precipitate, insoluble
-in mineral acids. Nitrate of silver detects muriatic acid by throwing
-down a white precipitate, which changes, under the influence of light,
-to a violet color, and is insoluble in nitric acid, but soluble in
-ammonia. Ferrocyanuret of potassium will indicate the presence of salt
-of iron when by its addition, a blue precipitate results.
-
-The above tests are not applicable to the same extent to detect the
-impurities of the brown vinegar of commerce, because manufacturers are
-allowed by law to add to it a small per centage of sulphuric acid, and
-there are always sulphates and chlorides and other salts present in it,
-derived from the water used in its manufacture; therefore, in testing
-for its impurities, an allowance must be made for those which arise
-from the necessary process of the manufacture, and those considered
-only as adulterations which are over and above such fair allowance.
-To detect such impurities as cayenne pepper, {154} &c., it is merely
-necessary to neutralize the vinegar with carbonate of soda, when their
-presence will be palpably evident to the taste.
-
-Acetic acid may be purified by distillation from those substances
-which are not volatile. By adding acetate of lead previously to its
-distillation, sulphuric and muriatic acids can be separated from it;
-and sulphurous acid can be removed by peroxide of manganese, which
-converts it into sulphuric acid. It can be freed from empyreumatic
-impurities by agitation with charcoal, subsequent filtration and
-distillation.
-
-The strength of acetic acid and vinegar cannot be determined by the
-specific gravity. The power of saturating an alkaline carbonate is the
-best criterion of the quantity of anhydrous acid present in any given
-sample. This method will only give correct results when the acid is
-pure, or when the quantities of free mineral acids have been estimated
-previously by precipitation, so as to make the necessary deductions for
-their saturating power when the acid is neutralized with an alkaline
-carbonate. It would be well if pharmaceutists were more frequently
-to try the strength of their acetic acid, which is constantly sold
-with very plausible labels, about one part of the acid to seven parts
-of water, making the distilled vinegar of the Pharmacopœia, which
-statement we have oftentimes proved to be a very pretty fiction.—_An.
-of Pharmacy, March, 1852._
-
-
-A TEST FOR ALCOHOL IN ESSENTIAL OILS.
-
-J. J. Bernoulli recommends for this purpose acetate of potash. When to
-an etherial oil, contaminated with alcohol, dry acetate of potash is
-added, this salt dissolves in the alcohol, and forms a solution from
-which the volatile oil separates. If the oil be free from alcohol, this
-salt remains dry therein.
-
-Wittstein, who speaks highly of this test, has suggested the following
-method of applying it as the best:—In a dry test {155} tube, about
-half an inch in diameter, and five or six inches long, put not more
-than eight grains of powdered dry acetate of potash; then fill the tube
-two-thirds full with the essential oil to be examined. The contents
-of the tube must be well stirred with a glass rod, taking care not to
-allow the salt to rise above the oil; afterwards set aside for a short
-time. If the salt be found at the bottom of the tube dry, it is evident
-that the oil contains no spirit. Oftentimes, instead of the dry salt,
-beneath the oil is found a clear syrupy fluid, which is a solution of
-the salt in the spirit, with which the oil was mixed. When the oil
-contains only a little spirit, a small portion of the solid salt will
-be found under the syrupy solution. Many essential oils frequently
-contain a trace of water, which does not materially interfere with this
-test, because, although the acetate of potash becomes moist thereby, it
-still retains its pulverent form.
-
-A still more certain result may be obtained by distillation in a
-water bath. All the essential oils which have a higher boiling point
-than spirit, remain in the retort, whilst the spirit passes into
-the receiver with only a trace of the oil, where the alcohol may be
-recognized by the smell and taste. Should, however, a doubt exist, add
-to the distillate a little acetate of potash and strong sulphuric acid,
-and heat the mixture in a test tube to the boiling point, when the
-characteristic odor of acetic ether will be manifest, if any alcohol be
-present.
-
-
-CHEMICAL EXAMINATION OF RESIN OF JALAP.
-
-BY B. SANDROCK.
-
-It is a well known fact that when resin of jalap is treated with ether,
-we obtain two kinds of resin, one soluble, and the other insoluble
-in ether. Dr. Kayser chose first for his analysis that part of the
-resin which is insoluble in ether. This resin, purified by means of
-charcoal, was friable, almost colorless, without smell or taste,
-insoluble in ether and water, but easily {156} dissolved by spirit of
-wine; the alcoholic solution reddens litmus slightly. The resin, again
-precipitated by water, was perfectly soluble in solution of caustic
-ammonia and acetic acid. This resin was dissolved with difficultly in
-cold solutions of caustic potash and soda, but was perfectly soluble
-when hot, and could again be readily precipitated from the alkaline
-solutions by acids. The solution of this resin, in ammonia was of a
-bright brown color, and became neutral by volatizing the superfluous
-ammonia. It is consequently a resinous acid, which is distinguished
-from other resinous acids, by the facts that it does not precipitate
-the bases from metalic salts, such as nitrate of silver, sulphate of
-copper; it afforded only a precipitate when acted upon by basic-acetate
-of lead. A question arose, whether the resin of jalap, dissolved in
-alkaline fluids, undergoes any changes in its constitution. To answer
-this question, Kayser undertook several analyses, the results of which
-were as follows: The uncombined resin of jalap gave C 42, H 35, O
-20.—The resin, precipitated by oxide of lead, gave C 42, H 36, O 21.
-It is evident that resin of jalap, combined with the bases of salts,
-acquires the elements of one equivalent of water. Dr. Kayser, has named
-the unchanged resin of jalap, rhodeoretin, and that modified by bases
-of salts, hydro-rhodeoretin.
-
-By dissolving rhodeoretin in absolute alcohol and submitting the
-solution to the action of chlorine, and subsequently adding water to
-it, Kayser obtained an oily fluid, dark yellow, possessing a pleasant
-smell, easy to be volatilized by heat, soluble in water, which he
-called rhodeoretin oil.
-
-The part of the resin soluble in ether, possesses eminently the
-disagreeable smell of jalap, a prickly taste; its solution reddens
-litmus, and in drying leaves a greasy spot on paper; it is soluble in
-alkaline fluids. If the alcoholic solution is allowed to stand, mixed
-with water, for a lengthened period, prismatic crystalline needles
-are precipitated. According to these properties, Kayser includes the
-soluble jalap resin among the fatty acids. Sandrock in general agrees
-with Kayser; but, according to his analysis, the jalap can be resolved
-in three {157} different resins, one soluble in ether, the second
-obtained by precipitating the alcoholic solution by oxides of lead; the
-third remains unprecipitated in this solution.
-
-That part of the resin which is insoluble in ether, but is precipitated
-from the alcoholic solution by oxide of lead, Sandrock calls alpha
-resin; that which is not precipitated, beta resin; that part which is
-soluble in ether he calls gamma resin.
-
-The alpha resin agrees in its properties with Buchner’s and Herberger’s
-jalapine. Sandrock calls ipomic acid, the produce of this resin when
-treated by boiling carbonated alkaline solution; and the one obtained
-in the same way from beta resin, jalapic acid. The gamma resin forms
-in ether a yellow solution, and a purple one in concentrated sulphuric
-acid.—_Archiven der Pharmacie._
-
-
-ON THE PREPARATION OF CHLOROFORM FROM THE ESSENCES OF LEMON, COPAIBA,
-PEPPERMINT AND BERGAMOTTE.
-
-BY M. CHAUTARD,
-
-Professor of Chemistry at the Lyceum of Vendome.
-
-M. Chautard, after having completed his experiments for the production
-of chloroform by means of oil of turpentine instead of alcohol, led
-by analogy, proceeded to try by a similar method to prepare it by
-means of the essences of lemon, bergamotte, copaiba and peppermint,
-and succeeded. However, the quantity of essences upon which he acted
-was too small to carry on a minute analysis. In the meanwhile, his
-researches led him to discover formic acid in the calcareous residuum
-of the operation. It was already known, M. Chautard observes, that oil
-of turpentine, when old and exposed a long time to the action of the
-air, was transformed into formic acid, which observations is due to M.
-Wappen. On the other hand, M. Schneider, by collecting the volatile
-products of the oxidation {158} of turpentine, by means of nitric
-acid, detected therein the presence of acetic, metacetic, and butyric
-acids. Finally, a few years ago, Mr. William Bastick[11] showed that
-hypo-chlorite of lime, by reacting upon neutral unazotised bodies,
-such as sugar, starch, &c., gave rise to the formation of a certain
-quantity of formate of lime; hence, turning to advantage the details
-given by this chemist, M. Chautard continues—I thus have carried on my
-operation:―
-
-[11] “Journal de Pharmacie,” 3^e serie, 1. 14.
-
-After having ascertained, by means of the solution of indigo, that the
-residuum contained in the alembic did not contain any hypochlorite of
-lime, the presence of which would have prevented the extraction of
-formic acid, I threw the whole upon a cloth, and added sulphuric acid
-to the filtered liquor to precipitate the lime retained in a state of
-chloride or formate.—This liquor, after having been filtered anew, was
-distilled, and the product was a mixture of formic and hydrochloric
-acids, which I saturated by means of carbonate of soda. By subsequent
-evaporation to dryness, I succeeded, by adding afterwards a little
-water, in separating the formate of soda from the chloride. By means
-of the formate of soda, I proved the principal properties of formic
-acid, and besides, produced from it the formate of silver, which is
-decomposed by a boiling heat, leaving a precipitate of metalic silver.
-
-In finishing this communication, I must observe that fixed oils,
-treated in the same way by hypochlorite of lime, do not produce
-chloroform; however, the reaction which occurs is so strong, and
-indicative of interesting results, that it induces me to continue my
-experiments.—_Journal de Pharmacie._
-
-
-ON DRY EXTRACTS.
-
-BY DR. MOHR.
-
-Every one is aware of the utility of possessing dry extracts,
-particularly of narcotic plants, so as to be able to administer them
-as powders. This able pharmaceutist gives the following {159} formula
-for their preparation; and as it seems to answer all purposes, and is
-adopted in Berlin, and other continental towns, it deserves to be made
-public.
-
-Take of any extract, and of powder of licorice equal parts, mix them
-well in a mortar; when well mixed, put the paste in an earthenware
-evaporating dish, and then put this vessel over an iron pan, which has
-been filled with chloride of calcium, previously dried in the vessel
-by a strong fire without melting; the iron vessel must have a cover
-to enclose both vessels, so that the chloride of calcium can absorb
-the vapor from the extract without communication with the air, and
-must be put on as soon as the extract has been placed on the chloride
-of calcium. Let it stand for some days. Remove the extract, and add
-an equal weight of licorice powder to it in a mortar, mix well, and
-preserve it in bottles.
-
-
-EDITORIAL.
-
-
-PHARMACEUTICAL CONVENTION. The apothecaries of the United States are
-in an anomalous and exceptional position. Exercising functions which
-concern the life and health of those who require their services, the
-public expects them to possess the experience, the varied requirement,
-the high moral qualities which the proper exercise of their profession
-demands; yet this same public, itself incapable of discriminating
-between knowledge and ignorance, furnishes them no aid in the pursuits
-of their studies, and yields them no protection against quackery and
-imposture. Everything is left to the spirit of trade, and to the laws
-of supply and demand. The advances that have been made in pharmacy
-have come from within itself, unaided by any assistance from the state
-governments, and looked upon often with coldness or distrust by the
-public. In this way, in some of the large cities, with the influence of
-the sister profession of medicine, something has been done; but, even
-there, how much remains to be accomplished before pharmacy can assume
-the rank it holds in France and Germany!
-
-As heretofore, so now, the best and the only prospect of progress
-in the profession lies in itself. It best knows its necessities and
-requirments, and it can best devise the remedies that will meet
-them. It is in the union of its members, in mutual association and
-intercourse, in the formation of a public opinion of its own, which,
-{160} operating first upon the members of the profession, will
-necessarily have its weight upon the public opinion of the community,
-that lie our best hopes. Pharmacy is at once a liberal art, and a
-trade. In individuals, particularly in a community like ours, the
-spirit of trade is apt to be in the ascendant. Science is estimated at
-its money value, for what it brings in, rather than for what it is.
-But when the best men of a profession meet together, science resumes
-its proper position; they are encouraged in their noblest aims, and
-that encouragement is spread widely among their fellows. Individuals
-struggling, isolated throughout the country, feel that there is a
-tribunal to which they can appeal, and by which they will be judged,
-and its influence will be felt too by another class, as a restraint,
-if not an encouragement. Success, obtained by worthy means, loses much
-of its value, when it costs the esteem of those with whom we are most
-intimately connected.
-
-It is from such considerations that we look upon the approaching
-convention at Philadelphia, as a step in a very important movement. A
-great deal depends upon its success, and every one who has the interest
-of pharmaceutical science at heart, should do all he can to promote it.
-
-To prove all that is hoped for by its friends, the convention should
-be a national one, not only in name, but in reality. Every institution
-and society entitled under the requisitions of the call, should appoint
-delegates, and above all, they should appoint delegates who will
-attend. But there are many apothecaries scattered through the country,
-in places not entitled to appoint delegates, who may be enabled to be
-present at the meeting of the convention, and we are glad to see that
-our Philadelphia brethren are prepared to welcome them in a liberal
-and cordial spirit. They will both receive and communicate benefit.
-Their presence will add weight and authority to the convention; while,
-independent of its official proceedings, they cannot but derive
-advantages from acquaintance and intercourse with the numerous able
-members of the profession who will, as delegates, attend the meeting.
-
-Great care should be exercised in the selection of delegates; they
-should not only, above all, be men who will attend, but men who have at
-heart the position and advancement of pharmaceutists.
-
-We hope that their election will take place as early as possible, that
-they may have time fully to consider the objects of the convention,
-and the wants and wishes of the institutions they represent. It would
-be well, too, if early notice of their election should be communicated
-to Mr. Proctor, or some other of the members residing at Philadelphia,
-and their names should be published. The convention will have much to
-discuss and determine upon, while its duration will necessarily be
-limited. Were the names of its members early announced, an interchange
-of opinion might take place between, not to forstall the active of the
-convention, but to promote and expedite it. For this purpose, if deemed
-desirable our own columns are freely tendered.
-
-{161}
-
-
-
-
-NEW YORK
-
-JOURNAL OF PHARMACY.
-
-JUNE, 1852.
-
-
-ON THE PREPARATION OF PURE BARIUM COMPOUNDS.
-
-BY HENRY WURTZ.
-
-The preparation of the compounds of barium in a state of absolute
-purity is a subject which has not generally received much attention
-from Pharmaceutical chemists, in consequence of the hitherto limited
-application of these compounds, except in chemical analysis. The time,
-however, is undoubtedly close at hand, when new developments in the
-arts, will create a demand for pure barium compounds, as well as for
-very many other products now considered as pertaining exclusively to
-the laboratory. Indeed, efforts have already been made to introduce
-the _chlorate of barytes_ to the notice of pyrotechnists as a means of
-producing a green fire unequalled in beauty, and the pure carbonate has
-been for some time in use in England, in the manufacture of superior
-varieties of plate and flint glass. The precipitated or purified native
-sulphate is also preferred as a water color pigment to white lead,
-being far more durable than the latter. I may here be permitted to
-mention a practical application of the carbonate which has occurred
-to myself. I have found that sulphate of lime is totally precipitated
-from its solution by mixing therewith an equivalent quantity of the
-precipitated or finely pulverized natural carbonate of barytes, {162}
-of course with the formation of sulphate of barytes and carbonate
-of lime. It is by no means improbable that this property may be made
-available in removing sulphate of lime from spring or sea water which
-is to be used in steam boilers, thus preventing the formation of the
-troublesome incrustation which so often occurs, especially when it is
-considered that the sulphate of barytes which would be formed, might
-easily be reconverted into carbonate and used over again. Again,
-sulphate of lime might be removed in the same way from the brine in
-salt works, thus contributing to the purity of the salt produced.
-
-Recent improvements in chemical analysis have greatly increased the
-usefulness of barium compounds in the laboratory, especially of the
-carbonate, to which the late investigations of Professor H. Rose, and
-of Ebelmen have given a place in the very first rank among the reagents
-valuable to the chemist. Any suggestion, therefore, concerning the
-preparation of barium compounds in a pure state, cannot be considered
-as useless.
-
-The sulphate of baryta is the only compound which occurs in sufficient
-abundance to be an economical source of the other barium compounds,
-and the enormous though illegitimate use of this substance in the
-adulteration of white lead, is so far fortunate as to render it an easy
-matter to obtain it in any required quantity, already in a state of
-fine powder which is so desirable in chemical operations.
-
-The sulphate of baryta is always reduced to the state of sulphide of
-barium, by exposing it to a red heat in intimate admixture with some
-carbonaceous substance, such as powdered charcoal, rosin, oil or flour.
-It is exceedingly difficult, however, if not impossible, to effect
-in this manner a complete decomposition of the sulphate. Indeed, it
-is probable that in most cases the quantity of sulphide obtained, is
-not more than half that which is equivalent to the sulphate employed.
-A modification which promises to be far more economical was proposed
-by Dr. Wolcott Gibbs. His proposal was to submit the sulphate to the
-action of a current of common coal gas at a red heat. It is evident
-that in this way a perfect decomposition {163} may readily be
-accomplished, especially if the powdered sulphate is stirred during the
-operation, so as to expose fresh surfaces to the action of the gas.
-
-The mass obtained after the reduction of the sulphate is submitted
-to the action of boiling water, and a solution obtained, which,
-according to Professor H. Rose,[12] contains principally hydrate of
-baryta and sulphohydrate of sulphide of barium BaS. HS. formed by the
-reaction of equal equivalents of water and proto-sulphide of barium.
-It almost invariably contains also a quantity of lime, probably in
-the form of sulpho-hydrate of sulphide of calcium, or of hydrate of
-lime, proceeding from the almost constant concurrence of sulphate of
-lime with native sulphate of baryta. From the presence of this lime
-originates the principal difficulty in preparing pure barium compounds
-from this substance. Thus when the carbonate is prepared from the
-solution by precipitation, with carbonate of soda, or a current of
-carbonic acid gas, it is found contaminated with carbonate of lime,
-which is fatal to its use as a reagent in analysis. Also in examining
-many specimens of commercial _chloride of barium_, which is prepared
-from this solution by the addition of chloro-hydric acid, boiling
-to separate sulpho-hydric acid gas which is evolved, filtration to
-separate the sulphur which is precipitated and crystallization, I have
-always found it to contain a small quantity of chloride of calcium,
-which I have found it impossible to separate entirely by repeated
-recrystallizations. It has been proposed[13] to separate the chloride
-of calcium from chloride of barium by the use of very strong alcohol,
-in which the latter when anhydrous, is insoluble. This method is
-rather expensive and troublesome as it involves the evaporation to
-dryness of the chloride of barium solution, the reduction of the
-previously ignited residue to a very fine powder and digestion in
-strong alcohol. Attempts were made after some previous experimentation,
-in which it was found that an {164} aqueous solution of _oxalate of
-baryta_ precipitated chloride of calcium, but not chloride of barium,
-to separate the lime from a chloride of barium solution by addition
-of oxalate of baryta, or simply of a little oxalic acid, but it was
-soon found that oxalate of lime was somewhat soluble in a solution
-of chloride of barium, so that a solution of oxalate of baryta, gave
-no precipitate in a mixture of solutions of chloride of barium and
-chloride of calcium. It was found also that the precipitate formed
-by a little oxalic acid in a lime solution, could be re-dissolved
-by addition of chloride of barium. It may also be mentioned, though
-irrelevant to the subject, that it was found that oxalate of lime
-was soluble in solutions of chloride of calcium, of ammonia, and of
-chloro-hydrate of ammonia.
-
-[12] Poggendorff’s Annalen, 55,416.
-
-[13] Gmelin’s Handbuch, 2,158.
-
-The well known property of carbonate of baryta which the recent
-investigations of Professor H. Rose have rendered so important in
-the analysis of phosphates, of completely precipitating lime from
-its solution by a sufficiently long contact therewith, furnishes us,
-however, with a perfectly easy and cheap method of purifying the
-chloride of barium solution. In fact a solution of chloride of barium
-to which chloride of calcium has been added, having been treated with
-a little carbonate of baryta, and allowed to stand in contact with it
-for two days, with occasional agitation, was found on filtration to be
-free from lime. The only objection to this method, is the considerable
-length of time required; but I must here describe an elegant
-modification which was communicated to me by Dr. Wolcott Gibbs, and
-tested by him in his laboratory; that is to add first to the solution
-of chloride of barium containing lime, a little solution of hydrate of
-baryta and then to pass through it a current of carbonic acid gas. The
-precipitate immediately formed contains of course all the lime.
-
-The only impurity which is prevalent in commercial chloride of barium
-besides lime, is strangely enough, a trace of _lead_ which is almost
-always present and sometimes in such quantity that the solution is
-immediately blackened by sulphuric {165} acid.[14] This is, however,
-very easily removed, either before or after the separation of the lime
-by the process of Dr. Gibbs, by passing a little sulpho-hydric acid gas
-into the solution, gently heating for a short time and filtering.
-
-Commercial chloride of barium thus purified is probably the most
-convenient source of the other compounds of barium when required pure.
-Thus pure carbonate of baryta may be prepared from it by precipitation
-with carbonate of ammonia, or with carbonate of soda, which is free
-from silica, sulphuric acid and phosphoric acid.[15]
-
-[14] It may be that leaden pans are used for the evaporation or
-crystallization of the commercial chloride of barium, which would
-sufficiently account for the presence of lead in the product.
-
-[15] New York Journal of Pharmacy, 136.
-
-
-RESULTS OF THE EXAMINATION OF SEVERAL PARCELS OF ALEPPO SCAMMONY.
-
-BY B. W. BULL.
-
-Since the publication of an article upon Virgin Scammony in a previous
-number of this Journal, I have had an opportunity of examining four
-different varieties of scammony received from Constantinople, under
-the names, Aleppo Scammony, first; Aleppo Scammony, second; Tschangari
-Scammony and Skilip Scammony.
-
-No. 1. _Aleppo Scammony, first_. This occurs in large amorphous pieces
-weighing one or more pounds; is not covered with any calcareous powder.
-The fractured surface presents a dark greenish resinous appearance.
-The specific gravity will be found below. The caseous odor is not so
-decided in this {166} specimen as in some of the other varieties,
-confirming, as will be seen from its composition, as adduced farther
-on, the remark made in the article above alluded to, in regard to
-the insecurity of relying upon the odor as a means of judging of the
-quality of scammony.
-
-No. 2. _Aleppo Scammony, second._ Of this a sample of about one pound
-was received. This is in amorphous pieces; it differs from the previous
-specimen in its fracture which is non-resinous and horny, it is of a
-much lighter color, and has a grayish tinge. The scammony odor is more
-decided. This variety receives the prefix _Aleppo_ improperly, as it
-does not come from that locality, and is said to be made by pressing
-the root, though the quantity of insoluble organic matter which it
-contains, seems to indicate some other impurity, intentionally added.
-
-No. 3. _Tschangari Scammony_, derives its name from the place of
-production. It appears to be a variety not found in market here.
-It resembles in fracture the last mentioned, and is like that, in
-amorphous pieces. Its odor is more decided than that of any of the
-others.
-
-No. 4. _Skilip Scammony._ This specimen appears to have undergone some
-deterioration, and evinces a disposition to mould. Some of the pieces
-are marked exteriorly, as if placed in a bag when soft, and dried in
-this way. It is destitute of the caseous odor, and has a mouldy smell.
-Fracture, non-resinous, and grayish, like the last mentioned varieties.
-
-These three latter varieties are always to be obtained in
-Constantinople, we are informed, while the first quality Aleppo, is
-only produced in small quantity, and is soon out of market.
-
-The difference in composition of the different varieties will be found
-annexed, the numbers referring to those given above. All of them
-indicate the presence of starch by the test with iodine. {167}
-
-                         No. 1.     No. 2.     No. 3.     No. 4.
- Specific gravity,        1.150      1.325      1.339      1.311
-                           ────       ────       ────       ────
- Resinous matter, water,
-   and loss.           Per cent.  per cent.  per cent.  per cent.
-                         86.88      55.42      64.10      34.00
-
- Vegetable substance,
-   insoluble in ether,    8.10      38.00      23.17      59.43
- Inorganic matter,        5.02       6.58      12.73       6.57
-                          ────       ────       ────       ────
-                       100.000    100.000    100.000    100.000
-        New York, May, 1852.
-
-
-WHAT IS MONESIA?
-
-BY E. DUPUY, PHARMACEUTIST, NEW YORK CITY.
-
-Dorvault in the _Officine_ gives it “as the product of a foreign
-bark never found in commerce, but described by Mr. Bernard Derosne,
-(who, according to the same authority is the only possessor of it,)
-as being found in voluminous thick pieces, filled with extractive.
-The color is dark brown, excepting the epidermis which is grayish. It
-contains tannin and a red coloring matter, analoguous to cinchonic
-red, also an acrid one and salts.” Virey attributed it to a _Chrysophi
-lum._; Martens says it is the _Mohica_ of the Brazilians; according
-to Mr. Constant Berrier, it bears in that country sundry other names:
-_furanhem_, _guaranhem_, _buranché_, etc. Duchesne in his _Répertoire
-des Plantes utiles et Vénéncuses du Globe_, and Descourtils in his
-_Flore médicale des Antilles_ mentions the _Cainito Chrysophillum_ the
-bark of which is tonic, astringent and febrifuge. In {168} examining
-some extract of Monesia I was struck with the striking resemblance
-in its properties with the extract of logwood, (_Hematoxylon
-Campechianum_) both possessing the same astringent sweetish taste,
-precipitating salts of iron, etc. Descourtils, who practiced medicine
-for a long time in the West India islands, says “it is recommendable
-in dysentery and diarrhea after the inflammatory period.” and to
-that effect prescribes the decoction of one ounce of the wood or a
-drachm of the extract added to an infusion of orange tree leaves, or
-Cascarilla bark, per diem. Besides, Dr. Wood in the U. S. Dispensatory,
-mentions its frequent use in some parts of the United States, “in that
-relaxed condition of the bowels, which is apt to succeed to cholera
-infantum,” and also in the same complaints as mentioned by Descourtils.
-Though both the decoction of the wood and the solution of the extract
-are officinal in our national Pharmacopeia, so far as my means of
-observation go, they are seldom, if ever, prescribed in New York, and
-yet I have repeatedly prepared solutions of the Monesia, prescribed by
-our city practitioners. The extract of log-wood being so similar in its
-medicinal action, I am strongly inclined to think that it is the same
-substance, though perhaps obtained from other sources; and as the price
-of it is so much higher than that of the other, it would be desirable
-to obtain the results of comparative experiments made to test their
-relative value, and whether the extract of _Hematoxylon Campechianum_
-should not be prescribed as answering for all therapeutical purposes,
-the mysterious Monesia of Derosne?
-
-{169}
-
-
-THE PHARMACOLOGY OF MATICO: WITH FORMULA FOR ITS PREPARATION.
-
-BY DORVAULT.
-
-As matico is daily attracting more and more the attention of
-practitioners, its pharmacology demands consideration. It is well
-known that this new Peruvian plant has been lauded as an efficacious
-remedy in leucorrhea and gonorrhea, as a vulnerary, and above all as an
-excellent hemostatic, both external and internal.
-
-We shall, in the present paper, content ourselves with making known
-the principal pharmaceutical forms which this substance is capable of
-assuming, reserving all other considerations for a later period. A long
-and careful experience will be needed to establish the relative value
-of each of the subjoined forms.
-
-
-POWDER OF MATICO.
-
-Matico can be easily reduced to an impalpable powder. This powder is of
-a yellowish green, and its odor, when fresh is more fragrant than that
-of the plant itself. To preserve it well, it should be kept in well
-stopped bottles.
-
-Matico powder can be advantageously used externally in sprinkling
-over bleeding parts, in plugging the nasal fossœ and in epithems for
-contusions. Internally it may be used moistened with a little sweetened
-water under the form of electuary or in pills.
-
-
-INFUSION OF MATICO.
-
- Bruised matico,    10 to 20 grammes.
- Boiling water,        1,000 grammes.
-
-Let it infuse until cold and strain it. This infusion is amber-colored,
-and possesses the aromatic odor of the plant. It is not unpleasant to
-take, but may be rendered more agreeable by the addition of sugar, or
-an appropriate syrup.
-
-For external use, lotions, embrocations, lavements and injections, 30,
-40 or even 50 grammes of matico may be used to the {170} same quantity
-of water, and it may be submitted to a slight decoction. If, in this
-mode of operation, it parts with some volatile oil, it gains a small
-portion of resin.
-
-
-DISTILLED WATER, OR HYDROLATE OF MATICO.
-
- Bruised matico,     100 parts.
- Water,            1,000 parts.
-
-Draw off by distillation, 500 parts of hydrolate.
-
-The product is colorless throughout the distillation, except the first
-few drops, which are milky.
-
-Hydrolate of matico has an odor of turpentine stronger than the plant
-itself. It is covered with globules, or a light layer of a volatile
-oil, almost colorless, and of the consistence of castor oil.
-
-If the volatile oil be, as authors have advanced, one of the active
-principles of matico, then the hydrolate must be to a certain extent
-efficacious. The hemostatic waters of Binelli, Broechieri, Tisseraud,
-&c., over their property to the volatile oil of turpentine.
-
-The hydrolate may be employed both externally and internally.
-
-
-EXTRACT OF MATICO.
-
-The one which appears to us the preferable is the hydro-alcoholic.
-Introduce some rather coarse matico powder into the apparatus for
-lixiviation, pour on it the alcohol at 56° so as to imbibe all the
-powder, leave it 24 hours, open the lower cock, pour the same alcohol
-over the same matico, until the latter is exhausted, and then evaporate
-the liquid in the vapour bath, till it is brought to the consistence of
-an extract. The product is black, with a marked odor of matico, and a
-bitter taste. It is only partially soluble, either in alcohol or water.
-
-The extract of matico may be used internally in the form of pills,
-lozenges, syrup and electuary, and externally, dissolved or softened in
-the form of plasters, embrocations, plugs, lavements and injections.
-
-Matico furnishes about 1/4 of its weight of the hydro-alcoholic
-extract.
-
-{171}
-
-
-SYRUP OF MATICO.
-
- Bruised matico,       100 parts.
- Water,              1,000 parts.
-
-Distil till you obtain 100 parts. Draw off the residue from the
-retort, press the matico, add to the product 700 parts of sugar; mix
-it so as to have by the addition of the hydrolate a syrup of ordinary
-consistence; filter it by Demarest’s method.
-
-Thus prepared, matico syrup is brownish, limpid and of an aromatic
-taste, which is not disagreeable; it contains all the principles,
-active, volatile or fixed, of the substance.
-
-It may be administered pure, or diluted with water. It is one of the
-easiest and most efficacious modes of administering matico in cases of
-internal hemorrhage or of flour albus.
-
-It represents 1-10 of its weight of matico. The spoonful being 30
-grammes, would represent 2 grammes; the tea-spoonful being 5 grammes,
-would represent 1/2 gramme.
-
-
-MATICO PILLS.
-
- Powdered matico,          20 grammes.
- Powdered marsh mallow      2 grammes.
- Syrup of gum,              Q. S.
-
-Make secundum artem 100 pills rolled in lycopodium. They are of a
-dark green. The weight of each pill from 40 to 50 centigrammes, each
-containing 20 centigrammes of matico, give from 2 to 25 daily.
-
-
-EXTRACT OF MATICO PILLS.
-
-Hydro-alcoholic extract of matico, 10 grammes.
-
-Divide secundum artem into 100 pills, which will each contain 10
-centigrammes. They are blackish. Being smaller they possess the
-advantage of being more easily swallowed.
-
-
-OINTMENT OF EXTRACT OF MATICO.
-
- Extract of matico,      5 grammes.
- Weak alcohol,           5 grammes.
- Lard,                  20 grammes.
-
-Make an ointment, secundum artem.
-
-{172}
-
-
-TINCTURE OF MATICO.
-
- Bruised matico,     100 parts.
- Alcohol at 85°,     400 parts.
-
-Macerate for 10 days, express and filter. The tincture may also be
-obtained by lixiviation from the powder.
-
-It is used both internally and externally as a vulnerary; it must in
-the first instance be diluted with water.
-
-Matico not being poisonous, practitioners can trace its application
-through the widest range.
-
-We will again repeat that we only give these formulæ that they may be
-experimented on; we shall hereafter give further comments on the choice
-to be made amongst them.—_Bulletin Thèr: 30th January, 1852._
-
-
-CHEMICAL RESEARCH ON CROTON OIL.
-
-BY M. DUBLANC.
-
-Director of the Laboratory of the Central Pharmacy of the Parisian
-Hospitals.
-
-Some interesting researches have been instituted to ascertain,
-
- _a._ Whether the croton oil contains within itself an acid volatile at
- a low temperature?
-
- _b._ Is this acid the principle of its action, and can it be preserved
- if it be separated from the oil, and diminished if it be allowed to
- evaporate?
-
-In order to answer both questions, the following operations have been
-instituted by this chemist.
-
-The seeds of croton, deprived of their husks, ground at the mill, and
-subject to pressure, yield a certain quantity of oil.—If the residuum
-be mixed with double its quantity of alcohol and pressed again, it
-yields a liquid which is a mixture of oil {173} and alcohol. This
-liquid, when distilled, will yield more oil. Both oils are filtered,
-after having been allowed to settle.
-
-The produce of this first operation is the natural croton oil, such as
-it exists in the seeds, which is of a brown amber color, viscid, having
-a peculiar smell, and possessed of great acidity, by which if applied
-to the skin, it produces an irritation varying in intensity according
-to its quantity, and the duration of time during which it has been
-applied. One drop, for instance, causes a blister in twelve hours.
-
-If a piece of litmus paper be dipped in this oil, it turns red, and re
-acts acid; and the red color, though not deep, resists the action of
-the air and of a hot furnace.
-
-The oil obtained by distillation from a solution in alcohol is rather
-more dark, viscid, and acid, than that obtained by simple expression.
-
-The blue paper dipped in the oil obtained by distillation, reddens, and
-retains the color under the same circumstances as the former.
-
-The second operation, however, offers already a fact which is of great
-value in deciding the question about the acidity of the croton oil. If
-you dip the litmus paper in the fluid which is gained by distillation,
-no traces of a change of color is visible; when, on the other hand,
-if you dip it in the oil which remains in the distilling apparatus,
-it changes the color as quickly as if dipped in the oil previous to
-distillation. The same is the case if the residuum is again acted upon
-with water or alcohol, the distilled fluid has no traces of acidity.
-
-However, since the contrary opinion is entertained by good authorities,
-we must add other facts in corroboration of our own.
-
-Croton oil was extracted by the action of ether upon the seeds. The
-ethereal solution containing croton oil in suspension was acid: it
-was placed in a glass vessel with two openings. One of them admitted
-a straight tube, and reached to the bottom of the vessel, admitting
-the introduction of external air: the other communicated with Woulfe’s
-apparatus, composed, {174}
-
-1. Of the globular tube after Liebig, containing blue solution of
-litmus.
-
-2. Another globular tube filled with alcohol.
-
-3. An angular tube in connection with a large vessel full of water,
-giving an inferior running to the liquid, and causing the air to pass
-across the thick layer of ethereal oil, to lead the volatile principles
-in contact with the liquor destined to retain them. The apparatus
-being arranged, it was put in action by causing the water to run
-which was contained in the large vessel. The vacuum having begun, air
-was introduced to the bottom of the ethereal liquid, keeping up this
-action till the ether was totally evaporated. Consequently, the air has
-agitated the liquid long enough to remove in a state of vapour all the
-ether which was contained in the mixture. Nevertheless, the tincture of
-Turnesol, which opposed the passage of the vapours of ether and water,
-did not change into red, which would have happened if the volatile
-principles should have contained any acid. Neither did the alcohol
-which was acted upon by the same current exhibit any sign of acid. The
-air saturated with ether arrived in the vessel to replace the water
-had no acid property; its action upon the eye-lids and nostrils was
-pungent and irritating, but not that of an acid. Another experiment was
-made with the same apparatus, having always in view to cause a great
-quantity of air to pass through croton oil. But this time, instead of
-causing the current to pass through a mass of ethereal solution, it was
-caused to pass through pure croton oil. The large vessel was this time
-not quite filled with water, allowing space to introduce on its upper
-part two sponges, one filled with oil, the other with ether. Things
-being thus arranged, the liquid was set running, and the air rushed
-through the oil, coming in at the bottom of the liquid and spreading
-through the surface, causing a lengthened ebullition. The mass of air
-employed in this operation was not below two centimetres. The tincture
-of litmus contained in the globular tubes was not altered; the oil
-contained in the sponge was neither acid, pungent, or corrosive. The
-ether acted upon by too much air had disappeared, the {175} sponge was
-dry. These two proofs appear to be conclusive, and to show that the
-croton oil does not contain an active volatile acid, otherwise it would
-have been made manifest by being carried away by the ether in the first
-case, or by its proper volatility in the second.
-
-Is it, however, possible to separate the active volatile principle
-from the mere neutral oil? It has been said by several authors that
-the croton oil was composed of two different oils, but this was a mere
-statement which required to be proved by facts. To solve this problem,
-the oil employed in the experiments was obtained by means of ether. The
-seeds of croton yield by expression 35 per cent.; treated by ether,
-they yield from 52 to 55 per cent. If treated by ether, the ether
-obtained by distillation is free from acid, all the acid remaining in
-the oil. When a certain fixed quantity of this oil is put in contact
-with ten times its weight of strong alcohol, the alcohol dissolves 6
-per cent. of its own weight, and the oil 50 per cent.
-
-The portion of the insoluble oil has lost its color, its smell, a part
-of its pungency, and all its acidity.
-
-The portion of oil which has been dissolved in alcohol, when separated
-from this menstruum by evaporation, is more viscid, more colored, more
-pungent, and acid. The oil which is not dissolved, can be acted upon
-again by alcohol; by this second operation, it yields some parts to the
-alcohol, and the remainder loses all its specific qualities. The action
-of alcohol upon oil in successive operation, can be followed up to its
-last limits.
-
-Twenty volumes of oil mixed with 100 volumes of alcohol, will be
-followed by the reduction of five volumes of oil. In the next
-operation, when the alcohol is renewed, the volume of the columns of
-oil lowers only three volumes instead of five. By a fourth operation,
-the oil loses not a single volume. When reduced to this state, the
-croton oil is slightly amber-colored, without smell, taste, or acidity;
-it can be taken in the mouth without causing any sensation. It is
-soluble in all proportions in ether. Its specific gravity is, 92
-compared with that of water. {176}
-
-Thus we find by experiments an evident proof of the co-existence of a
-sweet oil with the pungent croton oil.
-
-All the specific properties of the croton oil are carried over in that
-dissolved by alcohol.
-
-Is it possible by further processes to separate these active principles
-from the oily matter that contains them?
-
-To solve this question we resorted to the following experiment:―
-
-We took two kilogrammes of croton oil, and for several days we left it
-in contact with half a kilogramme of alcohol. A distinct separation
-took place. The upper part, composed of oil and alcohol, did not
-represent the exact quantity employed; which is explained by the power
-which the oil has to dissolve 10 per cent. of alcohol. The upper part
-being decanted, it was necessary to remove the alcohol, to avoid the
-inconvenience which might have arisen by employing heat for this
-purpose. Water was added to this liquid, which having become turbid,
-ether was added. Thus the oil came with the ether to the surface. The
-ether was removed by free evaporation. During this lengthened process,
-the effluvia was so pungent as to affect the eyes and nostrils of the
-operator, and cause blisters to rise on his face. The oil thus obtained
-is dark-brown, opaque, thick, possessed of a strong smell and acidity.
-Applied to the skin, it causes almost instantaneous pain, followed
-by a blister. It is soluble in all proportions in alcohol and ether.
-Mixed with nine parts of its volume of olive oil, it forms a liquid
-possessing specific qualities stronger than those of common croton oil.
-
-These facts prove the mobility of the active principles of croton oil,
-and the possibility of succeeding in obtaining them free from all
-fatty matter by chemical ingenuity, a task which will be the object of
-further experiments.
-
-The results from the above experiments are the following:―
-
-1. That the croton oil does not contain a volatile acid.
-
-2. That the sensible acid in croton oil is fixed or retained in the
-oil, and cannot be separated from it by a heat at 212° Fahr., or even
-by distillation. {177}
-
-3. That the acrid volatile principle, which exists in this oil,
-possesses not the qualities of an acid, and has hitherto withstood the
-chemical operations which were instituted to extract it.
-
-4. That the active principles of croton oil are capable of being
-separated from one part of the oil, and concentrated in the other.
-
-5. That croton oil is not homogeneous in its composition, but is formed
-of two parts, one inert, of which alcohol is unable to dissolve more
-than one-tenth, and a more soluble part, which carries with it all the
-active principles.
-
-6. That the greatest degree of concentration of the active principles,
-is by acting upon a large quantity of oil with a small quantity of
-alcohol.
-
-7. That either may be usefully employed in manufacturing croton
-oil.—_Repertoire de Pharmacie._—_From the Annals Pharmacy_, 1852.
-
-
-ON ALOINE, THE CRYSTALLINE CATHARTIC PRINCIPLE OF BARBADOES ALOES.
-
-BY JOHN STENHOUSE, L.L.D., F.R.S.L., & E.
-
-About two months ago I received from my friend, Mr. Thomas Smith,
-apothecary, Edinburgh, a quantity of a brownish yellow crystalline
-substance which he had obtained from Barbadoes aloes. Mr. Smith’s
-process consisted in pounding the previously dried aloes with a
-quantity of sand, so as to prevent its agglutinating, macerating the
-mass repeatedly with cold water, and then concentrating the liquors
-_in vacuo_ to the consistence of a syrup. On remaining at rest in a
-cool place for two or three days, the concentrated extract became
-filled with a mass of small granular crystals of a brownish yellow
-{178} color. This is the crude substance to which Mr. Smith has given
-the name of Aloine, and which appears to constitute the cathartic
-principle of aloes. The brownish yellow crystals obtained in this way
-are contaminated with a greenish brown substance, which changes to
-brownish black on exposure to the air, and still more rapidly when it
-is boiled. In order to purify the crystals of aloine, therefore, they
-must first be dried by pressure between folds of blotting-paper, and
-then repeatedly crystallized out of hot water till they have only a
-pale sulphur yellow color. The aqueous solutions of aloine must on no
-account be boiled, but simply heated to about 150° F., as at 212° F.
-aloine is rapidly oxidized and decomposed. By dissolving the purified
-crystals of aloine in hot spirits of wine, they are deposited, on the
-cooling of the solution, in small prismatic needles arranged in stars.
-When these crystals have a pale yellow color, which does not change
-when they are dried in the air they may be regarded as pure aloine.
-
-Aloine is quite neutral to test-paper. Its taste is at first sweetish,
-but soon becomes intensely bitter. Aloine is not very soluble either
-in cold water or in cold spirits of wine; but if the water or the
-spirits of wine are even slightly warmed, the solubility of the aloine
-is exceedingly increased: the color of these solutions is pale yellow.
-Aloine is also very readily dissolved by the carbonated and caustic
-fixed alkalies in the cold, forming a deep orange yellow solution,
-which rapidly grows darker, owing to the oxidation which ensues. The
-effects of ammonia and its carbonate are precisely similar. When aloine
-is boiled either with alkalies or strong acids, it is rapidly changed
-into dark brown resins. A solution of bleaching powder likewise gives
-aloine a deep orange color, which soon changes to dark brown. Aloine
-produces no precipitate in solutions either of corrosive sublimate,
-nitrate of silver, or neutral acetate of lead. It also yields no
-precipitate with a dilute solution of subacetate of lead; but in a
-concentrated solution it throws down a deep yellow precipitate, which
-is pretty soluble in cold water, and is therefore difficult to wash.
-This precipitate is by no means {179} very stable; and when it is
-exposed even for a short time to the air, it becomes brown.
-
-When powdered aloine is thrown, in small quantities at a time, into
-cold fuming nitric acid, it dissolves without evolving any nitrous
-fumes, and forms a brownish-red solution. On adding a large quantity
-of sulphuric acid, a yellow precipitate falls, which, when it is
-washed with water to remove all adhering acid and then dried, explodes
-when it is heated. It plainly, therefore, contains combined nitric
-acid. I could not, however, succeed in obtaining this compound in a
-crystalline state, as when it was dissolved in spirits, it appeared to
-be decomposed. When aloine is digested for some time with strong nitric
-acid, much nitrous gas is evolved, and it is converted into chrysammic
-acid, but without the formation of any nitro-picric acid, as is always
-the case when crude aloes is subjected to a similar treatment. A
-quantity of aloine was boiled with a mixture of chlorate of potash
-and muriatic acid. The acid solution was evaporated to dryness, and
-digested with strong spirits of wine. The greater portion of the
-spirits was removed by distillation; and the remainder, when left to
-spontaneous evaporation; yielded a syrup which could not be made to
-crystallize. Not a trace of chloranil was produced.
-
-When aloine is destructively distilled, it yields a volatile oil of a
-somewhat aromatic odor, and also a good deal of resinous matter. When
-aloine is heated on platinum foil it melts, and then catches fire,
-burning with a bright yellow flame, and emitting much smoke. It leaves
-a somewhat difficultly combustible charcoal, which, when strongly
-heated, entirely disappears, not a trace of ashes being left.
-
-A quantity of aloine dried _in vacuo_ was analyzed with chromate of
-lead in the usual way.
-
-I. 0.2615 grm. aloine gave 0.5695 carbonic acid and 0.14 water.
-
-II. 0.2415 grm. aloine gave 0.5250 carbonic acid and 0.126 water. {180}
-
-
-        Hydrated aloine.      Found numbers.
-       Calculated numbers.      I.      II.
- 34 C    2550.0    59.47      59.39    59.24
- 19 H     237.5     5.54       5.97     5.79
- 15 O    1500.0    35.09      34.64    34.97
-           ────     ────       ────     ────
-         4287.5   100.00     100.00   100.00
-
-The formula derivable from these analyses is C‗{34} H‗{19} O‗{15},
-which, as we shall presently see, is = C‗{34} H‗{18} O‗{14} +HO, or
-aloine with one equivalent of water.
-
-The aloine which had been dried _in vacuo_ was next heated in the
-water-bath for five or six hours, and was also subjected to analysis.
-
-I. 0.251 grm. aloine dried at 212° F. gave 0.550 carbonic acid and
-0.128 water.
-
-II. 0.2535 grm. aloine dried at 212° F. gave 0.564 carbonic acid and
-0.129 water.
-
-III. 0.234 grm. aloine dried at 212° F. gave 0.521 carbonic acid and
-0.114 water.
-
-       Calculated numbers.   I.     II.     III.
- 34 C     2550    61.07    60.51   60.67   60.72
- 18 H      225     5.39     5.66    5.65    5.42
- 14 O     1400    33.54    33.83   33.68   33.86
-          ────     ────     ────    ────    ────
-          4175   100.00   100.00  100.00  100.00
-
-The aloine employed in these analyses was prepared at three different
-times. These results give C‗{34} H‗{18} O‗{14} as the formula of
-anhydrous aloine, that dried _in vacuo_ being a hydrate with one
-equivalent of water.
-
-When the aloine was allowed to remain in the water-bath for more than
-six hours, it continued slowly to lose weight, apparently owing to
-its undergoing partial decomposition by the formation of a brownish
-resin. The loss of weight gradually continued for a week or more,
-but became very rapid when the aloine was heated to 302° F., when it
-melted, forming a dark brownish mass, which when cooled became as hard
-and brittle {181} as colophonium. It still, however, contained a good
-deal of unaltered aloine, as I ascertained by crystallizing it out with
-hot spirits and analyzing it. Much of the aloine, however, had been
-changed, most probably by oxidation, into a dark brown uncrystallizable
-resin.
-
-BROM-ALOINE.—When an excess of bromine is poured into a cold aqueous
-solution of aloine, a bright yellow precipitate is immediately
-produced, the amount of which increases on standing, while at the same
-time the supernatant liquid becomes very acid from containing free
-hydrobromic acid. The precipitate, after it has been washed with cold
-water to remove adhering acid, is dissolved in hot spirits of wine; and
-on the cooling of the solution it is deposited in bright yellow needles
-radiating from centres, which attach themselves to the bottom and sides
-of the containing vessel.
-
-The crystals of brom-aloine are considerably broader than those of
-aloine, and have a richer yellow color and a higher lustre. Brom-aloine
-is quite neutral to test-paper, is not so soluble in either cold water
-or cold spirits of wine as aloine, but dissolves very readily in hot
-spirits of wine.
-
-I. 0.421 grm. substance dried in vacuo gave 0.547 carbonic acid and
-0.103 water.
-
- 0.856 grm. gave 0.848 bromide of silver = 42.16 Br.
-
-II. 0.300 grm. substance gave 0.391 carbonic acid and 0.078 water.
-
- 0.661 grm. substance gave 0.649 bromide of silver = 0.2762
- Br. = 41.78 per cent.
-
-       Calculated numbers.    I.     II.
- 34 C    2550.00   35.73    35.43   35.53
- 15 H     187.50    2.62     2.71    2.86
- 14 O    1400.00   19.63    19.70   19.83
-  3 Br   2998.89   42.02    42.16   41.78
-            ────    ────     ────    ────
-         7136.39  100.00   100.00  100.00
-
-The brom-aloine employed in these analyses was prepared at two
-different times. It is plain therefore from these results, {182} that
-this bromine compound is aloine, C‗{34} H‗{18} O‗{14} in which 3
-equivs. of hydrogen are replaced by 3 equivs. of bromine.—The formula
-of brom-aloine therefore is C‗{34} H‗{15} O‗{14} Br‗{3}.
-
-When a stream of chlorine gas was sent for a considerable time through
-a cold aqueous solution of aloine, a deep yellow precipitate was
-produced. It contained a great deal of combined chlorine; but as it
-could not be made to crystallize, it was not subjected to analysis.
-In the present instance, and in those of several other feeble organic
-principles, such as orcine, chlorine appears to act some what too
-strongly, so that the constitution of the substance is destroyed,
-and merely uncrystallizable resins are produced. Bromine, on the
-other hand, is much more gentle in its operations, and usually simply
-replaces a moderate amount of the hydrogen in the substance, so that,
-as in the case of orcine and aloine, crystalline compounds are produced.
-
-It has long been known to medical practitioners, that the aqueous
-extract of aloes is by far the most active preparation of that drug.
-The reason of this is now very plain, as the concentrated extract of
-aloes obtained by exhausting aloes with cold water consists chiefly of
-aloine, by much the larger portion of the resin being left undissolved.
-Mr. Smith informs me, that from a series of pretty extensive trials,
-from 2 to 4 grs. of aloine have been found more effective than from 10
-to 15 grs. of ordinary aloes. Aloine is, I should think, therefore,
-likely ere long, to supersede, at least to a considerable extent, the
-administration of crude aloes.
-
-I endeavored to obtain aloine by operating on considerable quantities
-of Barbadoes, Cape and Socotrine aloes. These were macerated in cold
-water, and the aqueous solutions obtained were concentrated to the
-state of thin extracts on the water-bath. I was quite unsuccessful
-in every instance. The impurities contained in the extracts in these
-different kinds of aloes appear, when in contact with the oxygen of
-the air, to act upon the aloine so as effectually to prevent it from
-crystallizing. Aloine can only, therefore, be obtained in a crystalline
-state by {183} concentrating the cold aqueous solution of aloes _in
-vacuo_; though, after the aloine has once been crystallized, and it
-is freed from the presence of those impurities which appear to act so
-injuriously upon it, the aloine may be quite readily crystallized out
-of its aqueous solutions in the open air.
-
-Though aloine has as yet only been obtained from Barbadoes aloes, I
-have scarcely any doubt that it also exists both in Cape and Socotrine
-aloes. The amount of aloine in Cape aloes, is, however, in all
-probability, much smaller than in either of the other two species; for
-Cape aloes is well known to be a much feebler cathartic, and to contain
-a mass of impurities. In corroboration of this opinion, I would refer
-to the fact already mentioned in a previous part of this paper, viz.
-that when aloine is digested with nitric acid, it is converted into Dr.
-Schunck’s chrysammic acid. Now it has been satisfactorily ascertained
-that all the three species of aloes yield chrysammic acid, of which in
-fact they are the only known sources. Cape aloes, as might have been
-expected, yields by far the smallest amount of chrysammic acid together
-with much oxalic and some nitro-picric acids. There appears, therefore,
-great reason to believe that all the three kinds of aloes contain
-aloine.
-
-Since the above was written, I have learned from Mr. Smith that he has
-not succeeded in obtaining crystallized aloine from either Cape or
-Socotrine aloes. Mr. Smith does not doubt that both of these species
-of aloes also contain aloine, though, most probably contaminated
-with so much resin, or some other substances, as prevents it from
-crystallizing. What tends to confirm Mr. Smith in this opinion is the
-observation he has made, that when the crude crystals of aloine are
-allowed to remain in contact with the mother liquor of the Barbadoes
-aloes, they disappear and become uncrystallizable. I have also observed
-a similar occurrence in the mother-liquors of tolerably pure aloine.
-These become always darker and darker; so that if we continue to
-dissolve new quantities of aloine in them, at length scarcely any of
-it crystallizes out, and the whole becomes changed into a dark-colored
-magma. {184}
-
-In the year 1846, M. E. Robiquet published an account of an examination
-he had made of Socotrine aloes. By treating the concentrated aqueous
-solution of this species of aloes with basic acetate of lead, he
-obtained a brownish yellow precipitate, which was collected on a
-filter and washed with hot water. On decomposing this lead compound
-with sulphuretted hydrogen and evaporating the solution to dryness,
-he obtained an almost colorless varnish, consisting of a scaly mass,
-which was not in the least degree crystalline. M. E. Robiquet subjected
-his substance, which he called aloetine, to analysis, and obtained the
-following result:―
-
-  8 C = 27.7 per cent.
- 14 H = 10.8 per cent.
- 10 O = 61.5 per cent.
-        ────
-       100.0
-
-It is plain, therefore, that M. E. Robiquet’s aloetine, if it really is
-a definite organic principle, which I very much question, is certainly
-a very different substance from the aloine which has formed the subject
-of the present notice.—_London and Edinburgh Philosophical Magazine._
-
-
-ON HENRY’S MAGNESIA.
-
-BY DR. MOHR.
-
-In England, under this name is sold a calcined magnesia, at a very
-high price, which is not to be obtained in any other way. Many English
-travelers, as well as most of their countrymen, believe that they
-possess a very large knowledge of medicines, because such things
-as blue pills, calomel, sweet spirits of nitre, and laudanum they
-administer without medical advice, and {185} bring this magnesia
-with them to our shops when they wish a recipe to be dispensed,
-which contains calcined magnesia as one of the ingredients. By such
-opportunities, I became acquainted with the purity and beauty of this
-preparation, and its peculiar silky gloss and whiteness. With a view to
-discover its method of preparation, I made the following research:―
-
-By heating to redness the ordinary carbonate of magnesia, it is not
-to be obtained. The ordinary magnesia of commerce, which produces by
-a red heat a fine calcined magnesia, I exposed in a crucible, to a
-strong white heat. It solidified, and was of a yellow color, and had
-become so hard that it was only with the greatest labor that it could
-be powdered and sifted. Prepared in this way, it cannot be used. I
-now prepared some carbonate of magnesia, observing that Henry’s was
-very dense, without reference to that result, which was very fine, by
-precipitation in the heat. The process by which the flocculent magnesia
-of commerce is obtained, is not explained in any chemical works. Pure
-sulphate of magnesia, free from iron, was dissolved in distilled water,
-and a solution of carbonate of soda added to it as long as anything was
-precipitated by a boiling heat. The ebullition was continued until the
-mixture ceased to evolve carbonic acid, and set aside for decantation.
-When decanted, fresh distilled water was added to the precipitate, and
-the whole again boiled, and afterwards placed on a filter and washed
-with hot distilled water, until the liquid passing from the filter gave
-no trace of sulphuric acid. The precipitate, when pressed and dried,
-was very white and dense. It was exposed to an intense white heat in a
-closely-covered Hessian crucible for one hour. When the crucible was
-opened, I found a beautifully white magnesia, finely granulated. Where
-it had come in contact with the crucible, it had acquired a yellow
-color, from the peroxide of iron contained in the crucible. The yellow
-portion alone adhered firmly to the crucible and the rest was perfectly
-white, and readily removed. In acids, this magnesia was with difficulty
-dissolved, although ultimately completely soluble therein. By a
-repetition of this {186} process, an identical result was obtained.
-The magnesia thus produced in small lumps exhibited by transmitted
-light a slight rosy tint, and by reflected light, a very white color.
-In these respects, it agrees perfectly with Henry’s. To determine its
-comparative density, a cubic inch measure was filled with its powder,
-and weighed. As the results of three trials, it contained respectively
-10,74, 11,19, and 11,18 grammes of the powder. Two experiments with
-Henry’s magnesia gave 7, and 7,2 grammes. Three of the carbonate of
-magnesia, prepared by heat, gave 12,68, 12,9, and 12,5 grm. One of the
-ordinary calcined magnesia gave 1,985 grm.; and one of the ordinary
-carbonate of magnesia, 1,4 grm.
-
-The calcined magnesia, as above prepared, contains some hard particles,
-which are very difficult to pulverize. In attempting to powder them, I
-remarked that this magnesia, which was washed before being burnt until
-no traces of sulphuric acid could be detected, now afforded an evidence
-of a small portion still being present. This same observation I have
-previously made in the preparation of oxide of zinc. To remove this
-contamination, I recommend that carbonate of magnesia should first be
-lightly burnt, and then well washed with hot water, and again burnt
-with a very strong heat.
-
-The above determinations of the density of the magnesias must not be
-confounded with their specific gravity. To ascertain the latter is a
-task of great difficulty, for Rose, in attempting it, obtained such
-discrepant results, that he has withheld them. The specific gravity of
-Henry’s magnesia, as near as it could be ascertained, is from 2,50 to
-2,67. The magnesia prepared according to my process, gave 3,148 as its
-specific weight.—_Buchner’s Repertorium, in Annals of Pharmacy._
-
-
-MEDICINE AND PHARMACY IN BRAZIL.
-
-In the entire Brazilian empire, there are two national faculties of
-medicine, termed _Escola Imperial de Medecina_, one established at
-Rio de Janeiro, the other at Bahia—the present {187} and former
-capitals of Brazil. Both are constituted exactly alike in laws, forms,
-number of professors, modelled, with very trifling difference, after
-the constitution of the _Ecole de Médecine_ of Paris. Each college
-consists of fourteen professors, and six substitute professors, with a
-director and a vice-director, answering to our own dean and vice-dean
-of the faculty. The latter are named by Government, from a triple
-list sent up by the professors every third year, and discharge the
-ordinary duties of their chairs, being only exempt from attending
-the examinations. They possess a limited controling power over
-their college, and constitute the official channel of communication
-with Government and public bodies, on all matters relating to
-public health, prisons, &c. The duties of professor-substitute are
-explained in the name. When illness, or public employment—the latter
-not unusual in Brazil—interferes with the duties of the professor,
-his chair is supplied by the substitute: both are appointed, as in
-France, by _concours_. Most of the older members have graduated in
-Portugal, Scotland, France, or Italy. Both classes receive a fixed
-income from the State, and derive no emolument whatever from pupils
-and examination fees, &c. which are applied to public purposes
-connected with the college. The income of the professor was fixed
-at twelve hundred _mil-reis_ per annum—(about three hundred pounds)
-when first established; and that of the professor-substitute at eight
-hundred _mil-reis_. Both enjoy the right of retirement on their full
-salary, after twenty years’ service, or when incapacitated by age or
-infirmities. A travelling professor is elected by _concours_ by the
-faculty, every four years, for the purpose of investigating, in the
-different countries of Europe, the latest improvements and discoveries
-in medicine and the collateral sciences, an account of which he
-regularly transmits, in formal reports, to his college. His expenses
-are defrayed by the State.
-
-The medical faculty consists of the following chairs:—1, physics; 2,
-botany; 3, chemistry; 4, anatomy; 5, physiology; 6, external pathology;
-7, internal pathology; 8, materia {188} medica; 9, hygiene; 10,
-operations; 12, midwifery; 13, clinical medicine; 14, clinical surgery.
-
-In addition to the professors, there is a secretary (medical),
-treasurer, librarian, and chemical assistant—all elected by the faculty.
-
-The order of study is as follows:—first year, medical physics and
-medical botany; second year, chemistry and general and descriptive
-anatomy; third year, anatomy and physiology; fourth year, external
-pathology, internal pathology, pharmacy and materia medica; fifth year,
-operative medicine and midwifery; sixth year, hygiene, history of
-medicine, and legal medicine.
-
-All examinations are public, and the subjects are drawn by lot.
-
-The titles conferred by the faculty, are only three, viz., Doctor in
-Medicine, Apothecary, and Midwife. The latter is specially educated and
-examined.
-
-In each chief city there are commonly three or four large hospitals—the
-Misericordia, or Civil Hospital, possessed of ample funds from
-endowments, legacies, and certain taxes; the Military and Naval
-Hopitals; and in Rio, Bahia, and Pernambuco, Leper Hospitals. There
-are also infirmaries attached to convents. Private subscriptions to
-institutions are utterly unknown.
-
-The academical session lasts for eight months—from 1st March to
-30th October—lectures being delivered daily (with some exceptions)
-by the professors or their substitutes. The professors of clinical
-medicine and surgery have the right of selecting their cases from the
-Misericordia Hospital.
-
-The student, previous to matriculation, must take his degree in arts;
-and the curiculum is the same for all, viz., six years to obtain the
-degree of Doctor in Medicine. The examinations are conducted as in
-Paris. For the degree of Doctor in Surgery—which, however, is not
-essential—a subsequent and special examination must be undergone, as in
-France.
-
-All students are classified, on entering college, into _medical_ {189}
-and _pharmaceutical_; and both are obliged to obtain the degree in
-arts before they can be matriculated, and to have completed their
-sixteenth year. The pharmaceutical student obtains his diploma of
-pharmacy after three years study; while that of medicine can only be
-obtained after six years. The student of pharmacy is obliged to repeat
-the courses of medical physics, botany, chemistry, pharmacy and materia
-medica; while one course only of each is required from the medical
-pupil. The pharmaceutical student is obliged to attend for three years
-in a pharmacy, after the conclusion of his academical studies. He then
-undergoes an examination by the faculty, and publicly defends a thesis
-to obtain his diploma. His duty afterwards, as apothecary, is strictly
-limited to the sale of drugs, and the compounding of prescriptions.
-He is never consulted professionally; and, did he attempt to apply a
-remedy for the cure of any disease, he would be immediately fined fifty
-_mil-reis_ by the municipality, for the first, and an increasing fine
-for every subsequent offence; and, did he still persist, his licence
-would be withdrawn. On the other hand, the medical practioner is
-strictly prohibited from the compounding or sale of medicines, in any
-shape or form.—_Dundas’s Sketches of Brazil._
-
-
-CHEMICAL EXAMINATION OF BROOM.
-
-(CYTISUS SCOPARIUS D. C.)
-
-BY DR. STENHOUSE.
-
-The broom plants examined by Dr. Stenhouse, had an uncommonly bitter
-taste. The watery decoction, evaporated down to a tenth part, leaves
-a gelatinous residue, which consists chiefly of scoparin. This is
-a yellow colored substance, which, when purified, can be got in
-stellate crystals, and is easily soluble in boiling water and spirit
-of wine. Dr. Stenhouse, from five ultimate analyses, assigns it to the
-constitution C‗{21} H‗{11} O‗{10}.
-
-Scoparin is, according to an extensive series of experiments by Dr.
-Stenhouse, the diuretic principle of broom, which has been recognised
-by Mead, Cullen, Pearson, Pereira, and others, {190} as one of the
-most efficacious remedies in dropsy. The dose for an adult is 5 or 6
-grains. Its diuretic action begins in 12 hours, and the urine under its
-use is more than doubled in quantity.
-
-From the mother liquor of the crude scoparin, Dr. S. obtained, by
-distillation, a colorless oily liquid, which, when purified, was found
-to be a new volatile organic base spartein. This has a peculiarly
-bitter taste, and possesses powerful narcotic properties. A single drop
-dissolved by means of acetic acid, affected a rabbit so much, that it
-lay stupified for 5 or 6 hours. Another rabbit, which took four grains,
-first went into a state of violent excitement, then fell into sopor and
-died in three hours. The author observes that shepherds have long been
-acquainted with the excitant and narcotic action of broom.
-
-The proportion of Scoparin and spartein, varies very much in plants
-grown in different localities, which probably explains the very
-different accounts given by practitioners of its activity as a drug.
-The author suggests that it would be better to employ pure scoparin
-free from admixture of spartein.—_Edin. Monthly Jour. of Medical
-Science._
-
-
-EDITORIAL.
-
-
-POISONING BY TINCTURE OF ACONITE.—The frequent use of the strong
-tincture of aconite root, as an external application, has, as might
-have been expected, given rise to repeated accidents, from the
-accidental or careless internal administration of that powerful
-substance in an overdose. An instance has occurred within a day or two,
-where an attendant administered a tea-spoonful of the tincture, which
-had been directed to be used as a liniment for a rheumatic affection.
-An emetic of sulphate of zinc was administered by the physician, and
-within five minutes after the poison had been swallowed, free vomiting
-was produced. This continued for several hours, though the external
-application of mustard poultices to {191} the pit of the stomach, and
-the administration of strong coffee, with small doses of laudanum, were
-employed to check it. The man was naturally very stupid, and could
-give no clear account of his sensations. He made no complaint of his
-throat, until his attention was directed to it, when he said it was
-sore and that he had difficulty in swallowing. He had a strange, as
-he termed it, bursting sensation in his limbs, with constant sickness
-and retching, and great debility. He looked alarmed and anxious, and
-was restless. The pupils were at first dilated, then nearly natural,
-and afterwards again dilated. The extremities were cold and moist,
-the pulse early intermitting and weak, became extinct at the wrist,
-and the action of the heart was feeble and irregular. Stimulants were
-administered internally, but could not be retained, brandy and water
-with carbonate of ammonia was afterwards given in injections, per anum.
-and the temperature of the extremities maintained by mustard poultices,
-and the application of heat. After an interval of seven or eight hours
-the pulse again became perceptible, and the man gradually recovered.
-
-The characteristic symptoms produced by poisoning with aconite,
-are a peculiar numb tingling sensation produced in the tongue and
-lips, a sensation in the throat, as if the palate were enlarged and
-elongated, and resting upon the root of the tongue, irritability of
-the stomach, a numb creeping or tingling sensation felt in the limbs,
-or over the whole surface, and depressed action of the heart, and
-consequent prostration and coldness of the extremities. Death when it
-occurs, seems to depend on the depressing effect produced upon the
-heart. From this it would seem that the proper treatment would be,
-1st, to promote the evacuation of the poison by mild means. 2nd, to
-maintain the circulation, by keeping the patient as quiet as possible
-in a horizontal posture, by the application of sinapisms and external
-warmth to the extremities, and by the administration of stimulants by
-the mouth or when they cannot be retained, by the rectum, and 3d, to
-control, if possible, the vomiting.
-
-Pereira states that aconite, when dropped in the eye, or when taken
-internally in poisonous doses, produces contraction of the pupils, and
-that with the exception of opium, it is the only article which does so.
-In the above case, and in one other, which was likewise seen by the
-writer, the pupils were dilated, and the same condition was observed in
-several cases which have been communicated to him.
-
-The above case is note-worthy from the great severity of the symptoms
-endangering the patients life, which followed the administration of a
-single tea-spoonful of the poison. It must have been absorbed too, with
-great promptness, since the vomiting, which took place in five minutes
-afforded no relief. This probably depended on the stomach being empty
-at the time. Much of the difference observed in the effects produced by
-the same dose, too, doubtless depends on the variation of the strength
-of the tincture, caused either by the employment of different formulæ
-in its preparation, or by the occasional use of decayed and inferior
-roots in making it.
-
-{192}
-
-
-SPURIOUS SULPHATE OF QUININE.—We understand that the article referred
-to in the subjoined note, has likewise been offered for sale in this
-city. It bears the label of Pelletier, Delondres & Levaillant. We hope
-our Western friends will be on their guard against this atrocious
-swindle.
-
- TO THE EDITOR OF THE NEW YORK JOURNAL OF PHARMACY:―
-
- Dear Sir,—I would direct the attention of druggists and apothecaries
- to an article sold in New York, purporting to be quinine, put up so as
- to resemble the French.
-
- It has somewhat the appearance of that article, but upon examination
- will be found to be totally devoid of bitterness, &c. I should suppose
- it to be mannite.
-
- I am led to believe that 500 ounces have already been shipped to the
- West, and some has been sold in this vicinity.
-
- I hope that your numerous subscribers may profit by this hint, and
- that the parties selling the same as quinine, may be frustrated in
- their nefarious traffic.
-
- Your obedient servant, R. J. D.
-
- BROOKLYN, May 28, 1852.
-
-
-MAGANESE.—Some attention has lately been given, in France, to a variety
-of preparations of maganese. Maganese is commonly found associated with
-iron in minute quantities. It appears to be an invariable constituent
-of the blood, and in certain diseases, in which the iron, normally
-contained in that fluid, is deficient, the maganese would seem to be
-deficient in similar proportion. It is said that the preparations of
-maganese, given in connection with those of iron, in such diseases,
-produce effects which cannot be obtained from iron alone. Various
-formulæ have been offered for its administration. Commonly similar
-salts of the two articles, as the sulphate, lactate, carbonate, &c.,
-are given together, the manganese being to the iron in the proportion
-of from 1/2 to 1/3. The subject would seem to deserve further
-inquiry.
-
-
-☛OUR EXCHANGES.—Owing to a variety of circumstances, the Journal
-has not been forwarded with proper regularity to the Editors of the
-Journals in our own Country, with whom we would desire to exchange.
-Exchanges and books intended for us should be directed “TO THE EDITOR
-OF THE NEW YORK JOURNAL OF PHARMACY,” care of GEORGE D. COGGESHALL, 809
-Broadway, or of T. B. MERRICK, No. 10 Gold Street. _Foreign Exchanges_
-may be sent through the house of H. BAILLIERE, London, or J. B.
-BAILLERE, Paris.
-
-{193}
-
-
-
-
-NEW YORK
-
-JOURNAL OF PHARMACY.
-
-JULY, 1852.
-
-
-NOTES IN PHARMACY, No. 3.
-
-
-EXTR. LIQ. CUBEBÆ.—The formula for this preparation, made officinal in
-the lately revised U. S. Pharmacopœia, appearing to me to afford rather
-an ethereal oil, than what may be properly called a fluid extract,
-I am induced to make known the process which I have been accustomed
-to adopt, during some years, to obtain what I conceive to be a true
-extract, containing, in an agreeably administrable form, all and the
-whole of the properties belonging to the berry, and which has given
-much satisfaction in practice, particularly to patients, some of
-whom who have had extensive experience in the use of anti-gonnorrhæl
-compounds, I have heard state that it is the only thing of the kind
-they had ever taken which was not disagreeable to the stomach. I take of
-
- Pulv. Cubeb. crud. ℔i
- Ether. Sulph.
- Sp. Vin Rect.
- Aquæ Puræ āā q. s.
-
-The coarsely powdered cubebs, being lightly packed in a displacement
-funnel, I pour upon it as much of a mixture of equal parts of ether and
-spirit of wine, as it will imbibe, and, having covered closely the top
-of the apparatus with moistened bladder, and corked the lower aperture,
-allow it to stand for twenty-four hours. I then uncork it, and after it
-has ceased {194} dropping, displace the remainder with Sp. Vin. Rect.
-until the original quantity (generally a pint,) be obtained; this I
-set aside in an open and shallow vessel to _evaporate spontaneously_,
-until all the ether, and most of the spirit has passed off, reducing
-the quantity to about one half. I then obtain, by displacement with
-diluted alcohol, another pint of the liquid, exposing it in the same
-manner, until three-fourths of the quantity is evaporated spontaneously
-as before; again another pint is obtained by displacement with water,
-(this will be a proof spirit tincture,) which is added to the former,
-and allowed to lose by the same means, about one-fourth, or sufficient
-to leave a resulting quantity of one and a half pints, which will
-contain about eight ounces of alcohol. The displacement with water is
-continued to exhaustion, when enough fluid will be obtained to raise
-the quantity, when added to that already prepared, to two and a half
-pints, which is transferred to a proper bottle, and there is dissolved
-in it sixteen ounces of white sugar, yielding, in toto, three pints
-of fluid extract, equal to one pound of the berries, one fʒi of which
-represents ℈j of the dry powder. The dregs, when dried, are destitute
-of sensible properties, appearing to be merely ligneous remains, and
-the loss in weight, when time is had, may be easily calculated and
-compared with the recorded analyses. The extract has the appearance
-of a somewhat thick, brownish colored liquid, possessing the peculiar
-taste and smell of the cubebs in a remarkable degree, remaining
-homogeneous for some time after agitation, and showing after settling
-a large proportion of the oleaginous constituents of the berry. Having
-aimed more at efficiency than beauty in this preparation, I claim for
-it the former rather than the latter, and if it should not invite the
-eye, it will be found very agreeable to the palate. Fluid extract of
-valerian may be prepared by the same process, and, indeed, all those of
-a volatile nature, whose active principles are soluble in any of the
-above menstrua.
-
-
-UNG. AQUÆ ROSÆ.—The great trouble with this preparation is, that the
-water will separate from it after a time, giving it a {195} lachrymose
-and unhandsome appearance. This defect is completely remedied by using
-_only one half the quantity_ of Aq. Rosæ, by which a better consistence
-and much nicer preparation is obtained, and one more, in accordance
-with the soubriquet “Cold Cream,” which is given to it by the fair
-sex, for whose use, as a cosmetic, it is far superior to the _highly
-scented_, and irritating fancy article of the same name. It is also
-an admirable unirritating, cooling, dressing for surgical use; but I
-would remark, _en passant_, that it is a very unfit medium for the
-composition of ointments, for which purpose it is sometimes prescribed
-to the annoyance of the apothecary. In such cases the physician should
-be apprised that the addition of a drop of oil of rose to simple cerate
-would answer his purpose much better, as the odor only is the quality
-desired. I think the above note might not be undeserving the attention
-of the next revisers of the Pharmacopœias.
-
-
-UNG. PERUVIAN. It is sometimes difficult to make this ointment smooth,
-as, though readily miscible at first, continued trituration causes the
-balsam to separate, and like the colored person who “the more he was
-called, the more he would not come,” the more it is rubbed, the more it
-separates. This hostility to union is readily overcome by the addition
-of ten drops or so of alcohol for each drachm of the balsam. It is
-perhaps unnecessary to state that this difficulty will not be had when
-the balsam is adulterated with alcohol—a good practical test of the
-purity of the article.
-
-
-PHARMACEUTICAL ETHICS.—Morality being at present in the ascendant, as
-it should always be, it may not be inappropriate, though more important
-than practical, to “make a note” of some fashionable practices
-prevalent amongst the more ostentatious pharmaceutists of the day,
-savoring much more strongly of “Quackery,” to use a vulgar phrase,
-than Art Unions, &c. are pronounced by legal wisdom to do of the
-“Lottery.” I allude, for example, to the system of _getting up_, under
-some mystified appellation, certain preparations, as “Brown’s Elixir,”
-“White’s Essence,” or “Black’s Compound,”—something or {196} other,
-which are merely the ordinary preparations of the shop, or could
-easily be prepared if they were worth the trouble, but under _assumed
-names_, are heralded forth at the _ne plus ultra_ of pharmaceutical
-perfectibility. I do not envy a reputation so acquired, nor do I wish
-to speak of it in that spirit, but to point out its inconsistency with
-correct principles, and designate it as unworthy of honorable ambition.
-Such preparations generally “hail” from some obscure place or person,
-but are occasionally dabbled with by others who should give themselves
-to better things. It is self evident, from the nature of his calling,
-that the exclusive duty of the apothecary _per se_, is to make, as
-faithfully or skilfully as he may, the various preparations of the
-Pharmacopœia, as therein set down, when he is called upon to do so,
-and to compound accurately the prescriptions of the physician. If, by
-long experience or increased skill, he may have been led to any real
-discovery or improvement, the minutiæ of which he does not choose to
-divulge, (the reverse of which would be the more generous,) its nature
-should be stated, when relating to a preparation, in terms distinct
-enough at least, to convey an idea of its real composition and medical
-properties: thus tinctures should not be misnamed Essences or Extracts;
-Fluid Extracts, or Concentrated Infusions, Elixirs; Syrups, Panaceas,
-&c. thus avoiding the inconsistency of condemning, if not morally, at
-least _constitutionally_, the more open mountebank who plunders your
-pockets, while the beam is in your own eye. It is also perhaps worthy
-of remark that the necessity does not appear any longer to exist of
-retaining those prescriptively excellent preparations made by some, no
-doubt, very respectable apothecary in London, claiming, with a dozen
-others, to be the sole possessor of the original receipt. They are
-imported at a very high price, and as the composition of most, perhaps
-all, is, or can be known, might be made by any apothecary here as
-well as in London. Some of them might be deserving of adoption into
-the Pharmacopœia, as have been Dover’s Powder, Daffy’s Elixir, &c.
-already. It is said by connoisseurs in wines, that madeira is very
-much improved by {197} crossing the line; but I am not aware that
-pharmaceutical preparations are at all benefitted by crossing the
-ocean. Their _genuineness_, too, has become a by-word. By the way, I
-was gravely informed by a certain importer, the other day, of whom
-I enquired concerning one of these _genuine_ articles, that it was
-obtained directly from the inventor. I was at a loss to imagine the
-“modus transitûs,” nor had I the hardihood to enquire, the good man
-having been gathered to his fathers scores of years ago.
-
-Various are the unworthy practices, one or two of which are thus curtly
-alluded to, deserving of a more studied notice and severe censure, than
-I am able or willing to give them. Such matters, though not exactly
-“putting money in the purse,” should be attended to. The purging of our
-profession—for it is one—of them, would be a highly meritorious service.
-
-
-CHLORIC ETHER.
-
-BY J. F. HOLTON, PROFESSOR OF BOTANY IN THE NEW YORK COLLEGE OF
-PHARMACY.
-
-In the early part of this century, some chemists in Holland found a
-peculiar oily fluid of very fragrant smell, resulted from the action of
-chlorine on Olefiant gas. It is generally known as the Dutch liquid; it
-has been called also chloric ether and bichloric ether. Its composition
-is C‗{4} H‗{2} O‗{2}.
-
-In 1831, Mr. Samuel Guthrie of Sackets Harbor, in this State, distilled
-alcohol from the so called chloride of lime, and obtained a product so
-closely resembling the Dutch liquid that he though it identical. From
-some relations to formic acid, it was afterwards called Chloroform, and
-chloroformid. Its composition is C‗{4} HO‗{3}. In 1847, anaésthetic
-properties brought {198} chloroform prominently before the public. We
-find an article by Prof. B. Silliman, Jr., in the American Journal of
-Science, new series, vol., 5, p. 240, in which it is stated that “the
-terms chloric ether, bichloric ether, perchloride of formyle, Dutch oil
-and oil of Dutch chemists, are all synonyms of chloroform.”
-
-In a recent visit of the writer at New Haven he saw a prescription of
-“chloric ether.” Being reminded of the singular error in the Journal
-printed there, he inquired into the nature of the article dispensed.
-It proved to be a solution of chloroform in alcohol, and on his return
-to this city he found the same practice here to a small extent. The
-proportions in the article bearing this name vary greatly; often
-it seems that the mere contents of the wash-bottle are in this way
-disposed of, containing of course a large proportion of water. Mr.
-Currie, one of our most careful and consciencious chemists, usually
-prepares it so as to contain 10 per cent. in bulk of chloroform. A more
-convenient formula would be, chloroform 1 part, alcohol 10 parts. Some
-such article under the name of Tinctura Chloroformi ought to have place
-in our pharmacopœia.
-
-But to our confusion the term chloric ether is applied to yet another,
-and entirely a different body, formed by the distillation of alcohol
-and hydrochloric acid, the composition of which is C‗{4} H‗{5} O. This
-is also called hydrochloric ether and muriatic ether.
-
-But to neither of these four substances does the name chloric ether
-properly belong. Were there such a thing, it would be obtained from the
-action of chloric acid on alcohol, a reaction which is prevented by the
-decomposition of the chloric acid by the alcohol, to which it gives
-part of its oxygen, forming acetic acid.
-
-This subject is not of so much importance intrinsically as it is by way
-of illustrating the extreme importance of rigid adhesion to systematic
-nomenclature as the only means of saving us from dangerous errors and
-inextricable confusion.
-
-{199}
-
-
-ON THE PREPARATION OF PURE MAGNESIA.
-
-BY HENRY WURTZ, M. A.
-
-The preparation of few substances presents such difficulties as that of
-_Pure Magnesia_.
-
-It seems, however, at first glance, that the cheapness and general
-purity of the sulphate which occurs in commerce, would render this
-an easy task. Unfortunately, however, no simple process has yet been
-proposed for obtaining pure magnesia from the sulphate. The usual
-course is to precipitate from the boiling solution with carbonate
-of soda, and to expel the carbonic acid from the magnesia alba thus
-obtained, by ignition. On trying this process, however, it was found
-that the carbonate of magnesia thus precipitated could not be freed
-from soda by washing. After an enormous quantity of hot distilled
-water had passed through it on the filter, the slight residue left by
-evaporation of the washings, still gave the soda tinge to flame.
-
-It is true that the trace of the soda compound thus retained might
-probably be washed out of the magnesia after its ignition, but the
-difficulty and tedium of the operation of washing the very voluminous
-precipitate, together with the expense attendant upon the necessity
-of using _pure_ carbonate of soda, to avoid the presence of silica,
-phosphoric acid, and other impurities, which, if present, would
-inevitably contaminate the magnesia, induced me to reject this method.
-In fact this method, which was formerly almost used universally by
-analysts for the _determination_ of magnesia is now rejected by them,
-except in some unavoidable cases.[16]
-
-[16] _H. Ross’s Handbuch_, last edition, 2, 33.
-
-The substitution of carbonate of ammonia for carbonate of soda is
-inadmissible with any regard to economy, on account of the existence
-of the soluble double sulphates of ammonia and magnesia. A trial was
-made to decompose sulphate of magnesia by mixing its anhydrous powder
-with a large quantity of carbonate of ammonia, and igniting, but the
-only trace of {200} decomposition which appeared was a slight alkaline
-re-action of the aqueous solution of the mass.
-
-I must here mention an impurity which I have met with in commercial
-sulphate of magnesia, and this is a double sulphate of magnesia and
-potash, which occurs in small crystals, apparently rhombohedrons, among
-the rectangular prisms of the Epsom salt. It may probably be separable
-by recrystallization, though this, with sulphate of magnesia, is rather
-a difficult affair.
-
-The method which I adopted for preparing pure magnesia was the
-ignition of the nitrate prepared from the commercial _magnesia alba_.
-The impurities in the commercial carbonate which I made use of were
-sulphate and chloride, a surprisingly large quantity of silica, a trace
-of phosphoric acid easily detectable by molybdate of ammonia, oxide of
-iron, alumina, lime, alkalies and some organic matter. A small excess
-of this impure article was added to commercial nitric acid and the
-whole boiled; the silica, oxide of iron, alumina and phosphoric acid
-were thus separated by the excess of magnesia and the filtered solution
-contained no trace of either of them; the solution was slightly colored
-by organic matter.
-
-Either of two methods may now be adopted for separating the _lime_.
-
-One is to add a late excess of ammonia, then a little oxalic acid, and
-filter. To this method, besides the expense of so large a quantity
-of _pure_ ammonia the necessity of the subsequent decomposition and
-expulsion by heat of the very large quantity of nitrate of ammonia
-formed is a serious objection.
-
-Unsuccessful attempts were made to separate the lime by adding oxalic
-acid immediately to the neutral solution of nitrate of magnesia. It was
-found upon experiment that oxalate of lime is somewhat soluble in a
-solution of nitrate of magnesia.
-
-The other method, which is preferable, consists in adding to the
-solution a little sulphate of magnesia, and then a quantity of alcohol,
-but not enough of the latter to produce any immediate precipitation.
-If a precipitate is formed immediately, {201} water is added, for,
-singularly enough, it was found that the liquid filtered from this
-first precipitate still contained lime. In the course of time the
-sulphate of lime separates in the form of small crystals.
-
-The filtered liquid is now evaporated in porcelain dishes, and the
-residue transferred to porcelain crucibles, or still better, to
-platinum dishes, and the nitric acid expelled by a gentle heat. By
-a slight modification I have succeeded in shortening this operation
-very much, that is by adding, from time to time, powdered carbonate
-of ammonia to the mass, and stirring with a glass rod, or a platinum
-spatula. When no more red gases are evolved the heat is raised to
-redness for a few minutes. The mass thus obtained requires washing with
-pure water to separate alkaline salts and some sulphate of magnesia
-which it still contains.
-
-Magnesia thus prepared was found, by a most rigid qualitative analysis,
-to be perfectly pure. I am aware, however, that the process is a
-troublesome one, and it is very much to be desired that some one would
-present us with a simple and direct process of obtaining pure magnesia
-from the sulphate.
-
-
-ON TINCTURE OF IPECACUANHA.
-
-BY G. F. LEROY, OF BRUSSELS.
-
-Officinal preparations during reposition or preservation, when
-placed in situations proper to preserve them from all changes, yet
-undergo such important modifications, that the pharmaceutist is
-frequently obliged to reject them as worthless. We are accustomed to
-consider alcoholic tinctures, by reason of the vehicle used in their
-preparation, as amongst the most stable of officinal preparations; and
-therefore very few {202} pharmacologists have observed the changes
-they undergo. Amongst those whose attention has been drawn to the
-subject, I may particularly cite: 1st, Baumé, who has remarked that
-tincture of saffron deposits a substance analagous to amber.—(_Elements
-of Pharmacy_, 2d _ed._ 1789.)
-
-2nd. Guibourt, who presented to the Academy of Medicine at Paris, some
-observations on the changes in its composition which tincture of iodine
-undergoes according to the time when it was prepared, (year 1846.)
-
-3rd. Bastick, with the desire of ascertaining the nature of the changes
-to which alcoholic preparations are subject, placed various tinctures,
-during several months, in situations similar to those of a pharmacy,
-that is to say, exposed to a temperature varying from 60° to 80°
-Fahrenheit, in bottles half filled, and to which air was, from time to
-time, admitted.
-
-On examining them, some time afterwards, he found that most of them
-had undergone active fermentation in a greater or less degree, and
-that the alcohol had gradually become converted into acetic acid. The
-tinctures had generally lost their color and taste, and contained _a
-precipitate which was partially re-soluble_ in a proportion of alcohol
-corresponding to that which had been decomposed.—(_Pharmaceutical
-Journal and Transactions_, 1848.)
-
-The tinctures prepared with weak alcohol are the most subject to this
-species of change.
-
-4th. Tincture of kino changes so with time, that it passes from the
-liquid to the gelatinized state. This change even affords an excellent
-test when it is suspected that catechu may have been substituted for
-kino in this preparation.—(_Dorvault, Officine_, 1850, 3d. ed.)
-
-In general, pharmacologists consider that tinctures only deteriorate
-by the evaporation of the alcohol used in their preparation, and that
-this evaporation has the effect of concentrating them too much, and of
-giving rise to the precipitation of a part of the principles which were
-held in solution.
-
-I do not entirely concur in this opinion; on the contrary, I {203}
-believe that, in many cases, the precipitates which are formed in the
-tinctures, do not arise from the evaporation of a part of the vehicle,
-but from a modification which takes place in a part of the principles
-held in solution, and which, becoming less soluble, or even insoluble,
-are precipitated.
-
-Amongst these precipitates I shall place that which is almost uniformly
-found in tincture of ipecacuanha.
-
-Druggists generally are aware that this tincture, shortly after its
-preparation, throws down a deposite of a yellowish white color, very
-light, and increasing daily; that when separated by filtration a new
-deposit immediately commences, and recourse must again be had to
-filtering.
-
-It is only after three or four filterings, at intervals of five
-or six weeks, that the formation of this deposit can be arrested.
-In the course of July of this year, I prepared from the _Belgian
-Pharmacopœia_, some tincture of ipecacuanha, to be used in the
-preparation of some syrup of the same.
-
-Desiring to follow the different phases which it presents, and to
-study, as far as possible, the nature of the precipitate formed in
-it, (for as yet I believe that no research has been directed to this
-subject.) I took advantage of the opportunity which this preparation
-afforded me.
-
-About six weeks after its preparation, this tincture contained a
-deposit which was yellowish white, tolerably abundant, very light, and
-rising on being shaken.
-
-I again suffered the precipitate to form, and after some days, I
-decanted the clear liquor, and threw the deposit on a filter. I
-afterwards mixed the decanted liquors and that which was filtered, in a
-bottle.
-
-The precipitate remaining on the filter, I repeatedly washed. I put it
-to dry spontaneously, but perceiving, after twenty-four hours, that
-it was becoming the prey of a number of little cryptogami, formed in
-the same manner as in animal gelatine which dries slowly in the air, I
-hastened the desication by carrying the filter into a medium of from
-30° to 35° centigrade. {204}
-
-This deposit, during the process of drying, loses its hydrogen, changes
-color, becoming reddish brown, and is slightly translucid, when very
-dry it is friable.
-
-The quantity obtained in this first filtering, weighed 5 grains of
-the Netherland weights, or 0,3250 milligrammes; from an ounce or 32
-grammes of roots, employed towards the end of October, I again saved
-the deposit which was formed: it weighed 1 grain, Netherland, or 0,065
-milligrammes.
-
-At present, at the end of November, a third deposition is taking place,
-and will be collected to be added to the others.
-
-During the whole time the tincture had no effect either upon blue or
-red litmus paper.
-
-_Physical properties._ The precipitate is solid, friable, of a reddish
-color, slightly translucent, without taste.
-
-_Chemical properties._ Ether, alcohol, water, cold or boiling, have no
-action upon it; dilute hydrochloric, sulphuric and nitric acids, have
-no action when cold. Concentrated nitric acid, when cold, produces no
-effect upon it, but if heated to ebullition it attacks it actively,
-becoming of a brownish red color. Put in a glass tube closed by one
-only of its extremities, the other being furnished with two pieces
-of litmus paper, the one becomes blue, the other red. If the tube is
-placed in the flame of a spirit lamp, in a few instants the matter
-swells and the reddened paper becomes again blue.
-
-Placed on a slip of platina, and exposed to the flame of a spirit lamp,
-it swells, giving out a strong odor of burnt animal matter; it burns
-without flame and leaves a white ash. This ash treated by reagents, has
-the characteristics of lime.
-
-As may be seen by this short exposition, the deposit is by no means a
-product resulting from the evaporation of a part of the alcohol, which
-holds in solution the principles that are deposited, but a particular
-organic matter united to lime, which is formed at the expense of the
-azotized principle contained in the roots of the ipecac. What is the
-azotised principle which concurs in the formation of this substance?
-Certainly it is not one {205} of those which are commonly met with in
-vegetables, otherwise the phenomenon which is observed in the tincture
-of ipecac would be observed in the tinctures made with the other
-roots. Is it the emetine which is decomposed? If that be the case, the
-tincture of ipecac would be considered rightly an uncertain preparation.
-
-From the character assigned by M. Willigh to his ipecacuan acid,
-as well as to the tribasic salt of lead, (Journal de Chimie et de
-Pharmacie, Octobre, 1851,) it will be readily understood, how I at
-first thought, without, however, having made any serious researches,
-that it might be this acid united with the lime, to which the
-precipitate was owing. But the analysis made by that chemist, which
-denotes the absence of nitrogen in its composition, does not permit us
-to entertain this idea.
-
-As will readily be perceived, my researches are far from complete, as I
-had not a sufficient quantity of the precipitate at my disposition. But
-while waiting to complete them, I did not wish to delay acquainting the
-learned world with a fact which appears to me extraordinary and until
-now unique, and at the same time to call to it the attention of those
-better situated than myself to pursue such researches.—_Presse Medicale
-Belge._
-
-
-ON THE MODE OF ASCERTAINING THE PURITY OF ESSENTIAL OIL OF BITTER
-ALMONDS.
-
-Mr. Redwood laid before the meeting some samples of _oil of bitter
-almonds_, prepared by different makers, together with the results of
-experiments he had made with the view of ascertaining whether or not
-they had been subjected to adulteration.
-
-He stated, that his attention had been directed to the subject by more
-than one of the dealers in this article, in consequence of its having
-been represented that some of the samples had {206} been adulterated
-with alcohol, an inference which had been drawn from the fact that the
-suspected samples had a much lower specific gravity than others met
-with in commerce.
-
-He had been furnished with five samples from different makers, the
-specific gravities of which were as follows:―
-
- 1.   1052.4
- 2.   1055.2
- 3.   1067.
- 4.   1081.
- 5.   1082.2
-
-The merchants having no better mode of testing the quality of this
-oil than by its flavor, its specific gravity, and other physical
-characters, it was important to ascertain what reliance could be placed
-on this class of observations. It was well known that spirit was
-sometimes mixed with it, the effect of which would be to reduce its
-specific gravity, and this addition, to the extent to which it would be
-likely to be made, would not impair the flavor of the oil, or alter its
-sensible characters in any other way than is above stated. The light
-oils were, therefore, very naturally suspected to have been reduced
-with alcohol.
-
-The experiments he had made in reference to this subject had fully
-satisfied him that the specific gravity of essential oil of bitter
-almonds, within certain limits, could not be relied on as affording
-evidence of purity or adulteration. The specimens on the table, to
-which he had already referred, although differing in specific gravity
-to the extent of nearly thirty grains in the thousand grain-measures,
-he believed to be all free from adulteration.
-
-Before describing the tests which he had found to afford the most
-satisfactory indications, he described the proximate constituents of
-the crude oil, which vary considerably in proportion in different
-samples, and hence the differences in density and in some of the
-properties of the oil.
-
-According to Liebig and Gregory, crude oil of bitter almonds consists
-of _hyduret of benzoyle_, _hydrocyanic acid_, _benzoic acid_, and
-_benzoine_, and these probably are not its only constituents. Of these
-the two first may be said to be essential constituents, and the others
-accidental, being the result of changes which {207} the hyduret of
-benzoyle, or true oil of bitter almonds, undergoes.
-
-The _hyduret of benzoyle_ has the ordinary characters of an essential
-oil. When pure it is a colorless, transparent liquid, the specific
-gravity of which is 1043. It possesses the peculiar almond flavor, and
-is not poisonous. This, which is the true oil of bitter almonds, ought
-to constitute about eighty-five or ninety per cent. of the crude oil.
-When oil of vitriol is added to pure hyduret of benzoyle the mixture
-acquires a dark reddish brown color, but no other visible change takes
-place.
-
-If the hyduret of benzoyle be exposed to the air it speedily becomes
-oxidized, and by the substitution of an atom of oxygen for one of
-hydrogen it is converted into benzoic acid. The _benzoic acid_ present
-in oil of bitter almonds is the result of this transformation, and
-sometimes it occurs to such an extent that it is deposited from the
-oil in crystals. Benzoic acid is not colored by the action of oil of
-vitriol.
-
-_Benzoine_ is also a product of a remarkable change which hyduret of
-benzoyle, when mixed with hydrocyanic acid, is liable to undergo. Like
-benzoic acid, it is a solid crystalline body, but unlike benzoic acid,
-when mixed with oil of vitriol, it forms a violet colored compound.
-
-The characters and properties of _hydrocyanic acid_ are too well known
-to require notice. It is this constituent, which is sometimes present
-to the extent of eight or ten per cent., that gives to oil of bitter
-almonds its poisonous properties.
-
-In examining oil of bitter almonds, with the view of determining
-whether it be pure or not, it is necessary to consider the influence on
-the action of the reagents employed, of variations in the number and
-proportions of the several constituents present. This is especially the
-case with reference to the use of oil of vitriol as a test.
-
-On adding _oil of vitriol_ to the samples of oil under notice, it was
-found that it formed with all of them a clear but very dark colored
-mature, from which no separation took place. The color of the mixture
-thus produced, however, differed to a {208} greater or less extent in
-each case. The lightest of the oils produced a reddish-brown color,
-similar to that afforded by pure hyduret of benzoyle, while the
-heaviest oil formed a bright red mixture, having a shade of violet, and
-those of intermediate density gave intermediate shades of color.
-
-These results, viewed in connection with the differences of density
-in the different specimens, were at first thought to indicate that
-the light specimens had some admixture foreign to the oil, but on
-examining the action of the test on pure hyduret of benzoyle and the
-other legitimate constituents of the crude oil, it was evident that
-such an inference could not be justly drawn, and, indeed, suspicion
-now seemed rather to attach to the heavy oil. Subsequent experiments,
-however, showed that the light oil distils at a lower temperature than
-the heavy, and that if the heaviest specimens were distilled with
-water, the first portions that passed over produced precisely the same
-reaction as the light specimens above referred to, while the last
-portions that passed over, and especially the oil obtained from the
-water by distilling it, after saturating it with common salt, produced
-with oil of vitriol a splendid crimson color, the purity and intensity
-of which could hardly be surpassed.
-
-It thus became pretty evident that the differences in the reaction
-of oil of vitriol with the different specimens of oil under notice,
-arose from variations in the circumstances under which the oils were
-distilled, and it seemed probable that the heavy oil had been obtained
-by distilling the almond cake with water, to which a large quantity of
-salt had been added, so as to raise the point of ebullition, while the
-light oil either was the product of a process in which less salt had
-been added to the water, or consisted of the first portions distilled.
-
-In order to obtain more satisfactory evidence of the absence of spirit,
-or other foreign substance, from these samples of oil, _nitric acid_
-was used as a test. If oil of bitter almonds be mixed with about twice
-its volume of nitric acid, of specific gravity 1.420, no immediate
-action occurs. The greater part of the oil floats over the surface
-of the acid, and, if the former be free {209} from adulteration, no
-change of color takes place within several hours in either; but after
-the lapse of three or four days crystals of benzoic acid will begin to
-be formed from the oxidation of the hyduret of benzoyle by the nitric
-acid, and these will increase in quantity until the whole becomes a
-solid mass of crystals, which will gradually assume a bright emerald
-green color. This reaction is very characteristic. If spirit be present
-in the oil to the extent of eight or ten per cent., the acid, after a
-few minutes, will begin to react upon this, and a violent effervescence
-will shortly ensue, accompanied by the disengagement of nitrous vapors.
-
-By using strong nitric acid, of specific gravity not less than 1.5, the
-presence of a very minute quantity of spirit may be detected. The pure
-oil, when mixed with an equal volume of this strong acid, forms a clear
-and uniform mixture, from which nothing separates, and which undergoes
-but a very slight change of color and no other visible alteration. The
-presence of two or three per cent. of spirit, however, is sufficient to
-cause a violent reaction and the disengagement of nitrous vapors.
-
-After trying several other reagents, the foregoing were those which
-were found to afford the most satisfactory results, and appeared
-to be conclusive with regard to those adulterations, likely to be
-practised.—_Pharmaceutical Journal, London._
-
-
-ON HOFFMAN’S ANODYNE LIQUOR.
-
-BY WILLIAM PROCTER, JR.
-
-Perhaps in no preparation in general use does the practice of
-manufacturers, and the requirements of pharmacopœial authorities, more
-widely differ than in the compound spirit of {210} ether, universally
-known as Hoffman’s Anodyne Liquor. According to the United States and
-London Pharmacopœias it consists of three fluid drachms of heavy oil of
-wine (Oleum Ethereum, U. S. P.) dissolved in a mixture of eight fluid
-ounces of ether and sixteen fluid ounces of alcohol. The Edinburgh
-Pharmacopœia has only the simple spirit of ether, without the oil of
-wine, whilst the Dublin Pharmacopœia of 1850 under the name of Spiritus
-Æthereus Oleosus, gives the following formula, which includes the
-preparation of the oil of wine and its subsequent solution, to make the
-anodyne:—Mix a pint of alcohol and a pint and a half of oil of vitriol
-in a glass matrass, adapt a Liebig’s condenser, and by heat distil
-until a black froth rises. Separate the lighter etherial liquid in the
-receiver, expose it for 24 hours in a capsule, wash the residual oil
-with water, and dissolve it in a mixture of five fluid ounces of ether,
-and ten fluid ounces of alcohol. In France, Hoffman’s anodyne consists
-of equal parts of ether and alcohol, without oil of wine.
-
-Owing to the careless or intentionally mystified manner of expressing
-himself, it is impossible now to ascertain whether the original
-preparation of Hoffman (published in 1732) was constant in its
-strength, as now recommended by the Pharmacopœia. Beaumé, (as quoted
-in Macquer’s Chem. Dict., London, 1771,) says, in speaking of the
-rectification of sulphuric ether, “By distilling the liquor in the
-first receiver, together with a very small quantity of oil of tartar,
-by a very gentle heat of a lamp furnace, about two pounds and four
-ounces of pure ether may be obtained; and afterwards, when a new
-receiver is adapted, and a stronger heat applied, from eight to ten
-ounces of aromatic liquor, which makes a good _anodyne mineral liquor
-of Hoffman_, will be distilled.”
-
-The third edition of Lewis’ Dispensatory, published at Dublin, 1768,
-has the following formula for this preparation, which appears to be
-what the apothecaries of that day employed:―
-
-
-“_Hoffman’s Mineral Anodyne Liquor._”
-
- Into half a pound of concentrated oil of vitriol, placed in a {211}
- large glass retort, pour by little and little, through a long stemmed
- funnel, one pint and a half of highly rectified spirit of wine. Stop
- the mouth of the retort, digest for some days, and then distil with
- a very gentle heat. At first a fragrant spirit of wine will arise;
- and after it a more fragrant volatile spirit, to be caught in a fresh
- receiver. The receiver being again changed, a sulphurous, volatile,
- acid phlegm comes over, and at length a _sweet oil of vitriol_, which
- should be immediately separated, lest it be absorbed by the phlegm.
- Mix the first and second spirits together, and in [every] two ounces
- of this mixture dissolve twelve drops of the sweet oil. If the liquor
- has any sulphurous smell, re-distil it from a little salt of tartar.
-
- “Whether this is the exact preparation, so much recommended and so
- often prescribed by Hoffman as an anodyne and anti-spasmodic, we
- cannot determine. We learn from his own writings that his anodyne
- liquor was composed of the dulcified spirit of vitriol, [crude ether]
- and the aromatic oil which rises after it; but not in what proportions
- he mixed them together. The College of Wirtemburg seems to think that
- all the oil was mixed with all the spirit obtained in one operation
- without regard to the precise quantities.”
-
-The product of this recipe must have been analogous to the present
-officinal spirit, the formula for which is evidently modeled after it.
-The great excess of alcohol distills over first, until the boiling
-point rises to the ether producing temperature, when ether is obtained,
-and finally the sulphurous oily product. The recipe gives no direction
-to isolate the oil of wine before measuring it, which is perhaps less
-necessary, as the ethereal part of the distillate is removed previously
-to the production of the oil which is found in the receiver in
-globules, and not in solution.
-
-The process now adopted by the manufacturers in this city, avoids the
-isolation of the oil of wine, and from the nature of the conditions
-the product is liable to vary in the proportions of its ingredients,
-not only in different laboratories, but at different operations in
-the same laboratory. In the preparation of ether it is usual in this
-city to push the process as far as {212} possible, as long as the
-residue is not so concentrated as to eliminate much permanent gas.
-In the rectification of this first crude product, the distillate is
-reserved as rectified ether as long as its specific gravity marks 54°
-Beaumé, or there about. By continuing the process the product is found
-to consist of ether, alcohol and water, impregnated with oil of wine.
-Every one who has made ether, knows how very liable the product is to
-vary with an ill regulated heat; on the one hand unaltered alcohol will
-pass over, if the temperature is too low, whilst too great a heat,
-especially towards the last of the process, will favor the formation
-of oil of wine and sulphurous acid. This last distillate, therefore,
-will vary in composition, and it is from this that Hoffman’s anodyne
-is made in some of the best of our laboratories. _There is no known
-practicable method of ascertaining the per centage of heavy oil of wine
-in this liquid._ The means used by the manufacturer are founded on the
-sensible properties of an arbitrary standard specimen of Hoffman’s
-anodyne previously made, and on the degree of opalesence or milkiness
-it produces when added to a certain measure of water.—This milkiness is
-occasioned by the oil of wine present; but experience has shown that
-the degree of milkiness is not strictly in proportion to the quantity
-of oil present, the relative proportion of ether and alcohol, and
-perhaps water present in the anodyne liquid has a marked influence on
-the phenomenon; if too much alcohol, the milkiness is not produced, or
-but partially; if too much ether, oily globules separate and float with
-but moderate opalescence. In converting this second etherial distillate
-into commercial Hoffman’s anodyne, the operator has to make several
-essays, sometimes adding water, sometimes alcohol or ether, until
-the taste, the smell, and the opalescence agree, as nearly as can be
-approached, with his standard specimen. In the process of rectification
-it is probable that at least a part of the heavy oil of wine is
-decomposed, with the production of the light oil or etherole, and that
-the commercial Hoffman’s anodyne differs in this respect, as well as in
-containing a much smaller proportion of oil of wine, from that of the
-Pharmacopœia. {213}
-
-To get a better idea of the preparation in use here, authentic
-specimens were obtained from four of our largest manufacturing
-chemists, and compared with compound spirit of ether made for the
-occasion strictly according to the United States Pharmacopœia. Their
-density was carefully taken with the 1000 grs. bottle.
-
-                              specific
-                              gravity
-                              at 60° F.
- A, Wetherill & Brothers,     .8925
- B, Smith, Pemberton & Co.    .8723
- C, Rosengarten & Dennis,     .8495
- D, Powers & Weightman,       .8394
- E, U. S. Pharmacopœia        .8151
-
-Equal measures of each specimen and distilled water were mixed
-together; they all produced opaque milky liquids; globules of oil
-of wine soon separated from the mixture with E, and floated on the
-surface, while the liquid gradually lost its opacity as more of the
-oil arose. The mixture with D became less opaque by standing, a small
-portion of oil rising to the surface. The mixture with A, B and C
-retained their opacity without apparent separation of oil of wine, A
-being the most so.
-
-A was the mildest and least repulsive to the taste, because least
-ethereal. C was the next least ethereal, but had pungency not arising
-from ether. B was more ethereal than the preceding, notwithstanding
-its greater specific gravity. D was yet more charged with ether. E
-presented sensible properties differing from all the others, being more
-etherial and aromatic, but without a peculiar taste noticeable in the
-other specimens, more especially in C.
-
-When 2 1/2 fluid drachms of each specimen was shaken in graduated
-tubes with 60 grains of carbonate of potassa, they were de-hydrated
-somewhat in the ratio of their specific gravities. A and B dissolved
-the salt readily by a few minutes’ agitation, and the separated aqueous
-alkaline solution equalled a third of the bulk of the mixture. In C and
-D only about half of the salt was dissolved, whilst in E the salt was
-merely rendered pasty.
-
-To get an idea of the proportion of ether present in these {214}
-specimens, a solution of dry chloride of calcium in an equal weight
-of water, was made. Five parts of this solution was mixed with three
-parts of each of specimens of Hoffman’s anodyne, in tall tubular vials,
-corked, well agitated and allowed to stand for twelve hours. In A,
-B and C, no separation of ether occurred, but in each of them a few
-globules arose to the surface, consisting chiefly of light oil of wine.
-In D a stratum of ether holding oil of wine in solution, equal to one
-seventh of the bulk of the spirit used, or nearly half a part. Whilst
-in E the super-stratum of ether equalled one-third of the spirit used,
-and had a light yellow color, due to the oil of wine.
-
-These data will give an approximative idea of their compositions; it
-would appear that A was chiefly alcohol and water, with but little
-ether; that B contained almost as much water as A, but less alcohol
-and more ether; that C contained much less water than A or B, but less
-ether and more alcohol than B, and more ether and less alcohol than
-A; that D contained rather more water than C, but more ether and less
-alcohol than either of the preceding; and lastly that E contains more
-ether, and less alcohol and water than either of the others.
-
-In regard to the proportion of ethereal oil, the experiments give no
-positive clue. It would appear that B and D contained the most among
-the commercial specimens, and that D approaches nearest the composition
-of the officinal spirit, yet all of them when compared with the
-officinal are deficient in this ingredient.
-
-It must be apparent from these results, that the opacity of a mixture
-of Hoffman’s anodyne and water, is no index of the proportion of oil
-of wine the former contains, that property being dependent apparently
-on the state of combination in which the oil exists, nor would we
-pronounce on the medicinal value of the specimens, a task belonging
-to the physician. Whatever curative reputation the compound spirit of
-ether may have earned, certainly belongs to the commercial spirit, and
-not to that of the Pharmacopœia, which is not to be had in the shops.
-
-The exact nature of the liquid left after the rectification of {215}
-ether is an inquiry well worthy of further investigation. The alcohol
-of commerce is not a homogenous substance. Besides water, it contains
-odoriferous oily matter, produced in the original fermentation, and
-which is not wholly removed in the rectification of whiskey. This
-matter, modified by the action of sulphuric acid and heat, with the
-volatile substances generated during the ether process, are contained
-in it. It may also be that the ether in this residue is more intimately
-combined with water than in a mere mixture of water, alcohol, and ether
-of the same strength, as suggested to me by Mr. Pemberton.
-
-The question very naturally arises, why do not the manufacturers
-prepare the officinal Hoffman’s anodyne, or why do they not furnish
-the ethereal oil of the Pharmacopœia, that the apothecary may make
-it himself by simple mixing? There are several reasons. 1st, the
-apothecary, the physician, and to a large extent the consumer, have
-become accustomed to the present commercial preparation, and the
-majority, both of apothecaries and physicians, would reject the true
-officinal spirit, if presented to them, as not correctly made; 2d,
-druggists, as a general rule, would refuse to pay the greatly increased
-price, absolutely required to remunerate the manufacturer, for the
-greater consumption of time and materials, and increased skill and risk
-in manipulation. Having, on several occasions, prepared the officinal
-oil of wine and Hoffman’s anodyne, I can corroborate the statements
-of Mr. Kent, at p. 255, relative to the small yield, and consequent
-costliness of officinal heavy oil of wine. The so-called oil of wine,
-which is imported into this city from England, and which is sometimes
-employed for making the officinal spirit, is an ethereal solution of
-etherole, one specimen yielding only seven per cent. of it. And 3d,
-in the preparation of ether, the residue left in the still after the
-rectification of the ether above 54° Beaumé, must either be thrown
-away, or converted to the only use to which it can be applied with
-advantage, viz., Hoffman’s anodyne. It is for this reason that the
-price of the commercial “anodyne” is so low, being about fifteen cents
-per pound. {216}
-
-It may become a question in the next revision of the Pharmacopœia,
-whether it would not be better to reconstruct the formula for compound
-spirit of ether, somewhat on the plan of the manufacturers, or that
-quoted at page 213, from Lewis’s Dispensatory, so as to render it more
-practicable and likely to be followed. Of course it should be done with
-due consideration of the difficulties involved in the production of a
-spirit of uniform strength.—_American Journal of Pharmacy._
-
-
-ON GUTTA TABAN.
-
-BY BERTHOLD SEEMANN.
-
-The Taban (_Isonandra Gutta_, Hook.), which was formerly so plentiful
-[in Singapore], has long since been extinct. A few isolated trees may
-here and there occur, but they are very scarce, and I have not been
-able to obtain even the sight of one. Several of the white residents
-keep in their gardens as a curiosity, a plant or two, but they grow
-very slowly. It must ever be an object of regret, that on the first
-introduction of the Taban gum, its proper name was not promulgated.
-Now everybody in Europe and America speaks of Gutta Percha, when, in
-fact, all the time they mean the Gutta Taban. The substance termed by
-the Malays “Gutta Percha” is not the produce of the _Isonandra Gutta_,
-Hook., but that of a botanically unknown tree, a species of _Ficus_, I
-am told. The confusion of these two names has become a popular error—an
-error which science will have to rectify.
-
-The exportation of the indigenous Gutta Taban from Singapore commenced
-in 1844, but as early as the end of 1847, all, {217} or at least
-most, of the trees had been exterminated. That at present shipped from
-the place, is brought in coasting vessels from the different ports of
-Borneo, Sumatra, the Malayan peninsula, and Jahore Archipelago.[17]
-The difference existing in its appearance and property is owing to
-the intermixture of Gutta Percha, Jelotong, Gegrek, Litchu, and
-other inferior Guttas, made by the natives in order to increase the
-weight.—Though far from being extinct in the Indian Archipelago,
-Gutta Taban will every year be more difficult to obtain, as the coast
-region is said to be pretty well cleared, and a long transport from
-the interior must, by augmenting the labor, increase the value of the
-article.
-
-[17]
-
-“The total export of Gutta Taban from Singapore has been:―
-
- In 1844                           1 picul
- In 1845                         169 picul
- In 1846                       5,364 picul
- In 1847                       9,296 picul
- In 1848 to the 1st of July    6,768 picul
-                                ────
-         Total                21,598 piculs.
-
-valued at 274,190 Spanish dollars. About 270,000 trees have probably
-been felled during the three and a half years that the trade has
-existed, and the value of each tree has thus on an average, been about
-a dollar.”—J. R. Logan, “_On the Range of the Gutta Taban Collectors,
-and present Amount of Import into Singapore_.” Mr. Logan has promised
-an article on the various substances intermixed with the Taban, a
-subject of the highest interest; but he has hitherto disappointed his
-readers.
-
-A few months after the publication of your first account of the
-plant, in January, 1847, an article on the same subject appeared in
-the _Journal of the Indian Archipelago_, by one of its most able
-contributors, Dr. T. Oxley. As that article contains many statements
-not contained in yours, and as it may possibly have escaped your
-notice, I shall make a few extracts from it.
-
- “The Gutta Taban tree belongs to the natural order _Sapotaceæ_,
- but differs so much from all described genera, that I am inclined
- to consider it a new one. I shall, therefore, endeavor to give its
- general character, leaving the honor of naming it to a more competent
- botanist, especially as, from want of {218} complete specimens, I have
- not quite satisfied myself regarding the stamens and fruit.
-
- “The tree is from sixty to seventy feet high, from two to three feet
- in diameter. In its general aspect it resembles the Durian (_Durio
- Zibethinus_, Linn.), so much so as to strike the most superficial
- observer. The leaves are alternate, obovate-lanceolate, entire,
- coriaceous, their upper surface is of a pale green, and their under
- surface covered with a close, short, reddish-brown hair. The flowers
- are axillary, from one to three in the axils, supported on short
- curved pedicels, and numerous along the extremities of the branches.
- The calyx is inferior, persistent coriaceous, divided into six sepals,
- which are arranged in double series. The corolla is monopetalous,
- hypogenous, and divided, like the calyx, into six acuminate segments.
- The stamens, inserted into the throat of the corolla, are in a single
- series, and variable in number, but to the best of my observation,
- their normal number is twelve; they are most generally all fertile.
- The anthers are supported on slender bent filaments, and open by two
- lateral pores. The ovary is superior, terminated by a long single
- style, and six-celled; the cells are monospermous. The fruit is
- unknown to me.
-
- “Only a short time ago the Taban tree was tolerably abundant on the
- Island of Singapore, but already, (middle of 1847) all the large
- timber has been felled. Its geographical range, however, appears to
- be considerable, it being found all up the Malayan peninsula, as far
- as Penang, where I have ascertained it to be plentiful. Its favorite
- localities are the alluvial tracts on the foot of hills, where it
- forms the principal portion of the jungle.
-
- “The quantity of solid gutta obtained from each tree varies from
- five to twenty catties, so that, taking the average of ten catties,
- which is a tolerably liberal one, it will require the destruction
- of ten trees to produce one picul. Now, the quantity exported from
- Singapore to Europe, from the 1st of January, 1845, to the middle of
- 1847, amounted to 6,918 piculs, to obtain {219} which, 69,180 trees
- must have been sacrificed! How much better would it be to adopt the
- method of tapping the tree practised by the Burmese, in obtaining the
- caoutchouc, than to continue the present process of extermination.”[18]
-
-[18] T. Oxley, in the _Journal of the Indian Archipelago_, vol. i, p.
-22–30.
-
-A mercantile house in Singapore lately received from Manilla a gum
-which was supposed by those who sent it to be Gutta Taban, but
-proved a different substance. It was accompanied by specimens of
-the tree producing it, and a note stating that the gum abounded in
-the Philippine Islands. As it will probably make its appearance in
-England, and perhaps become of some importance, I may add that those
-specimens presented to me by the merchant, belong to the genus _Ficus_;
-but whether to a new or an already described species, want of books
-prevented me from determining.—_Hooker’s Jour. of Botany._
-
-
-ON GAMBIR.
-
-BY BERTHOLD SEEMAN.
-
-Black pepper (_Piper Nigrum_, Linn.) and Gambir (_Uncaria Gambir_,
-Roxb.) are grown in great quantities [in Singapore], and exclusively
-by the Chinese, for both these articles are so exceedingly cheap,
-that Europeans have not deemed it worth their while to engage in the
-speculation. Pepper and Gambir plantations are always combined, because
-the refuse of the gambir leaves serve as an excellent manure for the
-pepper; and moreover, what is of equal, if not greater importance,
-kills the Lalang, (_Andropogon caricosus_, Linn.), a plant which, like
-the couch-grass (_Triticum repens_, Linn.), spreads with astonishing
-rapidity over the fields, growing so close together and so high, that
-within a short spate of time valuable plantations {220} are rendered
-useless, and many have to be given up from the utter impossibility of
-freeing the ground from this weed.
-
-The process by which gambir is extracted and prepared is simple. The
-leaves are boiled in water, until all their astringent property is
-extracted. The decoction is then poured into another vessel, in which
-it becomes inspissated, and, when nearly dry, is cut in small square
-pieces, and thus brought into the market. M’Culloch states that sago
-is used in thickening it. This, however, at least in Singapore, is not
-the case; but, instead of sago, a piece of wood is dipped into the
-vessel, by which the desired effect is produced. It must, indeed, be
-an extraordinary substance, the mere dipping of which into the fluid
-can cause it to become a thickened mass. I was very eager to obtain a
-piece of this wood; unluckily, the Chinaman whose laboratory I visited,
-could not be persuaded to part with his, and a friend of mine, who was
-exerting himself to procure a sample, had not succeeded at the time of
-the Herald’s departure: he promised, however, to send it to England,
-accompanied by the Malayan name, and specimens of the tree.—_Hooker’s
-Journal of Botany._
-
-
-ON THE GALBANUM PLANT.
-
-BY F. A. BUSHE.
-
-The author states, that in his travels in Persia he discovered the
-plant which yields galbanum. In June, 1848, he found it on the
-declivities of the Demawend. It is a ferula, from the stalks of
-which a liquid issues abundantly, by the odor and nature of which he
-immediately recognised galbanum, and his guides assured him, moreover,
-that galbanum is gathered from this plant. The author has not yet
-distinctly determined {221} the plant. It appears to differ from
-_Ferula erubescens_ (_Annales des Sciences_, iii., Sér. 1844, p. 316,)
-only by the absence of commissural vitæ; but as neither Aucher-Eloy,
-nor Kotschy, who have both collected the Ferula erubescens, make any
-mention of its yielding galbanum, the author is in doubt whether his
-plant be the same, or a variety of it. Don’s genus galbanum (Trib.
-Sibrinæ) and Lindley’s Opaïdia (Trib. Smyrneæ) do not agree with the
-plant seen by Bushe, unless that both of these authors have made their
-descriptions from imperfect fruits, or that there exist other plants
-which yield galbanum.—The plant which Bushe describes is called in
-some parts of Persia, _Khassuch_, (not _Kasneh_, which means Cichor
-intybus, nor Gäshnis, which is Coriand. sativum), and appears to be
-confined to certain districts of Persia. In the whole large district
-of the Elburs-chain, from the south-east angle to the south-west
-angle of the Caspian Sea, it is only found in the neighborhood of the
-Demawend; but here at an elevation of from 4000 to 8000 feet, and even
-on the declivity of the top of the Demawend. It exists neither on the
-mountains of Talysch, nor in the districts of Karadagh and Tabris. It
-is said to re-appear on the Mount Alwend, near Hamadan, and in the
-neighborhood of the great salt desert. Near Hamadan Aucher-Eloy has
-gathered his Ferula erubescene, and this supports the supposition that
-the author’s plant is the same. In the salt desert itself Bushe did not
-meet with it again. The inhabitants of the Demawend collect the gum
-resin, which issues spontaneously from the lower part of the stalk;
-they do not make incisions in the plant; but it is not at this place
-that the galbanum is collected for commercial purposes. When fresh,
-the gum resin is white like milk, liquid, and somewhat glutinous. In
-the air it soon becomes yellow, elastic, and finally solid. The odor
-is rather strong, unpleasant, and similar to that of our commercial
-galbanum.—_Central Blatt_, für 1852, No. xiii.
-
-{222}
-
-
-EDITORIAL.
-
-
-THE PREVENTION AND CURE OF MANY CHRONIC DISEASES BY MOVEMENTS. An
-exposition of the principles and practice of these movements, for the
-correction of the tendencies to disease in infancy, childhood and
-youth, and for the cure of many morbid affections of adults. BY M.
-ROTH, M. D., London, 1851.
-
-Open quackery was at one time contented with the market-place and the
-stage; its merits and achievements were announced only by the lungs of
-its professors and their assistants. We have changed all that. Quackery
-has improved with the age. It has got possession of the newspapers,
-and forces its way in the pulpit; it has its colleges and graduates,
-it edits journals and writes books; but it has changed its form, not
-its spirit; at bottom it is as shameless, and lying and rediculous as
-ever. While its essence is eternal its form is constantly changing. A
-variety springs up, flourishes, attains its maturity, then dies away,
-to be replaced by another, or to be revived in a distant country or a
-future generation. The facilities of intercommunication afforded by
-railroad and steam vessels yield the same advantage to imposture and
-credulity, that they give to science and truth. We import nonsense and
-humbug as well as silks and dry goods. But as was observed on another
-occasion, home manufacture has sprung up, and we have become exporters
-as well as importers. Spiritual knocking are set off against Mesmerism;
-Thompsonianism is sent in exchange for Hygeia; native Sarsaparillas
-have driven the foreign from the market; Mormonism goes a long way
-to balance Homeopathy, while the “Great Harmonican,” in size, in
-pretension and in absurdity, is scarcely to be rivalled any where in
-the present age.
-
-The newest delusion that pretends to be a system, Kinesipathy, is,
-in the country of its origin, already several years old. It comes to
-us from Sweden, and recommends the treatment of diseases by means
-of various exercises, and above all, blows on different parts of
-the body. All these are set forth with the greatest gravity, and
-defined and commented on with as much precision as if the author was
-bringing forward a National Pharmacopœia. In the treatment of disease
-the motives, positions, and blows, are varied in the strangest, and
-often most ludicrous manner. Witness the following _prescription_
-for gonorrhea, which is complete except as the author states “some
-movements depending on particular circumstances.”
-
-1. “Percussion on the sacrum in the stride standing position.
-
-2. “Transversal chopping on the neck in the sitting position.
-
-3. “Pressure above the os pubis in the lying position, with elevated
-back, while the separated and bent legs are drawn towards the abdomen.
-Vibration of the perineum, in the same position.”
-
-“The treatment begins with percussing the sacrum, in the stride
-standing position, which in the first day or two not only allays and
-relieves the more violent inflammation and copious secretion, but also
-changes the whole state of the disease in such a manner, that the
-following treatment by movements, (different {223} according to the
-state of the patient,) produces an increased flow of arterial blood
-in the upper extremities, and the cure is very much accelerated. In
-the first stage, during which only moderate stitching pains, tension,
-and little secretion appears; the percussion on the sacrum alone is
-sufficient, if repeated three or four times daily. If the symptoms
-become more violent, and accompanied by chordee and pain during
-urinating, &c., then other movements are necessary, then make use of
-the transversal chopping of the neck, which acts strongly against the
-chordee, and of the pressure above the os pubis in the above mentioned
-lying position, which increases the venous absorption of the bladder
-and sexual organs, by its effect on the excited nerves of these parts.
-In the second period if the urinating is very difficult, the perineum
-swollen and painful, the discharge mixed with blood, and fever is
-present, then a more general treatment is necessary. To increase the
-more local absorption in the urethra, vibrations along the whole tract
-of the perineum from before backward are employed.”
-
-That percussion on the sacrum has long been known as a remedial measure
-in moral complaints we are perfectly aware, but that it was to become
-an article of materia medica is something new under the sun!
-
-Kinesipathy has not yet, we believe, been formally introduced into
-the United States, but we hear that a new set of quacks, who call
-themselves Psychologists, have adopted something from its rules, and
-are employing “percussions and flagellations” as one of their means for
-the cure of the various ills that flesh is heir too.
-
-After all some partial truth, long well known and acted on by the
-profession, as is the case in most successful quackeries, underlies
-Kinesipathy. Exercise and stimulation of the external surface, are
-in themselves exceedingly beneficial, and under the influence of a
-charlatan, patients will submit to a discipline, which if directed by a
-physician would never receive more than momentary attention.
-
-
-PHARMACY IN RICHMOND.—We are glad to see the following call to the
-Apothecaries of Richmond, in the July number of the American Journal
-of Pharmacy, and we hope that the example will be imitated in all our
-towns, in which the number of pharmaceutists is sufficient to form a
-society. Mutual association is the best means of promoting the true
-interests and standing of the profession.
-
-“The undersigned, believing that by friendly co-operation among
-themselves, their respectability will be increased; their standing in
-the community will become more elevated, faults in their profession
-be remedied, evils to which they are now subjected be removed;
-that their art may be more systematized, and better regulated; a
-more friendly feeling towards each other be excited amongst them,
-their mutual interests advanced, and the public good promoted; do
-most earnestly call upon their brethren, engaged in Pharmaceutical
-pursuits, to meet at the Gentlemen’s Parlor, Exchange Hotel, on Friday
-evening, 11th inst., at 8 o’clock, for the purpose of considering the
-advantages that would result to all of them, from the formation of
-some organized Association, that would have for its {224} object the
-above named desirable ends; as well as to encourage among themselves
-mutual improvement in the knowledge so necessary to a proper discharge
-of those duties, (both to themselves and the public,) which their
-situations as men occupying positions among the most responsible in
-life, impose upon them.
-
-As the organization which it is now proposed to form, would contemplate
-the good of all its Members, it is most earnestly hoped that all the
-Druggists and Apothecaries who feel any interest in this important
-subject, will cordially unite their intelligence and talents in
-an effort to accomplish the above named ends, and that the proper
-preliminary steps will be taken for the formation of a society of the
-Apothecaries in this city, which will prove beneficial to its members,
-an honor to their profession, and a credit to the city of Richmond.”
-
- ANDREW LESLIE,
- S. M. ZACHRISSON,
- PURCELL, LADD & CO.,
- SEABROOK &  REEVE,
- ADIE & GRAY,
- PEYTON, JOHNSTON & BRO.,
- H. BLAIR,
- CHAS. MILLSPAUGH,
- ALEX. DUVAL.
-
-_Richmond, June 8th, 1852._
-
-
-SUPPOSITORIES OF BUTTER OF CACAO.—Butter of cacao has of late been
-largely employed in the formation of suppositories, for which it is
-admirably adapted, by its consistence, and by the facility with which
-it becomes liquid at the temperature of the body. Some times a good
-deal of difficulty is encountered in incorporating it with laudanum,
-chloroform, extracts and solutions. In such cases M. Stanislas Martin
-recommends that the butter be first moulded in the desired form, and
-that then a cavity be formed in it, by means of an iron wire slightly
-warmed, sufficiently large to contain the prescribed medicine. The
-orifice can then be closed with a thin layer of the butter of cacao,
-formed by rubbing a morsel of it upon an iron spatula, or the blade of
-a knife slightly warmed in a spirit lamp.
-
-A number of the suppositories thus prepared beforehand, can be
-preserved in envelopes which serve them for a mould, these being
-removed only when they are about to be used.
-
-
-DELEGATES TO THE CONVENTION FOR 1852.
-
-At a meeting of the College of Pharmacy of the City of New York, held
-June 28th, Messrs. George D. Coggesshall, William Hegeman and L. S.
-Haskell, were elected Delegates from this College to the National
-Pharmaceutical Convention, to meet at Philadelphia, on the first Monday
-in October next. It was resolved that in case of any disability of
-either of their number to attend, the remaining delegates should be
-authorised to fill the vacancy.
-
-The re-issue of President Guthrie’s official call for the meeting of
-the Convention was expected in time for this number of the Journal,
-but has not been received. It will doubtless appear in our next with a
-further notice of this important subject.
-
-{225}
-
-
-
-
-NEW YORK
-
-JOURNAL OF PHARMACY.
-
-AUGUST, 1852.
-
-
-AMOUNT OF LOSS IN POWDERING VARIOUS DRUGS.
-
-The following results are from the mill returns of a drug house in this
-city. They show the actual loss incurred in powdering these different
-articles, and are, so far, of service by indicating the practical loss
-arising from the process.
-
-As the per centage of loss varies very much with the quantity subjected
-to the process, _ceteris paribus_, the quantities of each parcel are
-also given.
-
- -------------------+--------+----------++--------+----------++--------+----------++--------+----------
- SALTS, CRYSTALINE  |        |Percentage||        |Percentage||        |Percentage||        |Percentage
-  SUBSTANCES, &c.   |Quantity| of Loss  ||Quantity| of Loss  ||Quantity| of Loss  ||Quantity| of Loss
-                    +--------+----------++--------+----------++--------+----------++--------+----------
-                    |   lbs. |          ||   lbs. |          ||   lbs. |          ||   lbs. |
- Acid. Tartaric.    |   556  |   1.08   ||  1426  |   1.61   ||   723  |   1.38   ||   256  |   4.95
-                    |   554  |   1.44   ||        |          ||        |          ||        |
- Cobalt (Arsenic),  |   122  |   1.63   ||        |          ||        |          ||        |
- Aluminæ & Potassæ  |        |          ||        |          ||        |          ||        |
-   Sulph.           |    74  |   5.40   ||    49  |   6.12   ||        |          ||        |
- Ammoniæ Muriat.    |   202  |   8.41   ||        |          ||        |          ||        |
- Potassæ Nitrat.    |   500  |   3.98   ||   190  |   2.36   ||   500  |   1.80   ||    90  |   3.06
-                    |   300  |   8.17   ||        |          ||        |          ||        |
- ——— Sulphat.       |    63  |   1.59   ||    98  |   3.06   ||        |          ||        |
- ——— Bitartrat.     |  1166  |    .43   ||  2121  |    .47   ||  1007  |    .49   ||  1115  |    .44
-                    |  1115  |    .41   ||  1160  |    .52   ||  1116  |    .44   ||  2650  |    .37
-                    |  1068  |    .47   ||  1163  |    .43   ||  1155  |    .43   ||        |
- Sodæ Biborat.      |   110  |  20.91   ||    50  |  10.00   ||        |          ||        |
- Soap, Olive Oil,   |        |          ||        |          ||        |          ||        |
-   white,           |    62  |  33.33   ||        |          ||        |          ||        |
- VEGETABLE SUB-     |        |          ||        |          ||        |          ||        |
-   STANCES, BARKS.  |        |          ||        |          ||        |          ||        |
- Canella Alba,      |    67  |   4.48   ||    50  |   4.04   ||        |          ||        |
- Cassia,            |    30  |   5.00   ||    74  |   5.40   ||        |          ||        |
- Cinchona           |        |          ||        |          ||        |          ||        |
-   Maracaibo,       |   165  |   3.94   ||   174  |   4.25   ||   921  |   4.56   ||        |
- {226}              |        |          ||        |          ||        |          ||        |
-   Cinchona Flava,  |        |          ||        |          ||        |          ||        |
-     (Calisaya)     |   30   |   5.00   ||    47  |    4.25  ||    40  |    5.00  ||        |
-   ——— Rubra,       |   44   |   4.54   ||   160  |    4.05  ||    59  |    5.08  ||    96  |   4.66
-   Mezerion,        |   32   |   7.81   ||        |          ||        |          ||        |
-   Myrica Cerifera, |   85   |   3.53   ||    92  |    4.34  ||        |          ||        |
-   Prinos verticill.|   24   |   4.16   ||        |          ||        |          ||        |
-   Prunus Virginian.|   50   |   4.00   ||        |          ||        |          ||        |
- BERRIES.           |        |          ||        |          ||        |          ||        |
-   Capsicum,        |  166   |   3.67   ||    95  |    3.15  ||    64  |    4.69  ||    80  |   3.75
-   Cubeba,          |   68   |   4.32   ||    50  |    4.00  ||    79  |    3.77  ||    54  |   3.70
-                    |   92   |   3.26   ||        |          ||        |          ||        |
- GUMS AND RESINS.   |        |          ||        |          ||        |          ||        |
-   Aloes Soct,      |  220   |   7.27   ||   320  |    5.23  ||        |          ||        |
-   Acacia,          |  225   |   4.00   ||   217  |    3.64  ||   121  |    4.13  ||    75  |   4.69
-                    |   64   |   3.12   ||    93  |    3.76  ||    64  |    3.12  ||        |
-   Catechu,         |   70   |   4.28   ||    71  |    4.89  ||        |          ||        |
-   Euphorbium,      |   52   |   3.84   ||        |          ||        |          ||        |
-   Gambogia,        |   31   |   4.84   ||    38  |    3.89  ||        |          ||        |
-   Kino,            |   50   |   4.00   ||    44  |    3.41  ||    44  |    3.40  ||        |
-   Mastiche,        |   15   |   8.47   ||        |          ||        |          ||        |
-   Myrrha,          |  117   |   4.27   ||    35  |    5.71  ||        |    5.69  ||        |
-   Opium,           |   70   |   7.14   ||    75  |    6.66  ||   100  |    5.00  ||        |
-                    |   50   |   6.00   ||    61  |    8.94  ||    25  |    6.00  ||    95  |   8.42
-                    |   81   |   4.93   ||    63  |    6.72  ||   100  |    7.25  ||    75  |   6.00
-                    |  131   |   6.46   ||    62  |    6.78  ||    27  |    8.25  ||   155  |   5.63
-   Sanguis Draconis,|   10   |   5.00   ||        |          ||        |          ||        |
-   Scammonium       |        |          ||        |          ||        |          ||        |
-     Lachrym,       |   29   |   6.89   ||     9  |    8.33  ||    14  |    3.57  ||        |
-                    |   45   |   4.44   ||        |          ||        |          ||    35  |   2.86
-   Tragacantha,     |   30   |   5.00   ||    35  |    4.28  ||        |          ||        |
- HERBS.             |        |          ||        |          ||        |          ||        |
-   Aconite,         |   38   |   5.26   ||        |          ||        |          ||        |
-   Cicuta,          |   35   |   5.71   ||        |          ||        |          ||        |
-   Digitalis,       |   47   |   4.25   ||    32  |    4.34  ||    28  |    3.57  ||        |
-   Lobelia,         |   28   |   4.38   ||    34  |    4.61  ||        |          ||        |
-   Hyoscyamus,      |   40   |   8.75   ||        |          ||        |          ||        |
- FLOWERS.           |        |          ||        |          ||        |          ||        |
-   Arnica,          |   17   |   5.88   ||        |          ||        |          ||        |
-   Caryophyllus,    |   28   |   5.36   ||    55  |    2.72  ||    50  |    4.00  ||        |
-   Humulus,         |  268   |   4.10   ||   195  |    5.12  ||   222  |    3.80  ||   252  |   3.57
-                    |  218   |   4.11   ||   193  |    4.14  ||        |          ||        |
- FRUIT.             |        |          ||        |          ||        |          ||        |
-   Colocynth.[19]   |   26   |  65.38   ||    55  |   69.09  ||        |          ||        |
- LEAVES.            |        |          ||        |          ||        |          ||        |
-   Buchu,           |  104   |    .96   ||        |          ||        |          ||        |
-   Senna Alex.      |   41   |   3.61   ||    26  |    5.66  ||        |          ||        |
-   Senna Indic.     |   50   |   3.96   ||        |          ||        |          ||        |
-   Uva Ursi,        |   42   |   4.70   ||    50  |    4.00  ||        |          ||        |
- ROOTS.             |        |          ||        |          ||        |          ||        |
-   Calamus,         |   27   |   7.41   ||        |          ||        |          ||        |
- {227}              |        |          ||        |          ||        |          ||        |
-   Cimicifuga       |        |          ||        |          ||        |          ||        |
-     Racemosa,      |    69  |    4.34  ||        |          ||        |          ||        |
-   Colomba,         |   194  |    4.13  ||    95  |    2.52  ||    79  |    3.79  ||    94  |   4.25
-   Cucuma, ground,  |   650  |    3.08  ||        |          ||        |          ||        |
-   Gentiana, ground,|   227  |    2.20  ||   280  |    2.50  ||   149  |    2.68  ||        |
-   ——— powdered,    |    72  |    4.17  ||    71  |    4.22  ||        |          ||        |
-   Glyyrrh.         |   156  |    3.84  ||   145  |    4.13  ||    70  |    4.11  ||   313  |   4.15
-   Helleborus,      |    58  |    4.31  ||        |          ||        |          ||        |
-   Hydrastis canad. |    37  |    5.40  ||    50  |    5.00  ||        |          ||        |
-   Ictodes Fœtidus, |    25  |    4.00  ||        |          ||        |          ||        |
-   Inula,           |    50  |    4.00  ||        |          ||        |          ||        |
-   Ipecac.          |    99  |    4.44  ||    80  |    3.75  ||   109  |    4.13  ||    73  |   4.76
-                    |    96  |    4.17  ||   321  |    3.42  ||        |          ||        |
-   Iris Flor.       |   232  |    3.02  ||   138  |    3.62  ||        |          ||        |
-   Jalap,           |   141  |    4.52  ||   331  |    3.76  ||   193  |    4.39  ||   201  |   4.23
-                    |   271  |    3.13  ||        |          ||        |          ||        |
-   Rheum Indic.     |    96  |    4.16  ||    78  |    3.84  ||    75  |    4.00  ||    40  |   3.75
-                    |    96  |    4.14  ||    87  |    3.44  ||    98  |    3.57  ||   314  |   4.46
-   ——— Russicum,    |    28  |    3.57  ||    63  |    4.76  ||    30  |    4.17  ||        |
-   Sanguinaria,     |    50  |    3.96  ||        |          ||        |          ||        |
-   Salep,           |    67  |    6.66  ||    25  |    4.00  ||        |          ||        |
-   Scilla,          |    27  |   11.11  ||    81  |    6.17  ||    55  |    8.18  ||    40  |  13.12
-                    |    30  |   16.66  ||        |          ||        |          ||        |
-   Senega,          |    59  |    5.08  ||        |          ||        |          ||        |
-   Serpentara,      |    45  |    4.44  ||        |          ||        |          ||        |
-   Spigelia Marilan.|    52  |    4.76  ||        |          ||        |          ||        |
-   Valeriana,       |    47  |    4.24  ||        |          ||        |          ||        |
-   Zingib. Jam.     |   114  |    4.37  ||    58  |    5.17  ||   115  |    4.00  ||        |
- SEEDS.             |        |          ||        |          ||        |          ||        |
-   Anisum,          |    58  |    4.27  ||   102  |    2.94  ||        |          ||        |
-   Cardamomum,[20]  |    50  |   26.00  ||    61  |    4.92  ||        |          ||        |
-   Colchicum,       |    61  |    4.09  ||    37  |    4.00  ||        |          ||        |
-   Coriandrum,      |    99  |    2.02  ||        |          ||        |          ||        |
-   Linum, ground,   |   533  |     .93  ||        |     .81  ||        |          ||        |
-   Lobelia,         |    67  |    7.46  ||        |          ||        |          ||        |
-   Nux Vomica,      |   100  |    3.00  ||    52  |    3.84  ||    66  |    4.54  ||        |
- SUNDRIES.          |        |          ||        |          ||        |          ||        |
-   Cantharis,       |    68  |    4.41  ||    68  |    4.41  ||    65  |    3.82  ||   112  |   3.57
-                    |    39  |    3.79  ||    41  |    4.88  ||    53  |    6.00  ||    42  |   3.57
-   Ext. Colocynth.  |        |          ||        |          ||        |          ||        |
-          Comp.     |    33  |    4.57  ||        |          ||        |          ||        |
-   Ext. Glyyrrh.    |    50  |    4.08  ||   200  |    3.50  ||        |          ||        |
-   Ext. Jalap,      |    20  |    4.86  ||        |          ||        |          ||        |
-   Galla,           |    70  |    4.21  ||    73  |    4.11  ||    28  |    5.26  ||    56  |   3.54
-   Secale Cornut.   |    31  |    4.79  ||    29  |    5.08  ||    30  |    3.33  ||        |
- -------------------+--------+----------++--------+----------++--------+----------++--------+-------
-
-[19] This includes loss of Seeds.
-
-[20] Of this 21.00 is loss in Hulls.
-
-From the above results the following table, showing the average loss on
-each article, has been calculated:―
-
- ---------------------------+-------------
- {228}                      |   Average
-                            | per centage
-                            |   of Loss.
-                            +-------------
- SALTS, CRYSTALINE          |
-  SUBSTANCES, &c.           |
-   Acid, Tartaric           |     1.50
-   Cobalt (Arsenic)         |     1.63
-   Aluminæ et Potassæ,      |     5.76
-     sulphat. (calcined)    |
-   Ammoniæ Muriat.          |     8.41
-   Potassæ Nitrat.          |     2.80
-   ——— Sulphat.             |     2.37
-   ——— Bi-tartrat.          |      .45
-   Sodæ Bi-Borat.           |    15.45
-   Soap, Olive Oil, white   |    33.33
- VEGETABLE SUBSTANCES.      |
-         BARKS.             |
-   Cannella Alba            |     4.26
-   Cassia                   |     5.20
-   Cinchona Maracaibo       |     4.25
-   ——— Flava (Calisaya)     |     4.75
-   ——— Rubra                |     4.58
-   Mezerion                 |     7.81
-   Myrica Cerifera          |     3.98
-   Prinos Verticill.        |     4.16
-   Prunus Virginian.        |     4.00
- BERRIES.                   |
-   Capsicum                 |     3.81
-   Cubeba                   |     3.81
- GUMS AND RESINS.           |
-   Aloes Soct.              |     6.25
-   Acacia                   |     3.78
-   Catechu                  |     4.58
-   Euphorbium               |     3.84
-   Gambogia                 |     4.36
-   Kino                     |     3.60
-   Mastiche                 |     8.47
-   Myrrha                   |     3.15
-   Opium                    |     6.61
-   Sanguis Draconis         |     5.00
-   Scammonium Lachrym       |     5.22
-   Tragacantha              |     4.64
-   Spegelia Mariland.       |     4.76
- HERBS.                     |
-   Aconite                  |     5.26
-   Cicuta                   |     5.71
-   Digitalis                |     4.04
-   Lobelia                  |     4.49
-   Hyosciamus               |     8.75
- FLOWERS.                   |
-   Arnica                   |     5.88
-   Caryoph.                 |     4.03
-   Humulus                  |     4.14
- FRUIT.                     |
-   Colocynth.               |    67.23
- LEAVES.                    |
-   Buchu                    |      .96
-   Senna Alex.              |     4.63
-   ——— Ind.                 |     3.96
-   Uva Ursi                 |     4.35
- ROOTS.                     |
-   Calamus                  |     7.41
-   Cimicituga Racemosa      |     4.34
-   Colomba                  |     3.47
-   Curcuma ground,          |     3.08
-   Gentian. ground,         |     2.46
-   ——— powdered             |     2.20
-   Glyyrrh.                 |     4.06
-   Helleborus               |     4.31
-   Hydrastis Canad.         |     5.20
-   Iclodes Fœtidus          |     4.00
-   Inula                    |     4.00
-   Ipecacuanha              |     4.10
-   Iris Flor.               |     3.34
-   Jalap                    |     4.00
-   Rheum Indicum            |     3.91
-   ——— Russic.              |     4.17
-   Sanguinaria              |     3.96
-   Salep                    |     3.84
-   Scilla                   |     9.43
-   Senega                   |     5.08
-   Serpentaria              |     4.44
-   Lobelia                  |     7.46
- {229}                      |
-   Valerian.                |     4.24
-   Zingib. Jam.             |     4.51
- SEEDS.                     |
-   Anisum                   |     3.60
-   Cardamom.                |     4.92
-   Colchicum                |     4.05
-   Coriandrum               |     2.02
-   Linum (ground,)          |      .87
-   Nux Vomica               |     3.79
- SUNDRIES.                  |
-   Cantharis.               |     4.31
-   Ext. Coloc. comp.        |     4.54
-   Ext. Glyyrrh.            |     6.25
-   Ext. Jalap               |     4.87
-   Galla                    |     4.34
-   Secale Cornutum          |     4.39
-
-
-ON THE PREPARATIONS OF IRON USED IN MEDICINE.
-
-BY HENRY WURTZ.
-
-The preparations of iron being among the most important articles of
-the Pharmacopœia, it is surprising that so little attention is paid by
-many druggists and pharmaceutists to the preparation and preservation
-of these articles in a pure state. The greater part of the preparations
-of iron to be found in the shops are far from having the chemical
-composition indicated by their labels, and in fact, few of the formulas
-given in any of the Pharmacopœias for preparations of iron, are capable
-of giving even tolerably pure products.
-
-If there is any difference in a therapeutical point of view, between
-compounds of the protoxide and compounds of the peroxide of iron,
-and if any value is to be attached to definite composition in
-medicines, enabling physicians to administer _known quantities_ to
-their patients, this state of affairs should not exist. Persons who
-handle the compounds of protoxide of iron, should be aware of the fact
-that few substances are more speedily and completely destroyed than
-these by the action of {230} moist air; thus, one hundred parts of
-the _carbonate of iron_, require less than seven parts of oxygen for
-complete conversion into _sesquioxide of iron_, and one hundred parts
-of pure _copperas_ require less than _three_ parts of the same element
-to effect a like change in all the protoxide of iron which it contains.
-
-As these protoxide of iron compounds, however, oxydate themselves
-only in the presence of water, the mode of preservation which I would
-propose, is very simple: It is only necessary to dry them perfectly
-and to introduce into the vessels in which they are to be preserved,
-a few small lumps of _quicklime_, which will keep the air in the
-interior of the vessel continually dry. To prevent any contamination
-of the preparation by direct contact with the lime, the latter must be
-securely folded in one or two thicknesses of filtering paper.
-
-The iodide of iron and the carbonate, phosphate, arseniate, lactate
-and citrate of protoxide of iron may be preserved in this way, also
-the anhydrous sulphate (Ferri Sulphas Siccatum), but it is evident
-that _crystallized_ copperas would not retain a definite composition
-under these circumstances, because it would soon lose its crystal
-water. To preserve crystallized copperas, it is best to pulverize
-the crystals rather finely and dry the powder by repeatedly pressing
-strongly between folds of filtering paper, before putting up. Some have
-attempted to preserve the crystals under the surface of strong alcohol,
-but having tried this plan I must report unfavorably, for although
-the copperas remained for a while intact, yet, on examination after a
-considerable lapse of time, a large proportion of sesquioxide of iron
-was found. In fact, this result was to be anticipated in consideration
-of the well-known fact that strong alcohol has itself an attraction for
-oxygen, and always absorbs a certain amount of it when exposed to the
-air, serving thus merely as a medium for transmitting oxygen to any
-copperas which may be immersed in it.
-
-I think it may be confidently stated that none of the protoxide
-compounds of iron should be kept in solution, either in water or
-alcohol, for medical purposes, unless in vessels {231} hermetically
-closed. Some say, notwithstanding, that _iodide of iron_ in solution
-may be preserved by keeping in it a piece of metallic iron, a deposite
-being formed, however, in the liquid which is supposed to be nothing
-more than sesquioxide of iron, but in which I strongly suspect the
-presence of a _subiodide of iron_, and consequent abstraction of iodine
-from the solution. Of course, however, this question can only be
-settled by a chemical examination of the deposit alluded to.
-
-The sulphate of iron is the starting point in preparing all the
-compounds of iron which are used in medicine, and it is important
-therefore, to know how to separate easily the impurities which are
-contingent to this extremely cheap article of commerce. The impurities
-which commercial copperas most frequently contains are more or less
-sulphate of sesquioxide, together with a little sesquichloride of iron,
-and more rarely, traces of the sulphate of copperas, manganese, alumina
-and lime. A small addition of _oxide of silver_ to the solution will
-precipitate all chlorine present, and subsequent digestion for a few
-minutes with _carbonate of baryta_ will remove every trace of sulphate
-of sesquioxide of iron, and of alumina. Copper may, of course, be
-removed by immersion of metallic iron. Traces of lime may be separated
-by recrystallization, but if traces of _manganese_ are present, as is
-sometimes the case, I, know no way by which it can be separated. I am
-not aware, however, that the presence of such a trace of manganese in
-a preparation of iron would impair its therapeutical value. Another
-method of getting rid of the sulphate of sesquioxide is to acidulate
-the solution with sulphuric acid and, agitate with some pulverized
-_protosulphide of iron_, which will reduce the sesquioxide to protoxide.
-
-When a solution of pure sulphate of protoxide of iron, free from
-sesquioxide, merely is required for preparing the carbonate or other
-insoluble protocompound, the method with carbonate of baryta is to be
-preferred, and in some rare cases when the presence of sulphate of lime
-in the solution of copperas obtained is of no importance, carbonate
-of lime may be {232} substituted for carbonate of baryta, and will
-accomplish the same object.
-
-When a solution of pure protosulphate of iron thus obtained is used
-for the preparation of carbonate of iron, care must be taken to use
-for precipitating, a solution of carbonate of soda which is free from
-silica, phosphoric acid, etc., which if present would surely go down
-with the precipitate. The precipitated carbonate should be washed with
-water which has been freed from _air_ by previous boiling and better
-with water which is still boiling hot, dried as quickly as possible,
-first by pressure between folds of paper and then in a water bath,
-and preserved in well closed vessels containing lumps of quicklime as
-recommended above.
-
-The formulas given in the Pharmacopœias for the preparation of the
-sesquioxide of iron, which besides being employed as a remedy itself,
-is used in preparing all the other sesquicompounds of iron used in
-Pharmacy, appear to be open to great objection on the ground of
-affording, instead of a pure sesquioxide of iron, an _indefinite
-mixture_ of sesquioxide with carbonate of the protoxide. No necessity
-whatever exists for this; the following _modus operandi_, besides
-being much less troublesome in its execution than those given by the
-Pharmacopœias, will furnish a product of constant composition, being
-an anhydrous sesquioxide of iron free from protoxide, and either
-chemically pure or very nearly so. The materials required are, five
-parts of commercial copperas which has been recrystallized once or
-twice, six parts of crystallized pure carbonate of soda, (Na O, C O^2
-+ 10 HO) or two parts of dry carbonate of soda, and one part of
-nitrate of soda. (Chili saltpetre). The carbonate and nitrate of soda
-are dissolved together in one portion of hot water and the copperas
-in another portion, and the two solutions, after filtrating mixed
-together, evaporated to dryness and the dry mass exposed to the lowest
-possible red heat for a few minutes. On pouring water upon the mass
-thus obtained, sulphate of soda and nitrate of soda dissolve and
-sesquioxide of iron separates as a heavy powder very easily washed
-{233} by decantation. When thoroughly washed and dried it appears as
-a dark reddish brown _perfectly impalpable_ powder, which is perfectly
-and easily soluble in dilute acids, and even in acetic acid and the
-composition of which is Fe^2 O^3.
-
-One great advantage of this process, is an avoidance of the immense
-tedium of _washing the precipitates_ obtained in the ordinary processes.
-
-I have but one more suggestion to make with regard to preparations of
-iron, and that is in the preparation of _Ferri Pulvis_ or powder of
-iron by reduction of the sesquioxide—to propose the substitution of
-common coal gas as a reducing agent for the hydrogen gas directed by
-all the formulas, the former being obviously so vastly more convenient
-and far less expensive.
-
-
-NOTE ON THE PREPARATION OF BESTUCHEFF’S TINCTURE.
-
-BY FR. MAŸER.
-
-Pure sesqui-chloride and poto-chloride of iron are unknown to the
-Pharmacopœia of the United States, a fact which seems strange to
-a German pharmaceutist, since they are met with in every German
-dispensatory, and require great care for their proper preparation.
-
-The American Pharmacopœia indeed recognizes a tincture of chloride
-of iron, prepared by dissolving the sub-carbonate (sesqui oxide) of
-iron in hydrochloric acid, and adding alcohol. This tincture would
-be rejected throughout Germany, since they endeavor there to obtain
-the preparations of perchloride of iron free from any traces of
-sesqui-chloride, while those of the sesqui-chloride should contain no
-admixture of the proto salt. This shows the practical character of the
-American {234} Pharmacopœia, which does not demand of the apothecary a
-purity of preparation which it is next to impossible to meet.
-
-While making this acknowledgment, a good formula for the preparation
-of sesqui-chloride of iron still remains desirable.—This drug too, is
-sometimes used in American practice, as may be seen from the “Notes on
-Pharmacy,” by Mr. Benjamin Canavan, in the May number of the _New York
-Journal of Pharmacy_. Mr. Canavan has given one of the oldest formulæ
-from the Austrian Pharmacopœia of 1820, as found in the _Pharmacopie
-Universelle_ by Jourdan. This formula directs us to dissolve the iron
-in a kind of aqua regia, and then to evaporate the superfluous acid by
-means of a sand bath. The sesqui-chloride thus obtained is employed in
-the preparation of “Bestucheff’s tincture,” by dissolving one ounce of
-it in an ounce of water, adding twelve ounces of ether and agitating,
-then decanting the ethereal solution, and finally mixing it with four
-times its bulk of alcohol.
-
-Having had frequent occasion to prepare this tincture as well in
-Germany as in this city, it may not be unsuitable if I give here the
-formula for its preparation, which seems to me the most convenient, as
-well as my reasons for thinking so.
-
-The sesqui-chloride of iron may be obtained in a pure and neutral
-state, by passing a current of chlorine gas through a solution of
-proto-chloride of iron, until a solution of the red ferrocyanide of
-potassium of Gmelin no longer produces a blue precipitate, and then
-evaporating the solution by means of a water bath. In this manner the
-salt can readily be obtained in a crystalline form. One ounce of the
-crystals thus obtained is to be dissolved in twelve ounces of ether, if
-we retain the alleged proportions, mixed with four times its bulk of
-alcohol, and finally bleached by exposing it to the direct light of the
-sun.
-
-The Prussian Pharmacopœia of 1846 gives the following proportions:—One
-drachm of the sesqui-chloride of iron, or two drachms of the aqueous
-solution, one fluid ounce of ether, and three fluid ounces of alcohol.
-{235}
-
-Here we have to notice,—1st, That it is preferable to take ether and
-alcohol by weight rather than by measure, since their volume is very
-much influenced by the temperature, which may range from 32° to 60° or
-80.°
-
-2nd, That the sesqui-chloride, prepared with nitro-nuriatic acid, is
-not so easy to obtain in crystals, in consequence of the adhering
-nitro-nuriatic acid, which is always retained in small quantities. On
-the other hand, by drying the salt you will, in almost every case,
-spoil a quantity of it by driving off too much of the acid.
-
-3rd, That the sesqui-chloride of iron, if in crystals, is easily and
-wholly soluble in ether, while the aqueous solution of it is but
-partially so, a portion being decomposed, as is evidenced by the
-solution becoming muddy. The ethereal solution, if prepared in the last
-mentioned manner, must be of uncertain strength, which is avoided by
-the first.
-
-In Europe Bestucheff’s tincture is much used by physicians. It
-sometimes agrees better in the bleached state, sometimes when colored.
-When first prepared the tincture has a yellow hue, which it loses by
-exposure to the light of the sun. If, after it has thus been bleached,
-it is placed in a dark closet, it again becomes yellowish, though the
-color is not so deep as at first.
-
-
-ON SOCOTRINE ALOE JUICE, OR LIQUID SOCOTRINE ALOES.
-
-BY JONATHAN PEREIRA, M. D., F. R. S.,
-
-(Physician to the London Hospital.)
-
-It has long been known that the Socotrine aloes imported into England
-varies considerably in its consistency, and is sometimes met with in
-a soft or semi-fluid state. Frequently, on opening a package of this
-sort of aloes, the interior is found to {236} be quite soft, while the
-exterior is firm and hard. In general this arises from insufficient
-evaporation of the aloe juice.
-
-In the third edition of my _Elements of Materia Medica_, (vol. ii.,
-part 1, p. 1077, published in 1850,) I have briefly referred to a
-soft or semi-liquid Socotrine aloes, which had a bright or palm-oil
-yellow color and odor. At that time I had but little opportunity of
-investigating this very interesting drug; but a large importation of
-it having recently taken place, I have more fully examined it, and, as
-it appears to me to be the raw or unboiled juice of the plant yielding
-what is known in commerce as Socotrine aloes, I propose to distinguish
-it from the ordinary soft Socotrine aloes by the name of “_Socotrine
-Aloe Juice_.”
-
-Messrs. Horner, the holders of the whole of the present importation
-of this juice, inform me that it was purchased of the Arabs up the
-Red Sea, by a merchant, who was assured by the venders that it was
-very fine aloe juice, and had not been boiled or otherwise altered. It
-was imported into London by way of Madras, in casks each containing
-six cwt. I am informed that the contents of some of the packages have
-undergone decomposition during the voyage.
-
-Its consistence is that of treacle or very thin honey; its color deep
-orange or palm oil yellow; its odor powerful, fragrant, and resembling
-that of fine Socotrine aloes. By standing it separates into two
-parts,—an inferior, paler colored, opaque, finely granular portion,
-and a superior, darker colored, transparent liquid. The latter forms,
-however, a very small portion of the whole mass.
-
-When the granular portion is submitted to microscopic examination, it
-is found that the opacity and granular appearance arise from myriads of
-beautiful prismatic crystals. If a temperature of 132° Fah. be applied
-to the juice these crystals melt or dissolve, and the juice becomes
-deep red and transparent; and when the liquid becomes cold it retains
-its transparency, and does not deposit any crystals. By evaporation
-the juice yields a solid, transparent extract, having all the {237}
-characters of fine Socotrine aloes, in which no traces of crystalline
-texture can be discovered. Mr. Jacob Bell has ascertained that 14 lbs.
-of the juice yield 8lbs. 12ozs. of solid extract, or 62 1/2 per
-cent. when the juice is mixed with cold distilled water, it becomes
-opaque yellow, and renders the water turbid, but is not miscible with
-it. If, however, heat be applied, the juice dissolves in the water,
-forming an almost clear, rich red liquid. As the solution cools, it
-at first becomes turbid, owing to the separation of an opaque yellow
-precipitate, which, apparently, is the crystalline principle in an
-amorphous form. This gradually separates from the liquid and collects
-as a clear resiniform mass (commonly called the _resin_ of aloes) at
-the bottom of the vessel, leaving the supernatant liquid tolerably
-clear. If the juice be shaken up with rectified spirit of wine, an
-uniform clear mixture is obtained, from which numerous yellow crystals
-rapidly fall to the bottom of the liquid. Similar results are obtained
-when we mix the juice with equal parts of rectified spirit of wine and
-water.
-
-This crystalline constituent of Socotrine aloes is doubtless, either
-the _aloin_[21] described by Messrs. T. & H. Smith, of Edinburgh, and
-by Dr. Stenhouse, or a principle closely allied to it.
-
-Dr. Stenhouse, to whom I have given a sample of it, is now engaged in
-its investigation; and in a letter which I have received from him,
-he says, that though he has not been able to get the aloin ready for
-analysis, yet from the experiments he has already made with it, he has
-scarcely a doubt that it will be found identical with that formerly
-obtained from Barbados aloes. It forms, he adds, a precisely similar
-combination with bromine, and, in short, agrees with it in every
-particular; I shall, therefore, provisionally term this crystalline
-principle the _aloin of Socotrine aloes_. On comparing it with a fine
-specimen of aloin, kindly presented to me by Messrs. Smith, I find its
-crystals smaller and more tapering—the summits of the crystals being
-more acute.
-
-[21] See New York Journal of Pharmacy, No. vi. page 177.
-
-In drying, the crystals of the Socotrine aloin have a strong {238}
-tendency to break up; so that crystals which in the moist state
-are moderately large and regular, become small and pulverulent when
-dry. Like the aloin crystals of Messrs. Smith, the aloin crystals of
-Socotrine aloes, strongly doubly refract and depolarize light, and are,
-therefore, beautiful objects when viewed by the polarizing microscope.
-
-The crystals of aloin contained in Socotrine aloe juice cannot be
-confounded with the crystals of oxalate and phosphate of lime found
-in the juices of various plants, and which are called by botanists
-_raphides_. The appearance under the microscope of the former is very
-different from that of the latter. Moreover, the ready fusibility,
-solubility, and complete combustibility of aloin crystals easily
-distinguish them from the calcareous salts just referred to. On
-platinum foil the aloin burns without leaving any residue, except such
-as may arise from the presence of traces of some foreign matter.
-
-Aloin may be readily obtained from the juice by mixing the latter with
-spirit (either rectified or proof,) and collecting and drying the
-precipitate. When procured in this way it appears to the naked eye like
-a yellow powder; but when examined by the microscope it is found to
-consist of minute fragments of crystals.
-
-The tincture from which the aloin has been separated, yields by
-distillation a spirit having the fragrant odor of the juice; showing
-that the latter contains some volatile odorous principle. By
-evaporation the tincture yields a resiniform extract.
-
-In the first edition of my _Elements of Materia Medica_, published
-1840, I have stated, that by digesting hepatic aloes in rectified
-spirit of wine, a yellowish granular powder is obtained which is
-insoluble in [cold] water, alcohol, ether, and dilute sulphuric acid,
-but is readily soluble in a solution of caustic potash, forming a red
-colored liquid. The powder like residue here referred to, is identical
-with the aloin of Socotrine aloes. When examined by the microscope,
-it is perceived to consist of very minute prismatic crystals, which
-depolarize polarized light like the larger crystals of aloin above
-referred to. I {239} think, therefore, that it may be safely inferred
-that hepatic aloes has been prepared without the employment of
-artificial heat, and that its opacity is due to the presence of minute
-crystals of aloin.
-
-When Socotrine aloes is digested in rectified spirit, an insoluble
-portion is also obtained; but its color, instead of being yellow,
-as in hepatic aloes, is dark brown. On submitting this dark brown
-insoluble portion to microscopic examination, I find that it contains
-depolarizing crystals.
-
-Artificial Socotrine aloes (prepared by evaporating this aloe juice)
-also yields, when digested in rectified spirit, a dark brown insoluble
-portion.
-
-I think, therefore, that Socotrine aloes differs from hepatic aloes in
-the circumstance of its having been prepared by the aid of artificial
-heat; by which its aloin constituent has become altered. This inference
-is further substantiated by the fact, that after it has been melted,
-hepatic aloes is found to have acquired the clearness and transparency
-of the Socotrine sort.
-
-The clear supernatant portion of aloe juice, from which the above
-crystals have subsided, would probably also yield, by spontaneous
-evaporation, an extract resembling, or identical with, Socotrine aloes.
-
-That Socotrine and hepatic aloes were obtained from the same plant,
-and were not different species of aloes, I have long suspected; and
-in the first edition of my work on Materia Medica, published in 1840,
-I have observed that “the similarity of the odor of Socotrine and
-hepatic aloes leads to the suspicion that they are obtained from the
-same plant; and which is further confirmed by the two being sometimes
-brought over intermixed, the Socotrine occasionally forming a vein in a
-cask of the hepatic aloes.”
-
-The intermixture of the two sorts of aloes in the same cask might be
-explained by supposing that the consolidation of the clear portion of
-the juice has produced the so-called Socotrine aloes; while the opaque
-aloin containing portion of juice has yielded what is termed hepatic
-aloes. {240}
-
-In the third edition of my work above alluded to, I have stated that
-the name of _opaque liver-colored Socotrine aloes_ might with propriety
-be applied to hepatic aloes. But until the present time I have been
-unable to offer a plausible explanation of the cause of the difference
-in these two commercial kinds of aloes.
-
-From the preceding remarks I think we may infer:
-
-1. That _aloin_ pre-exists in a crystalline form in the juice of
-Socotrine aloes.
-
-2. That the substance which deposits as a decoction of Socotrine aloes
-cools, and which is usually termed the _resin_ or the _resinoid_ of
-Socotrine aloes, is the aloin in a modified state.
-
-3. That hepatic aloes[22] is the juice of the Socotrine aloes plant
-which has been solified without the aid of artificial heat.
-
-4. That hepatic aloes owes its opacity to the presence of minute
-crystals of aloin.
-
-5. That the juice of Socotrine aloes yields, when evaporated by
-artificial heat, an extract possessing all the properties of commercial
-Socotrine aloes.—_Pharm. Journ. April, 1852._
-
-[22] By the term “_hepatic aloes_” I mean the opaque liver-colored
-aloes imported into England from the East Indies (usually from Bombay).
-This sort of aloes is very different from the _hepatic Barbadoes
-aloes_, which formerly appears to have been exclusively called “hepatic
-aloes.”
-
-
-THE CHEMICAL COMPOSITION OF COD-LIVER OIL.
-
-BY DR. H. L. WINCKLER.
-
-Of all the drugs which have been introduced into medical practice
-within the last ten years, none has excited so much attention, and
-has met with so favorable a reception, as cod-liver oil. To what
-principles its peculiar properties are to be referred, has not yet been
-ascertained. By some they have been attributed {241} to the presence
-of a small quantity of iodine; but this has not proved a satisfactory
-explanation. Many chemists have endeavoured to solve this problem,
-but without success.—Amongst others, Dr. de Jongh, who attributed its
-virtue to gaduin—a new principle which he had discovered in the oil,
-with the usual fatty acids, and some of the constituents of bile, and
-traces of iodine and bromine.
-
-The results of my researches are different, in an important degree.
-According to my experience, cod-liver oil is _an organic whole_ of a
-peculiar character, differing in its chemical composition from any of
-the fat oils which have been heretofore applied to medical purposes.
-
-The evidences for this conclusion are the following:―
-
-1. When the clear, pale cod-liver oil is saponified with potash, and
-the resulting soap treated with tartaric acid, oleic and margaric acids
-are obtained.
-
-2. When a mixture of six parts of caustic potash, twenty-four parts
-of distilled water, and twenty-four parts of cod-liver oil, after
-being allowed to remain at an ordinary temperature, and often shaken,
-and finally diluted with twenty-four parts of distilled water, is
-distilled, a distillate is obtained, which possesses an intense odor
-of cod-liver oil, and contains an appreciable quantity of a peculiar
-organic compound, namely, oxide of propyl.
-
-3. When nine parts of cod-liver oil are saponified with five parts of
-oxide of lead, with the necessary quantity of distilled water, in a
-porcelain vessel, by the heat of a water bath, the oil is decomposed
-into oleic and margaric acids, and a new acid propylic acid. The chief
-part of this acid combines, like the oleic and margaric acids, with the
-oxide of lead, as it appears, to form a basic compound; and another
-lead salt, probably an acid one, can be washed out of the plaister with
-distilled water. It is worthy of remark, that no glycerine is formed
-in this process. The plaister smells of train oil and herrings; and
-when it is exposed in a thin layer to the action of the atmosphere in a
-water bath, it becomes colored dark brown, after the {242} evaporation
-of the water; and by the same means it loses its penetrating odor.
-The cause of the coloring is due to the strong disposition which the
-salts of propylic acid possess to oxidize, and consequently, to become
-brown. When the solution of the acid propylate of lead is treated
-with sulphuretted hydrogen, after the separation of the sulphuret of
-lead, is obtained an entirely colorless and strongly acid reacting
-solution, which by evaporation in a water bath, becomes by degrees
-colored. At the commencement of the last part of the operation it
-loses its penetrating odor, and at last leaves a dark brown residue.
-Exactly in the same manner, the watery solutions of neutral propylates
-of barytes and ammonia behave themselves. The neutral, colorless, and
-undecomposed ammoniacal salt smells of herrings; and the baryta salt,
-as concentrated decoction of meat.
-
-4. When the before-described (No. 2) solution of cod-liver oil soap
-is thrown into a capacious distillery apparatus, with the addition
-of caustic lime and chloride of ammonium, (in the proportion of
-six drachms of caustic potash, three ounces of cod-liver oil, six
-ounces of water, six ounces of fresh burnt lime, and one drachm of
-chloride of ammonium,) with the precaution, that the mixture of lime
-and chloride of ammonium be not added until the soap is formed in
-the retort, so that it may penetrate thoroughly the mass, and the
-distillation proceeded with by means of a gentle heat, as the formation
-of hydrate of lime evolves considerable heat, there distils rather
-quickly a clear, watery fluid, over which is a concentrated solution of
-propylamin free from ammonia. By saturating this solution with diluted
-sulphuric acid, and adding alcohol, sulphate of propylamin readily
-crystallizes out of it.
-
-This simple experiment serves to prove, with certainty, that cod-liver
-oil contains oxide of propyl. The propylamin thus obtained possesses
-all the properties of that obtained from the pickle of herrings, or
-ergot of rye.
-
-Cod-liver oil by saponification with potash, is separated into
-oleic and margaric acids, and _oxide of propyl_; and with oxide
-{243} of lead, into oleic and margaric acids, and propylic acid—a
-higher result of the oxidation of propyl—and gives by either process
-of saponification no _hydrate of the oxide of glycyl_. The glycyl
-(C‗{6} H‗{3}) is in this oil replaced by propyl (C‗{6} H‗{7}). Only
-in cod-liver oil are the conditions offered for the formation of
-propylamin (N H‗{2} C‗{6} H‗{7}), by the presence of ammonia, as
-all the fat oils employed in medicine are free from this substance;
-therefore none of these oils can be substituted for cod-liver oil.
-
-[Should this research of Winckler, as to the existence of the hydrate
-of the oxide of propyl in combination with the fatty acids in cod-liver
-oil, be confirmed, it will establish an important fact in chemistry,
-and may explain the therapeutic action of that remedy which has
-heretofore puzzled both chemists and physicians. The combinations
-of the radical propyl have been previously only known as artificial
-productions; therefore Wincklers’s experiments, if true, show that
-they exist in nature, or, in other words, that they are educts, and
-not products, from cod-liver oil. Moreover, the presence of oxide of
-propyl, and the absence of oxide of glycyl in cod-liver oil, will
-enable chemists to distinguish by tests, with certainty, this oil from
-other fatty oils.]—_Annals of Pharmacy, June, 1852._
-
-
-GUARANA.
-
-COMMUNICATED BY D. RITCHIE, SURGEON, R. N.
-
-A medicinal substance named guaraná was presented to me about two years
-ago by a Brazilian. The virtues which he asserted that it possessed
-induced me to employ it as a remedy in several troublesome and
-obstinate cases of disease. The consequent benefit was so decided, that
-I was convinced of the {244} great value it possessed as a remedial
-agent. This conviction, with the belief that it was still unknown,
-impelled me to bring the subject under the notice of the _profession_
-in this country. A short account of it was therefore transmitted to
-the editor of the “Edinburgh Monthly Medical Journal,” who forthwith
-submitted it to Professor Christison. To the kindness and extensive
-acquirements of this gentleman I am indebted for the information, that
-the subject had already engaged the attention, of the brothers Martius
-in Germany, and several French writers. It was a matter of satisfaction
-to me to find that the opinions I had expressed regarding the great
-prospective importance of this substance were fully borne out by all
-those who have diligently examined it.
-
-As a knowledge of the properties and uses of guaraná appears to be
-still little diffused in this country, I shall consider that I am
-performing an acceptable service to the medical profession in placing
-before it an abstract of the more important facts that are known
-regarding this substance. Public attention was first directed to it
-by M. Gassicourt in 1817, (Journal de Pharmac., tom. iii., p. 259);
-but the merit of discovering the source whence it is derived, and of
-furnishing a more complete description of it, belongs to Von Martius,
-in the year 1826, (Reise, vol. ii., p. 1061, _et seq._)
-
-The term guaraná is derived from the name of a tribe of Indians, who
-are dispersed between the rivers Parama and Uruguay, by whom it is
-very commonly used as a condiment or medicine. It is, however, more
-extensively prepared for commercial purposes by the Mauhés, an Indian
-tribe in the province of Tapajoz. It is, according to Martius, prepared
-from the seeds of the Paullinia sorbilis, a species belonging to the
-natural family Sapindaceæ. The characters of the species are:—Glabra,
-caule erecto angulato, foliis pinnatis bijugis, foliolis oblongis,
-remote sinuato-obtuse-dentatis, lateralibus basi rotundatis, extimo
-basi cuneato, petiolo nudo angnlato, racemis pubescentibus·erectis,
-capsulis pyriformibus apteris rostratis, valvulis intus villosis. The
-seeds, which ripen in the month of {245} October and November, are
-collected, taken out of their capsules, and exposed to the sun, so as
-to dry the arillus in which they are enveloped, that it may be more
-readily rubbed off by the fingers. They are now thrown upon a stone,
-or into a stone mortar, and reduced to powder, to which a little water
-is added, or which is exposed to the night dew, and then formed by
-kneading into a dough. In this condition it is mixed with a few of the
-seeds entire or contused, and divided into masses, weighing each about
-a pound, which are rolled into cylindrical or spherical forms. These
-are dried by the sun or by the fire, and become so hard as to be broken
-with difficulty. Their surface is uneven, brown, or sometimes black,
-from the smoke to which they have been subjected; their fractured
-surface is conchoidal, unequal, and resinoid; color reddish brown,
-resembling chocolate. This is the guaraná, and in this condition, or
-reduced to powder, it is kept for use or carried to market. The Museum
-of the Edinburgh College of Physicians contains a specimen of it in
-each of these forms. As it is liable to be adulterated with cocoa or
-mandioca flour, it is of great importance to be aware that the genuine
-article is distinguished by its greater hardness and density, and that,
-when powdered, it does not assume a white color, but a grayish-red tint.
-
-A chemical analysis of this substance was first made by Theodore
-Martius, in 1826, (Buchner’s Repert. de Pharm. xxxi., 1829, p.
-370). He found it to consist of a matter (tannin?) which iron
-precipitated green, resin, a fat green oil, gum, starch, vegetable
-fibre, and a white, bitter, crystalline product, to which the
-efficacy of the medicine was principally owing, and which he
-called guaranine. This he believed to be distinct from, but allied
-to, theine and caffeine, and to possess the following elementary
-constituents:—C‗{8}, H‗{10}, O‗{2}, N‗{4}.
-
-Another very careful analysis of guaraná was made in the year 1840, by
-MM. Berthemot and Dechastélus, (Journal de Pharmacie, tom. xxvi., p.
-518, _et seq._), which varies in some degree from the preceding. They
-found the matter, which {246} was considered to be resin by Martius,
-a combination of tannin with guaranine, existing in a form insoluble
-in water or ether. They also determined the perfect identity of the
-crystalline matter with caffeine. It is found to exist in a much larger
-proportion in the fruits of the Paullinia than in any of the plants
-from which it has hitherto been extracted. Alcohol is the only agent
-which completely removes it from the guaraná. To this solution the
-addition of lime or hydrated oxide of lead gives, on the one hand, the
-insoluble tannates, and on the other, the crystalline matter.
-
-The medicinal virtues of this substance have been attentively examined
-by Theodore Martius, (Op. cit.), and more particularly by Dr. Gavrelle
-(sur une nouvelle substance médicinale, etc.: Paris, 1840), who
-employed it very often while in Brazil, as physician to Don Pedro,
-and afterwards in France. By both it is considered a valuable remedy,
-and an important addition to the Materia Medica. By the vulgar it
-is held to be stomachic, antifebrile, and aphrodisiac; is used in
-dysentery, diarrhœa, retention of urine, and various other affections.
-It stimulates, and at the same time soothes, the gastric system of
-nerves. It reduces the excited sensibility of the cœliac plexus,
-thereby diminishing febrile action, and strengthening the stomach and
-intestines, particularly restraining excessive mucous discharges,
-increasing the action of the heart and the arteries, and promoting
-diaphoresis. It is therefore indicated as a valuable remedy in fevers,
-or reduced vital power resulting from cold or prolonged wetness, grief,
-to great muscular exertion, depression of spirits, long watching, and
-also in colic, flatulence, anorexia, nervous hemicrania, or in a dry
-condition of the skin. It is contra-indicated in a plethoric or loaded
-condition of the abdominal viscera, and when there exists determination
-of blood to the head. It is said to increase the venereal appetite, but
-to diminish the fecundating power.
-
-In cases where irritation of the urethra or urinary bladder succeed
-venereal or attend organic disease, it exerts a most salutary effect in
-soothing the irritability of the mucous {247} membrane, relieving the
-nervous prostration which accompanies these affections, and exalting
-vital power. Unlike the disagreeable remedies which are generally, and
-often without success, employed in these affections, it is taken with
-pleasure, and with an amount of success which, as far as my experience
-extends, is universal.
-
-If we examine guaraná according to its chemical characters, it must be
-guarded as a most valuable substance, from its possessing in so great
-a proportion that important nitrogenous principle guaranine. This,
-if not identical with caffeine, is at least analagous to it, and to
-theine, and theobromine,—all important elements of food and grateful
-stimulents. From its chemical constitution, then, we may predict with
-great certainty its physiological action being powerfully tonic; but
-in the combination in which it is found, experience indicates that it
-possesses conjoined more valuable properties than belong to the simple
-tonics. Its power of correcting generally the discharges, and restoring
-the normal vitality of the mucous membranes, must be viewed as one of
-these.
-
-Guarana, in the state of powder, is exhibited in doses of ʒj, three
-or four times daily, mixed with water and sugar, or with syrup and
-mucilage, conjoined with an aromatic, as cinnamon, vanilla, or
-chocolate. A convenient form is that of extract, obtained by treating
-the guaraná with alcohol, and evaporating to the consistence of pills.
-This may be exhibited in the form of solution or pills. The Brazilians,
-however, use the powder with sugar and water alone, and consider this
-draught grateful and refreshing.—_Monthly Jour. of Medical Science,
-May, 1852._
-
-{248}
-
-
-COLORED FIRES FOR PYROTECHNICAL PURPOSES.
-
-Erdmann, in the last number of his journal, gives the following formulæ
-for preparing colored fires, which he has proved and found to answer
-the purpose intended admirably. He particularly enjoins the caution
-that the ingredients, after being powdered in a mortar _separately_,
-should be mixed with the hand, as dangerous explosions would inevitably
-follow from the ingredients being rubbed together with any hard
-substance.
-
- Red.
-
- Chlorate of potash,             61     parts.
- Sulphur,                        16     parts.
- Carbonate of strontia,          23     parts.
-
- Rose Red.
-
- Chlorate of potash,             61     parts.
- Sulphur,                        16     parts.
- Chloride of calcium,            23     parts.
-
- Yellow, No. 1.
-
- Chlorate of potash,             61     parts.
- Sulphur,                        16     parts.
- Dried soda,                     23     parts.
-
- Yellow, No. 3.
-
- Saltpetre,                      61     parts.
- Sulphur,                        17 1/2 parts.
- Dried soda,                     20     parts.
- Charcoal,                        1 1/2 parts.
-
- Dark Blue.
-
- Chlorate of potash,             60     parts.
- Sulphur,                        16     parts.
- Carbonate of copper,            12     parts.
- Burnt alum,                     12     parts.
-
- Sulphate of potash and ammonio-sul-
-   phate of copper may be added to
-   render the color more intense.
-
- Purple Red.
-
- Chlorate of potash,             61     parts.
- Sulphur,                        16     parts.
- Chalk,                          23     parts.
-
- Orange Red.
-
- Chlorate of potash,             52     parts.
- Sulphur,                        14     parts.
- Chalk,                          34     parts.
-
- Yellow, No. 2.
-
- Saltpetre,                      50     parts.
- Sulphur,                        16     parts.
- Dried soda,                     20     parts.
- Gunpowder,                      14     parts.
-
- Light Blue.
-
- Chlorate of potash,             61     parts.
- Sulphur,                        16     parts.
- Burnt alum,                     23     parts.
-
- Dark Violet.
-
- Chlorate of potash,             60     parts.
- Sulphur,                        16     parts.
- Carbonate of potash,            12     parts.
- Burnt alum,                     12     parts.
-
- Light Violet.
-
- Chlorate of potash,             54     parts.
- Sulphur,                        14     parts.
- Carbonate of potash,            16     parts.
- Burnt alum,                     16     parts.
-
- {249}
-
- Green.
-
- Chlorate of potash,             73     parts.
- Sulphur,                        17     parts.
- Boracic acid,                   19     parts.
-
- Light Green.
-
- Chlorate of potash,             60     parts.
- Sulphur,                        16     parts.
- Carbonate of barytes,           24     parts.
-
- _For Theatrical Purposes._
-
- White, No. 1.
-
- Saltpetre,                      64     parts.
- Sulphur,                        21     parts.
- Gunpowder,                      15     parts.
-
- White, No. 2.
-
- Saltpetre,                      64     parts.
- Sulphur,                        22     parts.
- Charcoal,                        2     parts.
-
- Red.
-
- Nitrate of strontia,            56     parts.
- Sulphur,                        24     parts.
- Chlorate of potash,             20     parts.
-
- Green.
-
- Nitrate of barytes,             60     parts.
- Sulphur,                        22     parts.
- Chlorate of potash,             18     parts.
-
- Rose.
-
- Sulphur,                        20     parts.
- Saltpetre,                      32     parts.
- Chlorate of potash,             27     parts.
- Chalk,                          20     parts.
- Charcoal,                        1     parts.
-
- Blue.
-
- Saltpetre,                      27     parts.
- Chlorate of potash,             28     parts.
- Sulphur,                        15     parts.
- Sulphate of potash,             15     parts.
- Ammonio-sulphate of copper,     15     parts.
-
-
-EXTRACTUM LOBELIÆ FLUIDUM.
-
-BY WILLIAM PROCTER, JR.
-
-Having had occasion to prepare a fluid extract of lobelia at the
-solicitation of a druggist, the following process was employed, which
-is based on the fact, that in the presence of an excess of acid, the
-lobelina of the natural salt which gives activity to the drug, is not
-decomposed and destroyed by the heat used, as explained on a former
-occasion, (vol. xix. page 108 of this Journal.)
-
-Take of Lobelia (the plant,) finely bruised, eight ounces, (troy)
-
- Acetic acid          one fluid ounce.
- Diluted Alcohol      three pints.
- Alcohol              six fluid ounces. {250}
-
-Macerate the lobelia in a pint and a half of the diluted alcohol,
-previously mixed with the acetic acid, for twenty-four hours; introduce
-the mixture into an earthen displacer, pour on slowly the remainder of
-the diluted alcohol, and afterwards water until three pints of tincture
-are obtained; evaporate this in a water bath to ten fluid ounces,
-strain, add the alcohol and, when mixed, filter through paper.
-
-Each teaspoonful of this preparation is equal to half a fluid ounce
-of the tincture. It may be employed advantageously to make a syrup of
-lobelia, by adding two fluid ounces of the fluid extract, to ten fluid
-ounces of simple syrup, and mixing. Syrup of lobelia is an eligible
-preparation for prescription use, in cases where lobelia is indicated
-as an expectorant.—_American Journal of Pharmacy._
-
-
-NEW METHOD FOR PREPARING AND EXHIBITING PROTIODIDE OF IRON.
-
-BY M. H. BONNEWYN.
-
-Several methods have been proposed for the preparation and exhibition
-of protiodide of iron, all of which are, as far as I am acquainted with
-them, subject to many inconveniences and objections. It is on this
-account that I offer to my fellow-laborers a new method, which both on
-account of its uniformity of action and facility of administration,
-deserves to be adopted universally.
-
-Every practical man knows that all preparations of protiodide of iron
-are bad, for instance, syrupus ferri iodidi is a medicine which is
-generally disliked, and in some individuals causes nausea and even
-vomiting. The pilulæ ferri iodidi {251} likewise disagree with some
-constitutions, and when they seem to agree, they never produce the
-same regular effects even if prepared at the same labratory. According
-to trials made by an experienced physician, who has administered the
-protiodide, prepared according to my method, I am assured that this
-remedy prepared by a double decomposition in the stomachs of the
-patients, has always agreed with them, and produced more constant and
-salutary effects. It is already a well-known fact, that the iodide of
-iron in its incipient state is better assimilated by the organs.
-
-No. 1. Dissolve one gramme of iodide potassium in 300 grammes of water.
-No. 2. Take sulphate of iron 1 1/2 grammes; make a powder and divide
-into eighteen equal parts. Dissolve one of the powders in a large
-table-spoonful of sugared water before swallowing it; take immediately
-afterwars, one table-spoonful of the solution.
-
-It is evident that by this operation, each time their is produced in
-the stomach one grain, or about five centigrammes of iodide of iron in
-its incipient state.
-
-Although these proportions do not correspond absolutely, but only
-approximately with their chemical equivalents, nevertheless,
-their effects answer fully the purposes both of the chemist, and
-Physician.—_Annals of Pharmacy and Practical Chemistry._
-
-
-TANNATE OF ZINC.—The preparation announced of late, under the name of
-the Salt of Barnit, as infallible against gonorrhœra when used as an
-injection, is, according to the analysis of M. Chevalier, a tannate
-of zinc. This salt which is soluble, may be prepared by saturating a
-solution of tannic acid with freshly precipitated and moist oxide of
-zinc, filtering and evaporating in a water bath.
-
-{252}
-
-
-EDITORIAL.
-
-
-THE CONVENTION.—We cheerfully give place to the following _notice_ from
-Dr. Guthrie, in regard to the approaching meeting of the Pharmaceutical
-Convention. We regret to learn that the time appointed, is not the
-most convenient one for many of the delegates whom we may expect from
-the south. It is too late, however, to change the time of meeting,
-were there any authority by which such change could be made. In view
-of the importance of the object, we hope that there may be a full
-attendance on the part of the delegates, even at the cost of some
-personal sacrifice. If the whole country be represented, a time can
-then be chosen for a future meeting which will suit a majority of those
-present:―
-
- “NOTICE.—The Annual Meeting of the U. S. Pharmaceutical Convention,
- will take place in Philadelphia, on Wednesday, the 6th of October next.
-
- It being a matter of much importance that this meeting should number
- as many of our Druggists and Chemists as possible, I deem it proper to
- suggest that not only all regularly incorporated and unincorporated
- associations of this kind should see that they are fully represented,
- but that where no associations exist as yet, the apothecaries should
- send one or more of their number as delegates to the convention,—such
- will, no doubt, be cheerfully admitted to seats in the convention.
-
- This meeting it is to be hoped, will either take the necessary steps
- to the formation of a regular and permanent national organization, or
- possibly effect such organization during its sittings.
-
- We trust all who feel an interest in this important subject, will
- remember the time and place, and give us their assistance in person or
- by delegate.
-
- C. B. GUTHRIE, _President of Convention_.”
-
-
-THE AMERICAN JOURNAL OF PHARMACY.—The editor of the American Journal of
-Pharmacy, has done much to raise the standard of American Pharmacy. He
-has a solid reputation founded on large knowledge and great industry.
-It is with pleasure then that we observe the attention he bestows
-upon our Journal. He has taken, however, rather an unusual course, in
-animadverting separately upon most of the directly practical articles
-that have appeared in our pages, and his criticisms have given rise to
-some reclamations on the part of our contributors, which we subjoin:―
-
- COMMENTS ON “COMMENTS.”—The American Journal of Pharmacy
- (Philadelphia), for July, contains “Pharmaceutical notices, being
- extracts from various articles in the New York Journal of Pharmacy,
- with comments by the editor,” in which {253} our friend Procter,
- criticises, rather severely, some of the pharmaceutical formulæ
- and suggestions that have been offered in this Journal. With full
- respect for the great acquirements and high character as a practical
- pharmaceutist, to which my friend Procter is justly entitled, I
- should have been glad if the articles, upon which he comments, had
- met his approval; and I know of no one that I would rather should set
- me right, if anything that I have offered does not find acceptance
- with him. With the greater part of his comments, I do not think there
- is occasion for controversy,—matters of fact readers can judge for
- themselves, and it certainly is of little consequence, who may be
- found in error, compared with the elucidation of truth.
-
-       *       *       *       *       *
-
- In respect to the _consistence_ of Syrup of Gum Arabic, he is probably
- nearer right, (during this hot weather, at any rate) than I was,
- and still, I think he is not right. My experience with the present
- officinal formula, had been in the cold season, when I found the syrup
- decidedly too thick for convenient use, especially by itself; a large
- proportion of it crystallized in the temperature of the shop, and the
- mouth and neck of the bottle choked up with candied syrup every two or
- three times it was used. I had found the former syrup to answer very
- well in regard to consistence and flavor, though, it certainly could
- not be considered permanent; it had to be made in small quantities
- and frequently; indeed, I do not suppose that any liquid combination
- of gum, sugar and water only, can be made of a permanent character.
- Since reading Mr. Procter’s comments, I have made this syrup again by
- the present formula, and it does keep decidedly better at this season,
- than that made in the other proportions, yet not perfectly; and there
- is considerable crystallization, even in the very hot weather we have
- had lately. I infer that syrup which crystallizes at this season,
- has an excess of sugar in it, the crystals formed tending further to
- reduce the remaining syrup, and thus sooner promote acidity than if
- a proportion of sugar had been used which could remain in solution.
- Perhaps, a medium between the two formulæ could be hit upon, in which
- the proper balance might be better attained.
-
-       *       *       *       *       *
-
- In the formula offered for Compound Syrup of Squill, in our Journal
- for April, there is an error of four ounces in the quantity of honey,
- which should have been _twenty-two_ ounces. Whether it was made by
- the printer or not cannot be ascertained, as “the _copy_ has been
- destroyed.” I had not noticed it until my attention was called to it
- by Mr. Procter’s comments. The quantity of sugar used by me in making
- this syrup was, for convenience, one pound avoirdupois weight; that of
- honey, one pound and a half, same weight. In transcribing the formula
- for a medical Journal, I thought I must, per custom, render it in troy
- weights; so as 15 oz. troy are 200 grs. more than one pound av., I set
- down 15 oz., and intended to set down 22 oz. of honey, as being only
- 60 grs. more than one pound and a half av. I think this addition of
- 4 oz. of honey will make the whole come up to Mr. Procter’s measure
- of “56 fluid ounces before the ebullition,” &c., and a little over.
- The boiling can be continued only for a few minutes. I was formerly
- in the practice of boiling to three pints, and adding 48 grs. tartar
- emetic, but finding that I had to evaporate more than half a pint,
- and judging that {254} the strength of the resulting preparation
- was rather lessened than increased thereby, I concluded to stop at
- three and a half pints. As to the proportion of sugar and honey,
- they amount together to 2 1/2 pounds av., which with two pints of
- an evaporated menstruum, containing the extractive matter soluble
- in diluted alcohol of 8 oz. of the roots, furnishes a syrup of good
- consistence. It may be observed, that solution of sugar in a menstruum
- so charged, is quite different from that in water. Perhaps, however,
- an equal amount of sugar with that of the honey, would be preferable.
- I can only say, that I employed the same quantity a number of times,
- but reduced it several years since, because it appeared to be too
- much for some reason, the particulars of which I do not recollect.
- And as this formula has always given me a satisfactory preparation,
- I have thought no more about it, until now. Or perhaps, it would be
- better to continue the evaporation to three pints, with the advantage
- of producing a more symmetrical result, corresponding, at the same
- time, with the quantity of the Pharmacopœia. But, is not the officinal
- formula “almost as far out of the way” the _other_ way? Forty-two
- oz. of sugar in forty-eight fluid oz. of syrup! Can such an amount
- remain in solution twenty-four hours at any ordinary temperature? If
- mine is an “_anomaly_,” is not this an _impossibility_, “in point
- of consistence”? In reference to the alcoholic objection, it may
- be remarked, that the evaporation in the case commented upon, is
- not “from 4 pints of tincture to 2 pints,” but from 4 3/4 pints
- to 2 pints. The small portion of alcohol, that may remain after
- this evaporation and the continued heat to the end of the process,
- can scarcely be of serious consequence in the doses in which it is
- prescribed; it may have some influence in preserving the syrup, and
- also in promoting its medical action. Be all this as it may, so far
- as taste is a criterion, this preparation appears to be of at least
- double strength in the qualities of both roots, of the officinal syrup
- carefully made by the second process given,—the first being, as I
- suppose, with all apothecaries of the present day, “an obsolete idea.”
-
- G. D. C.
-
-
-REMARKS ON THE COMMENTS MADE BY THE EDITOR OF THE PHILADELPHIA JOURNAL
-OF PHARMACY, ON SOME EXTRACTS FROM VARIOUS ORIGINAL ARTICLES, PUBLISHED
-IN THE NEW YORK JOURNAL OF PHARMACY:—After giving the formula for
-preparing Stramonium Ointment, as modified by E. Dupuy, the editor
-of our contemporary adds, “the objection to the officinal formula
-on the score of color, is hardly valid, and if it was so, it would
-be better to color it with extract of grass, than to substitute a
-preparation which will constantly vary in strength and appearance or
-with the age of the leaves. The officinal extract of stramonium, is
-easily incorporated with lard, and produces a brown colored ointment of
-comparatively uniform strength.” We do not pretend to have furnished a
-formula vastly superior to that received in our officinal guide. But
-as we were writing for our locality chiefly, and knowing the general
-expectation {255} and usage of furnishing stramonium ointment of a
-green color, we have given a formula which does furnish an ointment
-having a proper strength, requisite color, without the loss of time
-and material necessarily incurred in manufacturing a color ad hoc as
-suggested by W. Procter, Jr., which from the contamination of the
-decomposed chlorophylle of the extract, would never compare favorably
-(notwithstanding all that useless waste of trouble,) so far as its
-appearance is concerned, with the far readier mode proposed for
-transforming at once by a few short manipulations the dry stramonium
-into an alcoholic extract and ointment without liability to alteration
-during the process. Respecting the keeping of both ointments, we can
-affirm that the one prepared by the modified formula, will keep as well
-if not better and longer, than the other, and as the color is a point
-of some importance for our public and practitioners, we are satisfied
-that it will be preferred on the score of economy of time as well as
-for its color, which is desirable at least within our circle of custom.
-
-
-EMPLASTRUM EPISPASTICUM WITH CAMPHOR AND ACETIC ACID.—Mr. Procter,
-objects to the addition of acetic acid to the officinal blistering
-cerate, and seems to smile at the idea of fixing by it the volatile
-principle of the cantharis, which, by the way, he gratuitously makes
-the author to say is a neutral substance, when he says not a word about
-it. He quotes the authority of Mr. Redwood, who in the Pharmaceutical
-Journal, October, 1841, speaks of acetic acid as not being a good
-solvent for cantharidine. The reason is, in all probability, from the
-fact of his using the London standard strength, which is but 1.48. For
-Messrs. Lavini and Sobrero, (Memoire lu a l’academie des sciences de
-Turin, 9 Mars, 1845,) state that “concentrated acetic acid,, dissolves
-cantharidine, but more readily under the influence of heat.” Respecting
-the volatility of cantharidine, these same chemists have stated in the
-same paper “that while manipulating with but 52 grammes of flies, for
-the researches they were making on cantharidine, one of them suffered
-from blisters produced on the face and lips, by the emanations from
-these insects.” Besides their authority, Soubeiran, in his Traite de
-Pharmacie, and Dorvault in the Officine, both state that cantharidine
-is a very volatile substance, even at ordinary temperature, and if that
-is, as it appears to be, the ease, what reliable information have we
-that only 1-30th of a grain was volatilized in the experiment mentioned
-by W. Procter, Jr., made with 100 grs. of powdered cantharides? Is it
-not very probable, that in removing the hygrometric water, much more
-was lost?
-
-Whatever may be the changes which take place by the addition of acetic
-acid in a concentrated state, it is a fact, proved by experience, that
-the blistering plaster thus prepared, keeps better—that is, retains
-its power longer than the officinal one even exposed to the air in
-thin layers. As an example of the stability of this combination, we
-have _Brown’s Cantharidine_ which, to all appearance, is made from an
-etherial extract of cantharides additioned with concentrated acetic
-acid and incorporated in melted wax. We find such a mixture, although
-spread on paper and but imperfectly protected from the air, retaining
-for a long period its vesicating properties. Is this advantage produced
-by a simple acid {256} saponification of the cerate, without reaction
-on the active principle, but that of protecting it from atmospheric
-influences? We think it probable that there is a modification taking
-place, both on the cantharis and other components of the cerate.
-
- E. D.
-
-
-THE RICHMOND PHARMACEUTICAL SOCIETY.—A large number of the Druggists
-and Apothecaries of the city of Richmond, held a meeting on the 11th
-of June for the purpose of forming a Pharmaceutical Society, and,
-having appointed a committee to draft a constitution and bye-laws,
-and to report to an adjourned meeting, on the 28th of the same month,
-assembled on that day, and adopted the constitution and bye-laws
-reported by the committee. The election of officers was postponed until
-the 6th of July.
-
-At a full meeting of those who had signed the constitution, the
-following gentlemen were elected officers of the society, for the next
-twelve months, viz:―
-
- _President_,                    ALEXANDER DUVAL.
- _1st Vice President_,           JAMES P. PURCELL.
- _2nd Vice President_,           J. B. WOOD.
- _Recording Secretary_,          CHAS. MILLSPAUGH.
- _Corresponding Secretary_,      S. M. ZACHRISSON.
- _Treasurer_,                    W. S. BEERS.
- _Librarian_,                    JOHN T. GRAY.
-
-After which, several nominations for members and associate members
-having been made, the society adjourned to Monday, 13th instant,
-that the President might, during the recess, appoint the standing
-committees, as required by the constitution.
-
-The Society having assembled on the 13th instant, the following
-committees were reported:―
-
-_Committee on Admission_—J. Bum, John T. Gray, E. J. Pecot.
-
-_Committee on Pharmaceutical Ethics_—O. A. Strecker, S. W. Zachrisson,
-A. Bodeker.
-
-_Committee of Finance_—Peyton Johnston, Benjamin F. Ladd, Edward
-McCarthy.
-
-_Committee on Library_—Andrew Leslie, James P. Purcell, William M. Dade.
-
-_Executive Committee_—John Purcell, W. S. Bum, R. R. Duval:―
-
-After which, several nominations were made. Appropriations were placed
-at the disposal of the library committee for subscriptions to various
-periodicals, and for the purchase of books, after which, the meeting
-adjourned.
-
-{257}
-
-
-
-
-NEW YORK
-
-JOURNAL OF PHARMACY.
-
-SEPTEMBER, 1852.
-
-
-ON THE OIL OF GRAIN SPIRIT, OR FUSEL OIL.
-
-BY EDWARD N. KENT.
-
-The oil of grain spirit, has recently attracted considerable attention
-from the fact of its being the basis of a number of artificial perfumes
-or essences, one of which has been extensively used under the name of
-banana or pear essence.
-
-The crude oil, as is well known, consists principally of hydrated oxide
-of amyl, mixed with more or less alcohol, and small quantities of other
-substances, the nature of which is not generally known, though it has
-been asserted that œnanthic ether and œnanthic acid may be found among
-them. To obtain the latter articles was a desired object, and that
-which led to the subject of this paper.
-
-Crude fusel oil, (or oil of grain spirit) when distilled in a glass
-retort, commences to pass over at about 190° Fahrenheit, and a
-considerable portion is obtained below 212; which consists mostly of
-alcohol and water, with a small quantity of the hydrated oxide of amyl.
-By changing the receiver and continuing the operation to about 280°, a
-large product is obtained, consisting principally of hydrated oxide of
-amyl, but contaminated with a little alcohol and water, and a trace of
-less volatile oil, which may be found in larger quantity in the residue
-remaining in the retort. This residue is small, of an agreeable odor,
-and consists of several substances among {258} which may be found, an
-oil having the intoxicating smell, but not the chemical properties of
-œnanthic ether, other than a similarity in its boiling point.
-
-To obtain a more perfect separation of the substances contained in the
-crude oil, a small copper still was constructed, on the principal which
-is now so successfully used in the manufacture of high proof alcohol,
-and which proved highly useful for the above purpose. This still is so
-arranged, that the vapor which is evolved by the boiling liquid, passes
-through a series of bent tubes, each of which is connected with a
-return pipe for returning vapors less volatile than boiling water, back
-to the still. These tubes are enclosed in a copper funnel filled with
-cold water, which becomes heated as the operation proceeds, and finally
-boils; the less volatile vapors are thus prevented from passing over,
-and the alcohol and water are almost perfectly separated from the oil
-remaining in the still.—If the water is then drawn off from the vessel
-containing the serpentine tube, the distillation may be continued till
-it ceases spontaneously.
-
-The product thus obtained, when rectified from a little dry caustic
-potash to remove coloring matter and acetic and valerianic acid,
-and again rectified from dry quick lime to remove water, gives pure
-hydrated oxide of amyl.
-
-The residue left in the copper still is most easily obtained by
-distillation with water, containing a little carbonate of soda to
-neutralise the free acids contained in it. A small quantity of a
-yellow oil is thus obtained, having an agreeable vinous odor similar
-to œnanthic ether, but unlike that ether it yields fusel oil, instead
-of alcohol, when distilled repeatedly from caustic potash. It is
-consequently an _amyl_ compound, while œnanthic ether is known to be
-the œnanthate of oxide of _ethyle_.
-
-The residue remaining in the still after the above distillation with
-water, consists of acetic and valerianic acids in combination with the
-soda, and the solution holds in suspension a considerable quantity of
-byrated oxide of iron, which formerly existed in combination with the
-acids. {259}
-
-From the above statement it appears that crude fusel oil contains the
-following substances, viz:―
-
- Alcohol,
- Water,
- Hydrated oxide of amyl,
- Acetic acid,
- Valerianic acid,
- Oxide of iron.
-
-And an amyl compound, analagous to œnanthic ether.
-
-
-EASY METHOD TO MAKE HYPOSULPHITE OF SODA.
-
-BY JOHN C. TALLON.
-
-Happening to inquire the price of hyposulphite of soda of a wholesale
-druggist, it appeared to me that the cost of its production is
-_greatly_ under the wholesale price, I therefore suggest to
-apothecaries who may wish to make it _pure_, for their own consumption,
-the following: Through a saturated solution of sal soda (ascertained to
-be free from sulphate) pass sulphurous acid gas until a small quantity,
-taken out of the solution after agitation, on the end of a glass rod,
-gives a white precipitate with nitrate of silver; then put the solution
-into a beaker glass, and boil it with sulphur (about one-twentieth
-of the weight of the soda in solution) until a little of the liquid,
-put into a test glass, gives, with a few drops of hydrochloric acid,
-a precipitate of sulphur, and another portion with nitrate of silver
-a white precipitate, immediately turning yellow and then black, when
-the liquid is to be filtered and evaporated quickly, until the salt
-be crystallized quite dry. The crystals are to be put into a closely
-stopped bottle, and kept well secured from the atmosphere. The
-advantage of this process over the common one is that it can be made in
-the store without any annoyance from the stench of melted sulphur; it
-costs but little and does not require the _continued_ attention of the
-operator.
-
-709 Greenwich Street, New York, August 12, 1852.
-
-{260}
-
-
-NOTES IN PHARMACY, No. 4.
-
-BY BENJAMIN CANAVAN.
-
-
-TINCTURA BESTUSCHEFFI.—In the last number (8) of this Journal, Mr.
-Mayer, speaking of this preparation, says that the formula given by me
-in the May number, is the “oldest” from “the Austrian Pharmacopœia of
-1820,” and suggests, as an improvement, preparing the salt by passing
-through a solution of protochlor. ferri, a current of chlorine, to
-the proper point of saturation. The formula I gave _is_ the “oldest”
-and the _original_, for which reason I selected it, affording as it
-does _the_ “Bestuscheff’s tincture,” at one time so highly valued,
-and though I did not consider it very creditable to the scientific
-accuracy of its “fatherland,” it is the one which “did the good.” The
-advantages, seemingly, claimed by Mr. Mayer for his process, is its
-affording a more certain preparation. This does not appear evident,
-as the resulting tincture will be the same, respectively, by whatever
-process, supposing equal care to be used in conducting it. It may
-be possible that a stronger solution is obtained, but that is not
-asserted, nor is it important, as that would concern the _dose_, not
-the effect of the medicine. The difference, aside from the identity
-of the preparation, appears to me to be that, in one case experiment
-will be necessary to ascertain the strength of the tincture, whilst
-in the other it can be determined more quickly by calculation, but
-the extra labor required in the process in the later case, more than
-counterbalances any superiority there may be in this respect. I have,
-however, no objection to make to Mr. Mayer’s process, which is a very
-_neat_ way of making “Ethereal Tincture of Sesquichloride of Iron”;
-but, I think, those who desire to make “Bestuscheff’s Tincture,” will
-consider it more strictly accurate to adhere to the “oldest formula.”
-
-
-DECOMPOSED CHLOROFORM.—A specimen of this article lately came into
-my possession, to which, I think it right to direct the attention of
-apothecaries, although, its villainous odor was so {261} disagreeable
-and suffocating, as to render it almost impossible that it could be
-administered, still it may serve to teach the necessity of all those
-having to do with the article, exercising such increased care that so
-bad an article could not pass through their hands unnoticed; for what
-might be the consequences in such a case if the sensible properties of
-the article did not happen to be so repugnant? And as it is desirable,
-in a scientific point of view, to know everything about so important an
-agent, it is proper and necessary that anything unusual in its regard
-should be recorded. The article in question, was contained in a badly
-stopped bottle, and had leaked one-eighth of its quantity. On removing
-the cupping, an efflorescent crust was observed coating the upper
-surface of the lip of the bottle and contiguous stopper, of a whitish,
-partly yellowish-green appearance, having a caustic taste, and washing
-off readily with water but not with chloroform, and precipitating
-nitrate of silver; the precipitate being soluble in ammonia and not in
-nitric acid, leading me to infer from this and other circumstances,
-that this substance was, probably a hydrochlorate of ammonia. The neck
-of the bottle before the stopper was removed, presented a yellowish
-appearance from some colored substance being interposed between it
-and the stopper, a pretty constant accompaniment of this kind of
-decomposition, which should always be noted. On removing the stopper,
-fumes escaped having a most suffocating odor, causing the bottle to
-be withdrawn quickly from the nostril and giving with ammonia, the
-white fumes characteristic of hydrochloric acid gas. By exposure the
-peculiar odor disappeared, and the whole of the liquid passed off
-without leaving any residue, except a slight greasy appearance on the
-sides of the glass from which it was evaporated, which _was not_ owing
-to sulphuric acid. The specific gravity was that of good chloroform,
-and sulphuric acid acquired no color when agitated with a portion, and
-the reaction with litmus was strongly acid. The bottle having been
-emptied, the small portion which adhered to the glass, collecting
-in the bottom, assumed a yellowish appearance resembling common
-muriatic acid. Not having leisure or {262} means to make an elaborate
-examination, I handed some to one of our professors of chemistry, who
-will make an accurate analysis. In the meantime, I deemed it prudent
-to note these particulars. A large quantity of the article, made at
-the same time and by the same process, I have since learned, has been
-found to have undergone a similar change. The manufacturer, supposes
-the decomposition to have arisen in some way from the sulphuric acid
-used in the process after the manner of Professor Gregory, although
-every means was used to separate it and none could be detected in it
-when recently made; some, however, which was thus supposed to be free
-from acid, I found to slightly redden litmus, although the smell was
-remarkably fine; but it has been found I learn, that of two specimens
-of the article taken from the same bottle and _exposed to the light_,
-one underwent decomposition and the other not. It has occurred to
-me, that the surest way of separating the acid would be to distil
-the chloroform from it; but it should be remembered that the process
-of Gregory, was intended to be adopted for smaller quantities for
-immediate use, and not for its manufacture on a large scale, to be kept.
-
-
-SUPPOSITORIA.—In the number of the _New York Medical Times_ for
-December, 1851, I took occasion to mention the superiority of cacao
-butter, to the other excipients for the formation of suppositories, a
-means of medication which had _become almost obsolete_; not unlikely
-from the circumstance of their having been prepared with iritating
-substances which counteracted their intended effect. In the last (July)
-number of the _American Journal of Pharmacy_, (Philadelphia,) Mr. A. B.
-Taylor, (who has not, apparently, seen my little note,) gives several
-formulas for these, which require the cacao butter to be melted, in
-which state the medicament is incorporated with it, &c. I recur to the
-subject for the purpose of stating that I have not found it necessary
-to adopt this very troublesome and tedious, not to say inaccurate
-method. The article, at all seasons, becomes sufficiently plastic when
-“worked” in the mortar, or in very cold weather, with the addition of
-a drop or so of almond or {263} other proper oil, to admit of being
-_rolled_ with the spatula into form, the most convenient one for which
-I have found to be that of a cylinder about an inch long, weighing
-twenty grains, and fitting exactly the calibre of the instrument used
-for introducing them, which I generally use as a mould. The active
-ingredients used are mostly sulph. morph. and extr. opii aquos. the
-latter of which is superior to opium, of course, being _nearly_ free
-from narcotine. _Vaginal suppositories_ would be equally applicable and
-useful as anal ones.
-
-
-EDITOR AMERICAN JOURNAL OF PHARMACY.—Professor Proctor has done me
-the honor to notice, favorably, some trifles which I have found time
-to contribute to our Journal, among others an observation concerning
-the supposed decomposition of Fowler’s solution, with respect to which
-he says he “does not understand where the garlicky odor came from,
-as it is only the _vapor_ of metallic arsenic that possesses this
-peculiarity.” I beg to assure the Professor that the odor _came from
-the bottle_. The immediate cause of it is certainly _mist_-erious,
-though it is not impossible that among the intricacies of chemical
-action sufficient heat may have been evolved to act on how small soever
-a portion of the metal in a _nascent state_ as to cause the peculiar
-odor. _Spontaneous combustion_ taking place in a mass of the common
-mineral known as “cobalt,” produces, unmistakeably, both vapor and
-the odor of arsenic, and I have heard of a ships’ crew having been
-salivated by the vapor arising from a cargo of quicksilver in a high
-latitude. A very much lower degree of heat is required to produce vapor
-than might be supposed from the point of volatility of the substance
-whence it emanates, an instance in point being the familiar process of
-boiling water; but this is rather a _cloudy point_ which would require
-the acumen of a certain celebrated jury to elucidate, and to their
-tender mercies it is perhaps the better part to consign it.
-
-{264}
-
-
-GENERAL REPORT UPON THE RESULTS AND EFFECTS OF THE “DRUG LAW,” MADE TO
-THE SECRETARY OF THE TREASURY.
-
-BY C. B. GUTHRIE, M. D.
-
-The act of Congress, approved 26th of June, 1848, entitled “an Act
-to prevent the importation of spurious and adulterated drugs and
-medicines,” having now been in existence and enforcement almost three
-years, the working of the law and its effects, immediate and remote,
-have become necessarily matters of fact, and are no longer left to
-conjecture and speculation.
-
-At the time of the passage of this law by congress, no inconsiderable
-fears were entertained by its friends, and great hopes by its enemies,
-that it would be found impracticable to carry out its requisite
-provisions without great injury to that portion of our citizens engaged
-in the importation of this class of merchandize, in which event its
-repeal would, of course, have been urgently solicited.[23]
-
-[23] Strong _prima facie_ evidence of the popularity of this law may be
-found in this significant fact that not a petition for its repeal has
-ever been presented to Congress.
-
-In entering upon the duties of the commission, which I had the honor to
-recieve from the department, I was fully impressed with the importance
-of the information sought for, and the necessity of a candid, impartial
-and unbiassed examination of facts bearing upon the subject, and in
-making, to the department, this report, I have divided my results and
-facts into immediate and remote; the reasons for which, will appear in
-the detail. Under the general terms drugs and medicines, are embraced
-all articles intended for the treatment of the diseases of the human
-system, and though they admit of many subdivisions, these terms,
-included under the two heads of chemicals and compounds, and crude
-drugs, are all that is necessary for my {265} purpose in speaking of
-the effects and applications of the law.
-
-First, with regard to the effect upon chemicals and compound
-medicines.: Previous to the passage of this law, no restriction was
-laid upon any class of medicines coming in under this head. If the
-importer paid the requisite duty, no questions were asked, no limit
-was fixed as to quality or condition. It needs no argument, but
-merely a mention of the fact, to show that any compound medicine or
-chemical preparation may be so made as to deceive the unsuspecting and
-uneducated, and even very often the druggist, apothecary, physician,
-and all, because they were not in the habit of analysing their
-articles, and were deceived by their external, often times very fine
-appearance. Under the combined influence of competition and avarice—two
-strong temptations, the manufacture of articles of this class had
-become systematised, and on purpose to supply the United States market.
-
-The immediate and positive beneficial results of the law may be seen in
-the fact that now very few, if indeed any, spurious or sophisticated
-chemical preparations, for pharmaceutical purposes, are even offered
-at our ports, or by any possibility find their way into our markets.
-Manufacturing chemists and importers of this description of medicines,
-finding it impossible to get such goods through our custom houses,
-will, of course, not risk the loss of bringing them here, but in
-their stead will import such as are known to come up to our required
-standards. Under this general head of chemicals, may be included a
-large majority of the manufactured and compound medicines used in
-practice by the medical faculty, and all the most important usually
-purchased by others for domestic uses, more especially in the great
-west and south, where every man, almost, is obliged to learn the uses
-and doses of calomel, blue mass and quinine, &c. The certainty of
-purity in these articles alone, is a matter of no small moment to the
-community at large; of the probabilities of their home adulteration I
-shall also refer to elsewhere.
-
-A few articles of this class may now and then, either through {266}
-culpable negligence on the part of the inspector, or by being entered
-under a false name, be imported, but they must be few, and are daily
-growing less. An instance of this kind has occurred in New York, where
-a large lot of sulphate of lime was offered in market, under the name
-of precipitated chalk. The New York College of Pharmacy, standing
-very properly as the guardians of the public health, and protectors
-of this act, for which they had petitioned and which they had agreed
-to support, by committee, reported the fact, and warned the holders
-of the consequences of continuing to sell the article as a medicinal
-preparation, upon which they very readily withdrew it. How it came into
-the city that committee have never been able to ascertain, whether
-imported under the head of plaster of Paris, and thus escaping the eye
-of the inspector, or whether passed by him, or at some other port,
-without due test and examination, I am not able to say. That it was
-imported under a false name, is, to my mind, the most likely of all.
-
-If our Colleges of Pharmacy in the different cities, as I have no doubt
-they will, continue to thus watch the articles offered them and the
-public, and act with the independence that has characterised them thus
-far, no deception of this kind will go long unexposed, and it will soon
-cease altogether.
-
-No manufactured article, susceptible of adulteration, ought ever to be
-suffered to pass by the Examiner of drugs without being _sampled_ and
-tested by analysis, and no matter what its appearances, or what its
-label; neither the one or the other are guarantees of its purity, for
-both may alike be counterfeits. The more popular the maker, the higher
-his name and reputation, the more likely his name, label, bottle and
-article to be counterfeited, as has Pelletier’s name to the article
-quinine, others to iodide of potassium, &c. &c.
-
-Secondly. The effects of the law upon crude drugs and medicines, such
-as leaves, barks, roots, gums, gum resins, &c. Upon these articles,
-the effect has been the same as upon chemicals and compound goods.
-Greater variations must of, course occur in their qualities, as many
-of them cannot be {267} tested with accuracy; and of the rest, very
-imperfect standards are to be found in any of the works on pharmacy or
-materia medica now extant. This was heretofore left entirely in the
-hands of the examiner at each port, who has been obliged to fix his own
-standards when there were none laid down in the works referred to in
-the instructions of the department. Such has been the case with many
-of our most valuable and important articles of crude drugs, gums, and
-gum resins,—such as opium, scammony, &c. Such also has been the case
-with many of the roots and barks, as rhubarb and the cinchona and all
-its varieties. One may have fixed upon five per cent. of morphine, and
-another upon eight, another ten, as the standard for opium. Again, the
-same might occur in admitting or rejecting scammony. One requiring
-sixty or seventy per cent. of resin, another admitting or rejecting,
-merely from the physical appearance of the article.
-
-So again with regard to barks, especially the cinchonas—one refusing
-to admit any except the true medicinal article; another admitting
-Maricaibo and other false barks usually sold in market as pale bark,
-or used to adulterate that article.—But, upon the whole class of crude
-drugs, the effect has been highly beneficial. Greater care is taken in
-their selection and preparation for market, and a vast quantity of many
-kinds of barks and roots heretofore finding daily their way into market
-either in their simple worthlessness or mixed with purer and different
-articles, are now scarcely, if ever found; and if seen, they are about
-the last of their kind.—Now and then, an article may get through our
-ports, by some adroit means of deception, or be slipped in at a port
-where there is no examiner, but this must be but seldom.—But recently,
-in New York, I saw several casks of gum guaic, the heads of which, for
-about six inches, were filled with a fair article, while the remaining
-portion of the cask was made up of the vilest trash imaginable. This
-is but a shallow trick that could not be often repeated, for though it
-might decieve the examiner (as it did not), it would meet detection in
-{268} the hands of the jobber, who would not fail to claim damages
-from the importer at once. Another mode of evading the law, is by
-sending sample packages to the examining office, or such cases as
-are known to be all right, and getting the whole invoice passed by
-them. This can only be guarded against by the examiner being always
-upon the alert, and where there is the least doubt, refusing to pass
-anything except what he sees and knows to be correct as to quality. The
-facility with which this fraud may be practised, led the convention
-of the Colleges of Pharmacy to recommend that every package should be
-examined; an opinion, I then and now fully concur in. Many similar
-instances, both in regard to chemicals, chemical preparations and all
-sorts of crude drugs, might be given, but they have no bearing upon the
-object of this report, only as they point to a necessity for the law’s
-continuance.
-
-Another immediate result of the law is the exclusion of damaged drugs.
-Heretofore no state of damage or decay, whether little or much,
-prevented an article, either manufactured or crude, being thrown into
-market and sold for whatever it purported to be, whether calomel half
-oxydyzed, iodide of potassium one-third deliquesced, rhubarb one-half
-rotten, senna in a similar or worse condition from being soaked with
-salt water—they each sold under their original names, and found their
-way into the bands of the buyers of _cheap goods_, either in that state
-or powdered or re-bottled, re-labelled, and done up good as new. The
-importer got his drawback of twenty-five, fifty, and seventy per cent.
-of duty. The insurance company sold the goods and paid the difference;
-bargain getters purchased; the physician prescribed; the apothecary
-dealt out, and the patient, suffering under the pains and ills of
-lingering disease, swallowed; all but the last got their pay, while the
-poor man who bore the unrighteous accumulation of the whole, cursed his
-physician for not understanding his complaint, and perchance turned his
-face to the wall and died. This is no fancy sketch, but true, every
-word of it, and more than once acted out in the dream of every-day
-life. {269}
-
-Under the proper construction and administration of the law, all
-this will and is now mostly prevented. It must be evident that any
-article of medicine essentially damaged, is not fit to be given to the
-sick as a remedy. This is a very important point, and all examiners
-should be careful to enforce it strictly, regardless of the specious
-plea of interested insurance companies or individuals, for any other
-construction for their general or especial benefit or relief.
-
-In few words then, may be summed up the immediate effects of this law:
-A purer and better class of chemicals and compound preparations, a
-material improvement in the quality of crude drugs imported, such as
-gums, barks, roots, leaves, and an almost entire exclusion of damaged
-and decayed drugs from our markets.
-
-These results are, in themselves, sufficient to mark the law as one
-of great value, and to entitle it to a sure claim for perpetuity, and
-its provisions to a steady enforcement. But they are by no means all
-that it has accomplished. Its remote or secondary effects, which I
-propose to point out, are equally important, and they are found in the
-influence upon our home manufactures and trade.
-
-It has often been claimed that the law was a tariff for protection to
-home adulteration, and while we shut out the evil in one way, we were
-equally exposed to it in the shape of home preparations; were this
-even true, it is no argument against the law for keeping out foreign
-adulteration, as it is very evident that if both are equally bad, no
-pure medicine can be had by those who require them, while if we are
-certain the foreign are pure, we have a choice between the pure and the
-sophisticated. But I am satisfied that the amount of home adulterations
-have been over estimated, and that under the effect of this law
-they are decreasing daily, and perhaps mainly because the demand is
-decreasing.
-
-I have never believed, though it has been again and again asserted,
-that our medical gentleman to any great extent, who buy and use
-most largely of this class of goods, have desired {270} to buy and
-use inferior medicines, because they were cheap, and my own direct
-intercourse and observation, as a druggist for five years, aside from
-a six years’ experience in the profession, has satisfied me of the
-correctness of my views. I speak of the country at large. Wherever
-it has been the case, it has been the result of ignorance, as to the
-appearance and physical properties of drugs that has led them into this
-error, an error in which, from a like ignorance, they have been kept
-by their druggist, who has been imposed upon by the bland assurance
-of the importer or jobber, which led him to take all things of a like
-name as of the same quality. There are those who buy because cheap, and
-prescribe, and perchance hope for success in the use of such remedies,
-but they are not found among our medical gentlemen of education and
-character and entitled to the respect and confidence of the community
-at large. The flood of light thrown upon this subject of adulterations
-of medicines by the reports to Congress; by the report of Dr. Bailey,
-special examiner for the port of New York; reports to the American
-Medical Association, and by various other writers in our pharmaceutical
-and medical journals, through the newspapers of the day, and various
-other means to the people, has worked, and is working a revolution
-in the drug trade at large. By a desire and growing necessity for a
-proper education of pharmaceutists and druggists, a man is no longer
-considered competent to sell, dispose and deal out medicinal articles
-affecting the health, life and happiness of his fellow-beings, simply
-because he can calculate a per centage, or make a profit.
-
-The reform in this department is, I know, but just beginning, though
-long needed, but it will progress, for public opinion demands, and will
-continue to demand it.
-
-Physicians, professors of materia medica, and teachers of practical
-pharmacy and chemistry are feeling it, and the whole course of teaching
-upon this and kindred branches, has received more attention from both
-professor and pupil within the two past years, than ever before in
-the same length of time in the United States. From these combined
-sources will continue to {271} flow a light that must shine upon and
-enlighten that ignorance which was permitting men to tamper with the
-life and health of the community. This has also had the effect to
-create a demand for pure medicines. Rhubarb is no longer rhubarb unless
-the quality is such as to commend it to the unfortunate consumer, and
-calling a thing by a good name is no longer sufficient to redeem it
-from its lack of curative properties and consequent worthlessness.
-
-Again, the endeavor to come up to the law’s standard for chemicals, the
-competition with the imported article, the increasing demand for good
-medicines, together with a commendable emulation among our chemists,
-has produced an improvement in this class of goods, sufficiently
-visible to refute all charges of home adulteration because protected
-from foreign competition; besides this, they are our fellow citizens,
-within reach of our complaints, with no intermediate dealer to shift
-the blame of impurity to the other side of the ocean, and thus wash
-his innocent hands at our cost. With this and the spirit of inquiry as
-to what we are selling, what we are buying, what we are administering,
-what we are swallowing with hopes of relief, that is abroad, no man can
-long escape detection, exposure and consequent loss of business, if
-engaged in the manufacture or sale of spurious goods.
-
-These opinions are the result of the concurrent testimony of the
-different examiners, of various dealers in drugs throughout the
-country, from whom I had before and since my appointment to this
-commission been in receipt of information, and are fully borne out by
-my own extensive observation in almost every state in the union.
-
-Without inquiring or pointing out the cause, the testimony to this
-effect, that the quality Of drugs in general has improved much within
-the two past years, is almost universal; and a style of drugs and
-chemicals, and of medicinal preparations, may now be found on sale in
-our great commercial emporiums, of a quality and purity never before
-found, certainly not in the United States, and I question if any
-wherelse. {272}
-
-These are the results of my observations, both as to the remote and
-immediate, or special and general effects of the law. And I feel that
-the friends of the law have great reason to congratulate themselves and
-the community at large, upon the fullest realizations of their hopes as
-to the good accruing from this sanitary measure.
-
-Those who were reaping an iniquitous harvest either through a desire to
-do evil for the purposes of gain (if any such there could have been),
-or through ignorance of the extent of such evil, must themselves feel
-that the law has worked no wrong to them even though it may have forced
-them into a different channel of trade. The only ones from whom we
-shall hear any complaints while the law is carefully and judiciously
-executed, or from whom we shall hear the plea for “unrestricted
-commerce,” and the potency of the great laws of trade as in themselves
-sufficient for the protection of life and health, are those whose
-prototypes aforetime cried out “Great is Diana of the Ephesians.”
-
-The value of their opinions may be measured by the sincerity of their
-professions, and the weight of their testimony calculated by the per
-centage of their gains.
-
-I have pursued my enquiries among drug importers and jobbers, meeting
-both friends and enemies of the law, among retail apothecaries,
-professional men and their patients, and my conclusions are that no
-more popular act, stands upon our congressional record.
-
-I have only to add my sincere wish, that it may long stand as a mark of
-the enlighted wisdom of the age and nation.
-
- The above report is but the general report upon the working of the
- law.—It was, we understand, accompanied by a second private and
- detailed one, regarding the manner in which, at different localities,
- the law has been carried out.—EDITOR.
-
-{273}
-
-
-ON THE MANUFACTURE OF NITRATE OF POTASH (SALTPETRE.)
-
-Previous to the middle of the seventeenth century, the chief part of
-the saltpetre consumed in this country was obtained from refuse animal
-matters, as is evident from the following edict, issued by James I.,
-for the regulation of the “mynes of salt peter.”—“The King, taking into
-his consideration the most necessary and important use of gunpowder,
-as well for supply of his own royall navie, and the shippinge of his
-lovinge subjects, as otherwise for the strength, safety, and defence of
-his people and kingdoms, and how greate a blessinge it is of Almighty
-God to this realm, that it naturally yieldeth sufficient mynes of
-salt peter for making of gunpowder for defence of ittself, without
-anie necessitie to depend uppon the dangerous chargeable and casuall
-supply thereof from forraigne parts, hath sett downe certen orders and
-constitutions to be from henceforth inviolably kept and observed, for
-the better maynteyning of the breed and increase of salt peter, and the
-true making of gunpowder.
-
-“Noe person doe from henceforth pave with stone or bricke, or floare
-with boarde, anie dove-house or dove-cote, or laie the same with lyme,
-sand, gravel, or other thing, whereby the growthe and increase of the
-myne of salt peter maie be hindered or ympaired, but shall suffer the
-floure or grounde thereof to lye open with goode and mellowe earth, apt
-to breede increase of the myne and salt peter, and so contynue and keep
-the same.
-
-“That no innkeepers, or others that keep stables for travellers and
-passengers, doe use anie deceiptful meanes or devices whereby to
-destroy or hinder the growthe of salt peter in those stables. And that
-no stables at all be pitched, paved, or gravelled where the horse feete
-used to stand, but planked only, nor be paved, pitched, or gravelled
-before the plankes next the mangers, but that both places be kept and
-maynteyned with goode and mellowe earth, fitt and apt to breede and
-increase the myne of salt peter, and laide with nothinge which may
-hurte the same. {274}
-
-“That all and every such person and persons as having had heretofore
-had anie dove-house, dove-cote, or stable (which were then good
-nurseries for the myne of salt peter) have sithence carried out the
-goode moulde from thence, and filled the place agayne with lyme, sand,
-gravel, rubbish, or other like stuff, or paved or floored the same,
-whereby the growthe of salt peter myne there hath been decayed and
-destroyed, shall and doe within three months next contryve to take up
-the pavements and boards agayne, and carrie out the said gravel, lyme,
-and offensive stuff from thence, and fill the place agayne with goode
-and mellowe earth fitt for the increase of salt peter, three foote
-deepe at the least, and so contynue and keepe the same for the breede
-of salt peter myne. No person, of anie degree whatsoever, was to denie
-or hinder the salt peter man workinge any earth; nor was anie constable
-to neglect or to forbeare to furnish him with convenient carriages
-necessarie for his worke; and every justice to whom the salt peter
-man should address himself for assistance was at his peril to fail to
-render it, that his majesties service might not suffer by his default.
-And no one was to give any gratuity or bribe to the salt peter man for
-forbearinge or sparinge of anie ground or place which may be digged or
-wrought for salt peter.”
-
-To lessen the annoyance to the owners of these dove-cotes and stable
-beds of saltpetre, and to promote the comfort of the pigeons, the
-saltpetre man was “to dig and carrie away the earth in such convenient
-time of the daie, and work it in suche manner as maie give least
-disturbance and hurte to the pigeons, and encrease of their breede, and
-in the chief tyme of breeding, that it be not done above two howers in
-anie one daie, and that about the middest of the daie, when the pigeons
-use to be abroade. And shall in like seasonable tyme carrie in the
-saide earth after it shall be wrought, and spreade itt there, and make
-flatt the floure of the dove-house, and leave itt well and orderlie.”
-
-In another proclamation, issued two years after this, it was ordered
-that whensoever anie ould building or house in London {275} within
-three miles, is to be pulled down and removed, notice is to be given
-at the king’s storehouse in Southwark, that the deputy may first take
-as much of the earth and rubbish as in his judgement and experience is
-fitted for salt peter for the King’s service.”
-
-Soon after, we find that this enactment which caused much complaint,
-was repealed. “The manufacture of salt peter,” says the king,
-“had hitherto produced much trouble and grievance to the lieges,
-by occasioning the digging up the floors of their dove-cotes,
-dwelling-houses, and out-houses, and had also occasioned great charge
-to the salt peter men for removing their liquors, tubbes, and other
-instruments, and carrying them from place to place, but now, divers
-compounds of salt peter can be extracted by other methods, for which
-Sir John Brooke and Thomas Russell, Esq., have received letters patent.
-
-“To encourage so laudable a project, all our loving subjects,”
-continues his majesty, “inhabiting within every city, town, or village,
-after notice given to them respectively, shall carefully and constantly
-keep and preserve in some convenient vessels or receptacles fit for
-that purpose, all the urine of man during the whole year, and all the
-stale of beasts which they can save and gather together whilst their
-beasts are in their stables and stalls, and that they be careful to
-use the best means of gathering together and preserving the urine and
-stale, without any mixture of water or other thing put therein. Which
-our commandment and royal pleasure being so easy to be observed, and
-so necessary for the public service of us and our people, that if any
-person be remiss thereof, we shall esteem all such persons contemptuous
-and ill affected both to our person and state, and are resolved to
-proceed to the punishment of that offender with that severity we may.”
-
-Sir John agreed to remove the liquid accumulations from the houses once
-in every twenty-four hours in summer time, and every forty-eight hours
-in winter time.
-
-About the year 1670, the importation of saltpetre from the East Indies
-(where it is obtained as a natural product, being {276} disengaged by
-a kind of efflorescence from the surface of the soil) had so increased
-as to affect the home manufacture, which has since gradually declined
-and become extinct. The manufacture of saltpetre from sources of the
-kind above mentioned, is not followed in this country at the present
-day, and it will be unnecessary to indicate here the process employed
-in France, Sweden, Germany, and other countries for obtaining it by the
-decomposition of animal refuse, the more especially as full accounts
-are given in Knapp’s _Technology_, Ure’s _Dictionary of Arts and
-Manufactures_, and other standard chemical works; we shall therefore
-confine our attention to an account of the processes which have been
-proposed for obtaining nitrate of potash by the decomposition of
-nitrate of soda and other sources.
-
-The first of these processes is that of adding nitrate of lime to a
-solution of sulphate of potash; sulphate of lime is precipitated, and
-nitrate of potash obtained in solution, which, on evaporation yields
-crystals of that salt.
-
-Mr. Hill’s method of manufacturing nitrate of potash is by decomposing
-nitrate of soda by means of muriate of potash. For this purpose the
-nitrate of soda is put into a suitable vessel, made of wrought or
-cast iron, and dissolved in as much water as is required, and then
-the equivalent quantity of muriate of potash is added; decomposition
-ensues, with the formation of nitrate of potash and muriate of soda;
-the greater portion of the latter is separated during evaporation, as
-it is equally soluble at all temperatures. The nitrate crystallizes on
-the cooling of the solution. Specimens of this nitre were shown at the
-Great Industrial Exhibition.
-
-Mr. Rotch’s processes for converting nitrate of soda into nitrate of
-potash are as follows:―
-
-_First process with American potashes, (caustic)._—In a suitable
-round-bottomed iron boiler, he dissolves 2000 lbs. of the ashes in 1000
-quarts of water, and then applies heat for three hours, at the end of
-which time the solution ought to be of a density of 45° Baumè, (sp. gr.
-1.453). In a similar boiler he dissolves 1300 lbs. of nitrate of soda
-in 1200 quarts of water, {277} applying the heat as before, until the
-solution becomes of the density of 45° Baumé. Both solutions are then
-allowed to stand for twelve hours to cool and settle. They should be
-heated to from 175° to 200° Fah., and then both poured into a third
-vessel or crystallizing pan, when the double decomposition will take
-place, and the crystals of nitrate of potash be deposited, this first
-deposition giving from 700 to 900 lbs. of good merchantable saltpetre.
-
-Care must be taken not to let the heat fall below 85°, at which the
-crystals form; and the better and more regularly the heat is kept up,
-the speedier will be the deposition of the crystals. The mother-liquor
-should then be poured off, and the crystals collected and thrown into
-the centrifugal drying machines, where they may be washed with weak
-mother-liquors. The portion of nitrate of potash that is left in the
-mother-liquor may be obtained by crystallization as before.
-
-_Second process with carbonate of potash (Pearlash)._—The pearlash
-is dissolved in water, and the solution brought to a density of 40°
-Baumé (sp. gr. 1.384). This will cause whatever sulphate of potash
-may be contained in it to be deposited. The solution should then be
-left to stand for five or six days, after which it should be poured
-off, and diluted with water, until its density becomes 15° Baumé
-(sp. gr. 1,116). Caustic lime should then be added in the proportion
-of one-fourth of the weight of the original quantity of carbonate
-employed. It should then be poured off from the carbonate of lime
-formed, heated and mixed with the solution of nitrate of soda, as above
-described. The precise proportions that the caustic alkali should
-bear to the nitrate of soda, are forty-eight parts of the former to
-eighty-six parts of the latter. The materials to be used should be
-tested, so as to enable the just proportions to be arranged according
-to the formula just given. The patentee states that by this means a
-nitre is produced which is equal to the Bengal saltpetre, after the
-latter has gone through the expensive process of refining.
-
-A Stockholm manufacturer says:—“On dissolving nitrate of {278} soda
-in excess of caustic potash solution, and evaporating to 28° or 32°
-Baumé (sp. gr. 1.241 or 1.285), the chief part of the saltpetre
-crystallizes, contaminated by the magnesia which is precipitated, and
-a small quantity of carbonate of lime. In order to obtain the whole
-of the saltpetre, the solution must be concentrated to 45° or 50°
-Baumé (sp. gr. 1.453 or 1.530). Here however, a difficulty arises; the
-cast iron crystallizing vessels are not impermeable to the liquor,
-which, whatever the thickness of the vessels, oozes through them, thus
-occasioning great loss. The saltpetre which still remains in solution
-after crystallization in the caustic solution at 30° Baumé (sp. gr.
-1.263), cannot be collected, and if it be employed in the manufacture
-of soap, this will be found to contain so large a proportion of
-saltpetre, that it deliquesces and falls to pieces in a few days.”
-
-“A method employed in the Russian manufactories is first to dissolve
-the fine pearlash, and the nitrate of soda in the relative proportions
-of water required for their mutual decomposition, or rather with an
-excess of potash in such a quantity of water that the resulting product
-remains dissolved at 50° Reaumur. The solution is then allowed to
-settle, whereby the carbonates of lime and magnesia are deposited,
-after which the liquor is run off into wooden crystallizing vessels.
-As soon as the temperature is lower than 50° Reaumur, the principal
-part of the nitrate of potash crystallizes. The crystallization must
-now be very attentively watched, for as soon as the soda begins also to
-crystallize, the mother-liquors should be run off into other vessels,
-where a small quantity of nitrate of potash will crystallize, though
-the principal part will be soda. The nitrate of potash and the soda
-must then be purified by new crystallizations. The salts formed from
-the mother-liquors must be redissolved with the nitrate of potash or
-the soda, according to which of the two most predominates.”
-
-Messrs. Crane and Jullion patented in 1848 the following method of
-manufacturing the nitrates of potash and soda:—The oxides of nitrogen
-evolved in the process of manufacturing oxalic acid, are mixed with
-oxygen gas or atmospheric air, and {279} made to pass slowly through
-a chamber or other apparatus containing an alkali placed on trays
-(similar to the lime in a dry lime purifier), the mixed gases combine
-with the alkali, forming a nitrate of potash or soda, whichever alkali
-may have been employed.
-
-De Sussex’s process for the manufacture of nitrate of potash is as
-follows:—A solution is made of 166 pounds of nitrate of lead, and
-another of 76 pounds of chloride of potassium. The two solutions are
-then mixed, when double decomposition takes place, chloride of lead
-being precipitated, and nitrate of potash obtained in solution. In
-order to avoid the presence of lead in the nitrate of potash, a small
-portion of caustic or carbonated lime or magnesia is added, by which
-means any portion of the chloride of lead remaining in solution is
-precipitated. The solution of nitrate of potash is then evaporated and
-crystallized.
-
-Nitrate of soda is obtained in the same way, by substituting sixty-six
-pounds of chloride of sodium for the chloride of potassium above
-mentioned.—_Pharmaceutical Journal and Transactions, July 1, 1852._
-
-
-ON TINCTURE OF OPIUM.
-
-The Pharmaceutical Society of Antwerp has employed a commission
-composed of its members to determine the best menstruum for the
-preparation of tincture of opium. It has arrived at the following
-results:―
-
-1. Good opium gives, when treated with water, less extract than bad or
-adulterated.
-
-2. By warm digestion, a stronger solution is obtained than by cold
-infusion.
-
-3. Alcohol must be preferred to wine in the preparation of tincture of
-opium.
-
-4. Narcotine, although alone insoluble in water, becomes partially
-extracted with the other ingredients of opium. When it is advisable
-to avoid the removal of narcotine, proceed {280} as follows:—Treat
-carefully prepared aqueous extract of opium with, boiling alcohol; this
-dissolves out the narcotine and morphine, from which solution, when
-cold, the narcotine separates.
-
-After the precipitation, whatever ingredients are necessary to form the
-tincture are to be added to the alcoholic solution.
-
-By this opportunity, the commission recommend another process by which
-morphine may be more readily separated from narcotine. One part of the
-opium is to be treated with four parts of alcohol. After the alcohol
-has been separated by filtration, the residue is again to be macerated
-with three parts of alcohol. The resulting tinctures, after being
-mixed, are to be set aside for twenty-four hours to allow the narcotine
-to separate; afterwards the morphine is to be precipitated with
-ammonia. To remove the last traces of morphine, the fluid, from which
-the precipitated morphine has been filtered, is to be kept in a warm
-place for two days, a little water having been previously added, when
-a fresh quantity of morphine will fall down. By this method, 1/12 of
-the weight of the opium employed, can be obtained as morphine.—_Annals
-of Pharmacy and Practical Chemistry._
-
-
-PREPARATION OF PROPYLAMINE FROM ERGOTINE.
-
-BY DR. F. L. WINCKLER.
-
-The readers of the _New Repertory for Pharmacy_, part i., p. 22 already
-know that I have been for some time occupied with the investigation
-of ergot, and that I obtained, by the distillation of ergotine with
-potash, besides ammonia, a substance having a very unpleasant odor,
-which conducted itself as a volatile alkali, and possessed a narcotic
-and highly diuretic property. This confirmation of a result which I
-had obtained some years before, induced me to continue my experiments,
-and I have now arrived at the conviction that the volatile alkali
-{281} which is extracted from ergotine by distillation with potash is
-propylamine (N H‗{2} C‗{6} H‗{7}, or N H‗{3} C‗{6} H‗{6}) consequently
-the same which, according to the most recent experiments, is proved
-to be the product of decomposition of narcotine by potash, and the
-ingredient of herring-pickle. The smell itself made me imagine,
-long before I was acquainted with Wertheim’s experiments, that
-herring-pickle must likewise contain propylamine, and my experiments
-have fully confirmed this supposition, for in distilling herring-pickle
-with potash I obtained the same propylamine as that extracted from a
-concentrated aqueous solution of ergotine. The properties in which they
-agree are the following:―
-
-1. Propylamine saturates acids completely, and thus forms salts
-soluble in water, and for the most part in spirit of wine, with the
-exception of sulphate of propylamine, which does not dissolve in the
-latter. Beautiful white crystals may, however, be produced from the
-concentrated aqueous solution by the admixture of alcohol of eighty
-per cent. of strength. The salts of propylamine dissolved in water and
-treated with tannic acid produce a white (flocculent) precipitate; with
-chloride of mercury likewise, a white but pulverulent precipitate;
-with nitrate of silver a white (flocculent) precipitate; and with
-chloride of platinum a yellow precipitate (a crystalline powder). The
-salts of propylamine have a strong odor of fresh ergot, much less of
-herring-pickle, and are easily decomposed by potash.
-
-2. The concentrated aqueous solution being mixed with a fourth of its
-volume of tincture of iodine, a considerable dark yellowish-brown
-sediment is precipitated, and the supernatant fluid appears dark
-brownish-red. But in a very short time this sediment diminishes
-considerably, the fluid gradually changes color, so that in about
-twelve hours’ time there will be left but very little orange-colored
-sediment, whilst the fluid itself will appear almost colorless.
-Immediately after the addition of iodine the very disagreeable odor of
-propylamine disappears, and the mixture acquires the odor of iodine.
-
-3. When the neutral aqueous solution of sulphate of {282} propylamine
-is evaporated in a water-bath it exhales a very disagreeable odor of
-herring, the solution becomes very acid, has only a weak odor of ergot,
-and all the re-actions cease. If this concentrated solution be digested
-with caustic lime in a still, there comes over, without the aid of
-artificial heat, almost pure propylamine, which has the odor of an
-ammoniacal liquid, and produces all the re-actions of pure propylamine.
-
-Now the propylamine of ergot presents the very same results, and it
-is on this account that until lately, it has always been mistaken for
-ammonia. I am convinced that it constitutes the odorous principle
-of urine, perspiration, and in the blood, and is often the cause
-of the odor which we observe in the action of alkaline leys upon
-nitrogenous compounds. Propylamine belongs to the organic bases, and
-may be considered as the adjunct [_Paarling_] of ammonia. I think I
-am justified in concluding, from the results of my experiments, that
-propylamine, _combined with an acid_, pre-exists in ergot as well as in
-herring-pickle, and is not produced by the potash, as is the case with
-narcotine. I have previously demonstrated the presence of formic acid
-in ergot, and it is with that acid that the propylamine seems to be
-united. I have not yet made any experiments with herring-pickle.
-
-It will now be difficult to determine whether the medicinal activity
-of ergot depends on propylamine or not, for the neutral salts of
-propylamine dissolved in water are easily absorbed, and I hope to be
-able to induce physicians to make pharmacological and therapeutical
-experiments.
-
-I have reasons to suppose that propylamine is likewise an ingredient
-of cod-liver oil, and being easily combined with iodine, it may soon
-be ascertained by practical application whether it ought not to be
-considered as the bearer (_träger_) of iodine. I propose to begin
-the necessary experiments in this respect as soon as my apparatus is
-entirely free from the odor of propylamine, in order to avoid all error.
-
-Finally, I had the idea of trying an experiment with regard to
-propylamine upon my own urine, which I made after a {283} supper
-consisting of roast veal, potato-salad, and a glass of water, and which
-was neither acid nor alkaline. I poured three ounces of the urine,
-fresh made and still quite warm, upon four ounces of burned lime,
-and submitted it to distillation. The distilled product had indeed
-the odor of pure propylamine, and re-acted strongly alkaline; but
-acted in a remarkable manner on tincture of iodine in the same way as
-liquid ammonia. After having neutralized it with sulphuric acid, the
-liquid showed when tested with tannic acid and nitrate of silver, an
-unmistakable proportion of propylamine. Might this be formed out of the
-urea? My experiment confirms, at all events, the opinion stated above;
-the beginning is made, and I may now pass from experiment to scientific
-deductions.
-
-_Remarks by Dr. Buchner_:—My friend, Dr. Winckler, in communicating
-the above paper, very agreeably surprised me by transmitting at the
-same time specimens of his preparation of propylamine, and that too in
-quantities varying from one to two drachms, for which I hereby beg to
-express to him publicly my best thanks. I received from him, namely:―
-
-1. The rough product of distillation of herring-pickle.
-
-2. The aqueous solution of the sulphate produced from it.
-
-3. The pure crystallized, and by spirit of wine, precipitated sulphate
-of propylamine.
-
-4. The concentrated solution of pure propylamine.
-
-5. The aqueous solution of the sulphate prepared with No. 4.
-
-Hitherto I have only experimented with the preparations No. 2, 4 and 5,
-in order to verify and complete the statements of the above paper. All
-these solutions are quite colorless and clear, like water; they diffuse
-already at some distance a strong odor of herring; but the pure aqueous
-propylamine, when smelt at closely, has a pungent odor, very similar
-to that of liquid ammonia, which, however, at a distance, assumes, as
-it has been said, the smell of herring. This odor is so peculiarly
-characteristic, that I do not doubt, that even in water-closets, in
-consequence of fermentation, propylamine is developed, particularly
-as woollen clothes easily acquire there the odor of {284} herring.
-All the conditions at least necessary for the formation of propylamine
-ammonia, and carbo-hydrogen, are to be found in water-closets. In a
-small close room its odor becomes insupportable, and affects strongly
-the head. Dr. Winckler, had therefore, good reasons to warn me against
-it. A young chemist, upon whose hand I dropped a very minute quantity
-of aqueous propylamine, for the purpose of ascertaining its taste,
-notwithstanding that he had been walking after that a considerable
-distance, and had been exposed to the air, smelt still, after some
-hours, so strongly of herring, that happening to to enter a company, he
-was spoken to about it by several persons. I mention this merely as a
-caution. The taste of pure aqueous propylamine is pungently alkaline,
-and hardly distinguishable from that of caustic ammonia.
-
-The chemical re-actions of propylamine are well explained by Winckler.
-Turmeric paper turns brown with it, but being exposed to the air, in
-which propylamine quickly evaporates, it resumes again its primitive
-yellow color.
-
-Sulphate of propylamine (No. 3,) appears in small splendid white
-prisms, exposed to the air it evolves a distinct smell of herring, and
-has a pungent saline taste, like sulphate of ammonia; it is entirely
-neutral, and when moistened with water, it does not alter the color
-either of blue or red litmus-paper, or of turmeric-paper.
-
-We have in solutions of silver and iodine, which are not precipitated
-by ammonia, very appropriate re-agents for distinguishing propylamine
-from ammonia. Propylamine, however, treated with sulphate of silver,
-gave me not a white, but a yellowish-brown precipitate; and this
-result suggested to me the idea, that formiate of propylamine might be
-present. This precipitate was easily and perfectly dissolved in caustic
-liquid ammonia. With an aqueous solution of iodine I acquired at one
-time, according to the quantitative proportion a brown, and at another
-time a beautiful yellow precipitate, which dissolved in an excess of
-iodide of potassium. I usually employ an aqueous solution of iodine in
-iodide of potassium {285} instead of the tincture of iodine made with
-spirit of wine. The precipitate produced by iodide of potassium is, as
-I have just stated, either brown or yellow, provided that no excess of
-iodide of potassium be employed.—_Buchner’s Neues Repertorium_, Bd. 1.
-
-
-EDITORIAL.
-
-
-We had intended once more to call the attention of our readers to
-the approaching meeting of the National Convention, but have been
-anticipated by one of our colleagues in the communication which is
-subjoined, giving an account of both its origin and its objects. It is
-to be hoped that, as the convention will probably assume a permanent
-organization, its proceedings will take on a scientific character.
-Independent of the subjects which pharmacy, every where, presents, such
-a body would be a fit one to assist in ascertaining and developing
-the resources of our indigenous materia medica. Our country is rich
-in medicinal articles, but the properties of many of them are but
-imperfectly known, and comparatively little attention has been paid
-to their pharmaceutical preparation. Inquiries of this kind, carried
-on with the aid of physicians, particularly of those attached to
-hospitals, could not fail to produce important results, and they seem
-peculiarly adapted to the wants of the community and to the position of
-the convention.
-
-THE NATIONAL PHARMACEUTICAL CONVENTION.
-
-The second meeting of Pharmaceutists, the first as a National
-Convention, to which the Convention of Delegates from the several
-Colleges of Pharmacy, held in New York last October, may be considered
-the preliminary movement, will take place in Philadelphia, on Wednesday
-the 6th of October ensuing. The convention of last fall was held
-chiefly for the purpose of considering the important subject of
-standards of quality and purity which imported drugs ought to possess
-in order to regulate and render uniform the character required of
-them by the government Inspectors, at the various ports of entry
-in the United States. Unofficially and officially the duty of
-affixing standards for imported drugs was, with propriety, assigned
-to the Colleges of Pharmacy. For this object they were called in
-convention for that time only, and permanent organization was not
-then anticipated. But on the meeting of the Colleges, and their
-united action upon the one subject of such general importance, it was
-a natural consequence that a spontaneous and general feeling should
-arise in favor of the establishment of a National Pharmaceutical
-Organization, with an Annual Convention for the {286} advancement
-of science and for the promotion of intercourse and good will among
-pharmaceutists generally. Accordingly the preamble and resolutions
-brought forward by the committee, subsequent to their report on the
-special business of that convention and its action upon it, were
-received with hearty favor. We think it would be well to recapitulate
-them:
-
-  “WHEREAS, The advancement of the true interests of the great body
- of Pharmacutical practitioners in all sections of our country is a
- subject worthy of earnest consideration; and whereas Pharmaceutists,
- in their intercourse among themselves, with physicians and the public,
- should be governed by a code of ethics calculated to elevate the
- standard and improve the practice of their art; and whereas, the means
- of a regular pharmaceutical education should be offered to the rising
- Pharmaceutists by the establishment of Schools of Pharmacy in suitable
- locations; and whereas, it is greatly to be desired that the united
- action of the profession should be directed to the accomplishment of
- these objects; therefore,
-
- _Resolved_, That in the opinion of this Convention, much good will
- result from a more extended intercourse between the Pharmaceutists
- of the several sections of the Union, by which their customs and
- practice may be assimilated; that Pharmaceutists would promote their
- individual interests and advance their professional standing by
- forming associations for mutual protection, and the education of their
- assistants, when such associations have become sufficiently matured;
- and that, in view of these important ends, it is further
-
- _Resolved_, That a Convention be called, consisting of three delegates
- each from incorporated and unincorporated Pharmaceutical Societies,
- to meet at Philadelphia, on the first Wednesday in October, 1852,
- when all the importent questions bearing on the profession may be
- considered, and measures adopted for the organization of a National
- Association, to meet every year.
-
- In accordance with these resolutions, it was resolved that the
- President of the Convention be requested to transmit an invitation to
- the authorized bodies, at least three months previous to the time of
- meeting, desiring such bodies to acquaint him with the names of the
- delegates they may appoint.
-
- On motion, it was resolved that the New York Delegation be appointed
- a Committee to lay the proceedings of this Convention before the
- Secretary of the Treasury of the United States, and afterwards have
- them published in pamphlet form.
-
- Dr. Philbrick of Boston, offered the following preamble and
- resolution, which were adopted:
-
- WHEREAS, To secure the full benefits of the prohibition of
- sophisticated drugs and chemicals from abroad, it is necessary to
- prevent home adulteration; therefore,
-
- _Resolved_, That this Convention recommend to the several Colleges
- to adopt such measures as in their respective states may be best
- calculated to secure that object.
-
- On motion of Mr. Colcord of Boston, it was
-
- _Resolved_, That a committee of three be appointed by this Convention
- to act as a Standing Committee to collect and receive such information
- as may be valuable, {287} and memorials and suggestions from any
- Medical and Pharmaceutical Associations, to be presented at the next
- Convention.
-
- The President appointed G. D. Coggeshall of New York, S. M. Colcord of
- Boston, and W. Procter, Jr., of Philadelphia, as the Committee.
-
- A vote of thanks to the officers was passed, and then the Convention
- adjourned, to meet in Philadelphia, on the first Wednesday in October,
- 1852.”
-
-We hope that the considerations embraced in the preamble and
-resolutions of the committee will engage the thoughtful and
-earnest attention of every apothecary every where throughout the
-United States, who has a just sense of the proper dignity of his
-profession and an honest desire for its advancement, and that all
-will feel the importance of a general gathering at the approaching
-convention,—one that shall comprise a full representation of remote
-as well as adjacent districts of our extended country. In the words
-of the resolution, “three delegates, each, from incorporated and
-unincorporated pharmaceutical societies,” are invited, but a feeling
-has been increasingly manifested since the last convention, to solicit
-representation from all districts, small as well as large, that in
-places where but few apothecaries are located—too few as they may think
-for efficient organization,—they should yet feel their individual
-responsibility, and be encouraged to depute one or more of their number
-to represent them. All, who come in the right spirit of regard for
-the cause, may be sure of being welcome.—A National Pharmaceutical
-Association will undoubtedly be organized on a similar plan to that
-of the medical profession, and in it individuals may be admitted to
-membership that are acceptable as worthy practioners of their art.
-
-The convention will have many subjects of general interest to discuss
-and to arrange for future consideration. Prominent amongst these
-will be, a Code of Ethics which should govern pharmaceutists in the
-performance of their duties, and in their intercourse with each other
-and with physicians; the importance of general conformity in practice
-with the United States Pharmacopœia; the suppression of _home_ as well
-as the exclusion of _foreign_ adulteration; and the driving out of
-quackery into its own mean company. That all these ends can at once be
-attained is scarcely to be hoped for; but we trust the convention will
-be composed of men who appreciate the distinctness of the honorable
-practice of our profession from all malpractice and quackery, and who
-are fully disposed to mark the division clearly and broadly; so that
-persons governed by such opposite principles may take their separate
-places, and be esteemed accordingly.
-
-We are authorized by Dr. Guthrie, who, since the Convention of 1851,
-has removed to Memphis, Tennessee, to request that the names of
-delegates may be reported to Prof. William Procter, Philadelphia,—a
-convenient arrangement, as Mr. Procter is one of the delegates to the
-next Convention, residing in the city where it is to be held.
-
-We would also invite the attention of Pharmaceutists to the resolution
-introduced by Mr. Colcord, of Boston, and hope that any suggestions
-they may wish to offer, will be presented at an early day to one of the
-committee appointed, to rceive them.
-
-{288}
-
-
-POISONING BY ADULTERATED CIDER.
-
-A number of cases of lead poisoning, two of which terminated fatally,
-have lately occurred at Paris, which have been traced to the use of
-cider, clarified by a mixture of acetate of lead and carbonate of
-potassa. The history of this matter shows the efficacy of the French
-law regarding the use of poisonous substances, and the rigor with which
-it is enforced:―
-
-Several manufacturers, were accused of having sold cider adulterated
-and containing substances injurious to health; others in addition
-to this, of having caused various internal injuries to different
-individuals, and one M. Henon, further of having thus caused the death
-of two individuals.
-
-One of the witnesses testified, that he had purchased cider at the
-establishment of the defendant, that some days after drinking it he had
-been attacked with colic, and constant tremblings; by the advice of his
-physician, he sent a quantity of the suspected cider to the prefect of
-police for analysis. A number of other witnesses who had been poisoned,
-made statements to the same effect.
-
-M. Chevallier deposed, that he had received a letter from the prefect
-of the police, enclosing one from the physician of the plaintiff, who
-stated that a number of his patients had been rendered ill by the use
-of this cider; that he had, in consequence of this, inspected the
-various establishments in which the manufacture of cider was carried
-on, and that he has ascertained the presence of lead in the cider
-obtained at establishments of the accused.
-
-Several physicians testified, that the symptoms under which their
-patients (the witnesses) had labored, were due to lead poisoning.
-
-M. Dubail, a _Pharmacien_, testified that he had furnished M. Henon,
-(one of the accused), with a mixture of acetate of lead and carbonate
-of potassa, which M. H. stated, that by the advice of one of his
-clerks, he intended to use in the clarification of cider. That he had
-cautioned M. H. regarding its employment, and had furnished him with
-a re-agent for the purpose of detecting any lead which might not be
-precipitated in the cider thus clarified.
-
-The trial was commenced on the 9th of May, continued upon the 11th, and
-judgment rendered on the 18th.
-
-Henon, the use of whose cider had caused two deaths, was condemned to
-18 months imprisonment and to pay a fine of 800 francs; a second, to
-8 months imprisonment and a fine of 500 francs; a third, to 6 months
-imprisonment and 500 francs; while a fourth party, accused only of
-selling adulterated cider, but to the employment of which no injury had
-been traced, was imprisoned 3 months and fined 100 francs. M. Henon was
-condemned to pay 24,050 francs in addition as damages; another of the
-accused, the sum of 1500 francs.
-
-Truly, if the Prince President has been rather free in the employment
-of lead in the streets of Paris, the government takes good care that
-its citizens shall not be poisoned by it with impunity.
-
-
-ERRATUM.—In the July No. page 224, article announcing delegates to the
-Convention for 1852, fourth line, for Monday read _Wednesday_.
-
-{289}
-
-
-
-
-NEW YORK
-
-JOURNAL OF PHARMACY.
-
-OCTOBER, 1852.
-
-
-UNITED STATES CUSTOMS.
-
-NEW YORK, September 25, 1852.
-
-MR. GEORGE D. COGGESHALL.
-
-_Dear Sir_,—Your kind and courteous favor of the 16th instant, on
-behalf of the Publishing Committee of the New York Journal of Pharmacy,
-asking “information respecting the character of imported drugs and
-medicines coming under my supervision; and also, information in
-reference to the general working and effect of the drug law of 1848,”
-has been before me for several days, waiting such response, in the
-shape of a full and lengthy communication in detail, as it was my wish
-to furnish; but pressing and increasing official duties compel me,
-from want of time (not material), to forego that pleasure and confine
-myself to a brief statement of facts and data, which, together with
-some general observations, I am in hopes may, nevertheless, be found
-interesting to your readers.
-
-As an evidence of the beneficial effects of the wise sanitary measure,
-in the success of which, we have all taken so much interest, I am
-pleased to say that the character and quality of the more important
-articles of drugs, medicines and chemical preparations, connected
-with medicine at present presented for entry from abroad, is greatly
-improved, and of a far higher standard of strength and purity than
-formerly; notwithstanding, as will be seen, I still have occasion to
-apply the “veto power”—a labor of love, which must, of necessity,
-be {290} performed in order to arrest the unhallowed strides of
-deception and fraud which will ever be practised, to a greater or less
-extent, as long as we have those among us, engaged in any department
-of the drug trade, who, to put money in their purse, would endanger,
-if not sacrifice the lives of their fellow men. The law in question
-has now been in operation at this port something more than four
-years; and, with the exception of some eleven months, the duties and
-responsibilities of its administration have devolved upon me. On the
-21st day of April, 1849, I made a report to the New York Academy
-of Medicine, on the practical operation of this law, and stated
-therein the more important articles of drugs and medicines, with the
-quantities annexed, rejected by me up to that date; but as that report
-is doubtless familiar to most of your readers, I have not deemed it
-necessary to repeat them here. The following are the more important
-articles, with the quantities annexed, that I have since rejected and
-condemned as not of the requisite strength and purity to be safely and
-properly used for medicinal purposes, viz:―
-
- Senna,                        31,838 lbs.
- Jalap root,                   37,121 lbs.
- Rhubarb root,                  5,782 lbs.
- Sarsaparilla,                 65,374 lbs.
- Mezereon bark,                 1,353 lbs.
- Opium,                         3,164 lbs.
- Kino,                            230 lbs.
- Scammony,                      1,483 lbs.
- Aloes,                        12,375 lbs.
- Squills,                       1,626 lbs.
- Spurious Peruvian bark,      304,135 lbs.
- Spanish Saffron,                 360 lbs.
- Ergot,                           475 lbs.
- Chamomile flowers,             1,896 lbs.
- Assafœtida,                    3,700 lbs.
- Worm seed,                       230 lbs.
- Colchicum seed,                2,246 lbs. {291}
- Valerian root,                   650 lbs.
- Guaiacum,                      9,300 lbs.
- Cream of Tartar,               7,673 lbs.
- Magnesia (carb.),              2,867 lbs.
- Magnesia (calc’d.),            1,560 lbs.
- Althea root,                   1,117 lbs.
- Liquorice root,                9,430 lbs.
- Bistort root,                    140 lbs.
- Gentian root,                  7,572 lbs.
- Gentian root, in powder,         430 lbs.
- Lavender flowers,              3,042 lbs.
- Poppy flowers,                   190 lbs.
- Hellebore root (white),          460 lbs.
- Pareira Brava root,              730 lbs.
- Cantharides,                   1,276 lbs.
- Creosote,                        140 ozs.
- Bromine,                         430 ozs.
- Sulphate of Quinine,           3,200 ozs.
- Iodine,                        6,864 ozs.
- Hydriodate of Potass,          3,720 ozs.
-
-Making altogether some five hundred and twenty thousand pounds, to
-say nothing of various articles in small quantities rejected from
-time to time, which I have not considered of sufficient importance to
-note down. This, together with the ninety thousand pounds previously
-rejected, as stated in an early report above alluded to, makes some
-six hundred and ten thousand pounds of various articles of drugs and
-medicines condemned by me as unfit for medicinal purposes since the law
-took effect at this port. What articles and in what quantities, were
-rejected during the eleven months that I was absent from the office,
-I am not advised, neither am I at this time able to say what has been
-done under the requirements of this act at the other ports of entry. I
-hope, however, that the special examiners can give a good account of
-their stewardship, and that they will not hesitate to do so, whenever
-the information is desirable as a means of pushing on the column of
-medical and pharmaceutical reform. {292}
-
-It will be seen by the above statement, that by far the largest
-quantity of any one article rejected, is that of spurious Peruvian
-bark, or as it is generally known in commerce, Carthagena and
-Maracaibo bark; and that too, as a general thing of the poorest and
-most worthless quality. The best of this bark affords on analysis
-only an exceedingly small percentage of quinine, not unfrequently,
-but a mere trace; while, at the same time, it yields as high as
-two, and occasionally with choice samples, two and a half per cent
-of a _peculiar_ alkaloid which has been named _quinidine_, in
-contra-distinction to quinine, cinchonine, and aricine, (the three
-alkaloids heretofore obtained from the different varieties of the
-cinchona tribe of plants,) from which it differs essentially in several
-respects.
-
-What _is quinidine, medicinally understood_? How does _sulphate_
-of quinidine _compare with sulphate of quinine_ (from which it is
-very difficult to distinguish it by the naked eye,) medicinally,
-as a remedial agent in cases where the use of the latter salt is
-particularly indicated? These are important questions, and the subject
-is one very properly at the present time calling for prompt, patient,
-and persevering investigation by all those whose mission it is to
-prepare, dispense or prescribe the most efficient means wherewith to
-combat disease; the more so for the reason, that I have detected in
-most of the sulphate of quinine lately imported from abroad, more
-or less of this non-officinal, and (in my opinion) as compared with
-quinine, non-efficient substance yclept quinidine; a fact readily
-accounted for, when it is known that for the last year or two immense
-quantities of the bark in question, good, bad, and indifferent, have
-been exported from New Grenada, (as well as much from this port that
-had been rejected) and purchased by foreign manufacturing chemists,
-for the purpose, as I have reason to believe, of mixing it with the
-_true_ bark in the manufacture of sulphate of quinine; hence the hybrid
-salt now too frequently presented to entry; a practice that, if not
-speedily abandoned, will ruin as far as this country is concerned,
-the formerly well deserved reputation of more than one of the {293}
-foreign manufacturers of sulphate of quinine I could name. The
-argument maintained by some of them that the article is used in their
-hospitals and found equal to pure quinine, will not answer on this side
-of the water; it smacks too much of the almighty dollar, even as I must
-believe (until further advised) at the expense of truth.
-
-This comparatively inert substance, quinidine, is readily detected by
-using the method adopted by Zimmer, and published in the March number
-of the Pharmaceutical Journal (London), and, as I was happy to see,
-transfered to the columns of the May number of your valuable Journal.
-It is a test so perfect, so scientifically practical, and so simple
-withal, that any one possessing only a moderate share of chemical and
-analytical acumen can successfully apply it, even though perchance
-he may not be able to boast of wearing the mantle of the departed
-Berzelins, or of having been a favorite pupil of Liebig.
-
-The law went into operation at this port on the 12th day of July, 1848,
-and it is worthy of remark, as a cause of gratulation, on the part of
-the early friends of the measure, that the importation of inferior and
-worthless qualities of many important drugs and medicines, has since
-gradually and greatly decreased in quantity. For instance, I rejected
-during the first seven months of the working of the law 19,989 pounds
-of Rhubarb root; but I have since rejected only 5,782 pounds, being
-but a fraction over one third of the quantity. For the past eighteen
-months, I have not had occasion to reject a single pound. I rejected
-during the first nine months 3,347 pounds of opium; but have since,
-during a period of more than two years and a half of my administration
-of the law, as will be seen by the above statement, rejected only 3,164
-pounds. For the past thirteen months I have rejected only nine hundred
-and fifty two pounds, while I have passed during that period not less
-than 70,000 pounds. During the first two months of the operation of
-the law, I rejected 1,414 pounds of gamboge, but have since met with
-that only which I was ready {294} to pass without any hesitation.
-During the first nine months I rejected 2,977 pounds of gum myrrh,
-but all that has since been presented to entry at this port, I have
-found satisfactory. Thus might I continue, but time and space will
-not permit. Enough I opine, has been said and shown to satisfy even
-the most prejudiced and sceptical opponent of this wise measure,
-that if faithfully and judiciously administered, _and seconded with
-becoming zeal and honesty of purpose by the medical profession, the
-pharmaceutist and dispensing apothecary_, it is calculated and destined
-to effect most beneficial and lasting sanitary reforms throughout the
-length and breadth of our vast and glorious land. In a word, the law
-has operated thus far remarkably well considering the hasty manner
-in which it was framed and passed through Congress. It is, in some
-respects imperfect, as must ever be the case with all new measures
-of legislation until their utility is tested by practical operation;
-but these imperfections were, some time since, brought to the
-attention of the Secretary of the Treasury, who, with his accustomed
-promptitude soon after instructed me to report to the Department such
-manifestations and suggestions as my experience in the administration
-of the law should dictate as most desirable, practicable, and
-judicious; and, notwithstanding this important and responsible
-trust has necessarily been made the subject of the few occasional
-leisure moments I could from time to time command, apart from other
-official duties, it is nearly completed, and, in a manner too, as I
-have reason to believe, that will render the law, when amended as
-proposed, satisfactory to all honorable dealers, importers, owners, and
-consignees, and, at the same time do away with the not unreasonable
-objections entertained by our marine insurance companies; while its
-efficiency instead of being in any manner impaired by the amendments,
-will be more perfectly guarded and essentially strengthened. The
-particulars and details connected with this duty I must defer until
-another time; but I must be permitted before closing this communication
-to say, that to the present able and distinguished {295} head of the
-Treasury Department, Hon. Thomas Corwin, is due a debt of gratitude,
-from all true friends of this important measure, not easily cancelled.
-Soon after he was called to take upon himself the responsibilities
-of one of the most important, and by far the most arduous offices
-under the general government, the downward and fatal tendency of a
-maladministration of the law was brought to his notice; when, rising
-_above all minor considerations_, he rescued it from impending danger,
-and placed it upon what he deemed a safe basis; and has since, on
-all occasions, lent a willing ear to every suggestion calculated to
-render it more perfect, to add to its efficiency, or perpetuate its
-usefulness. A noble example truly, and one well worthy of the man.
-
-To conclude, I beg to say, that although I have not the honor of
-belonging to any Pharmaceutical Association, I nevertheless take great
-interest in everything calculated to advance the good cause and noble
-calling in which you have so long been engaged; and, I hope the day
-is not far distant, when every city and town of importance throughout
-this wide extended country, will be favored with an organization of
-the kind, radiating from a _National_ Pharmaceutical Association as
-a common center. It would be of vast benefit to the community at
-large, as well as eminently useful to the medical profession; for as
-all must admit, it is of the most vital importance to the success of
-the physician, that his remedial agents are properly prepared by a
-well-bred and perfectly educated chemist and pharmaceutist; and, I may
-add my conviction, that medical and pharmaceutical chemistry, a part of
-medical education that has thus far been most unpardonably neglected,
-should be universally and efficiently taught in our Schools of Medicine.
-
- I am, dear Sir,
- Very respectfully, your obd’t. serv’t.,
- M. J. BAILEY, M. D.,
-
-Special Examiner of Drugs, Medicines, Chemical Medicinal Preparations,
-&c.
-
-{296}
-
-
-ON THE USE OF COAL GAS AS A SOURCE OF HEAT FOR THE LABORATORY.
-
-BY EDWARD N. KENT.
-
-Having recently fitted up a new laboratory in which I have introduced
-coal gas as a source of heat, I have thought a description of the
-apparatus and manner of using it, would be interesting to chemists
-and pharmaceutists, as it has not been very generally applied to this
-purpose as yet in this country, although in England, where alcohol is
-dear, it has long been used as a substitute.
-
-In the use of coal gas as a source of heat, the principal difficulty
-to be avoided, is its tendency to smoke; this I have accomplished in a
-variety of ways. The ordinary argand gas burner, fixed permanently upon
-a branch pipe passing up through the table, is one of the cheapest,
-and a convenient arrangement for many purposes, and to prevent smoke,
-a tall glass chimney, or a short sheet iron chimney, with every other
-hole in the burner plugged, so as to make separate and distinct jets
-for the air to pass through, is all that is necessary. A tripod or
-sheet iron cylinder, for supporting vessels over the flame, is an
-indispensable addition to this burner. There is one objection to this
-form of apparatus, which is, that it is _fixed_, and cannot be moved
-about like a lamp. To avoid this inconvenience, I have had a number
-of burners constructed in different ways, and connected with flexible
-tubes, so as to admit of a change of position, to any place within the
-length of the tube.
-
-[Illustration: Fig. 1.]
-
-Figure 1, is a gas burner designed as a substitute for the Rose Lamp,
-and when connected to the gas pipe by means of a flexible tube,
-answers every purpose of that excellent lamp without being liable
-to the danger of catching fire, or to the necessity of replenishing
-during an operation, as is the case with most alcohol lamps. The above
-arrangement consists of an ordinary argand gas burner, with every other
-hole plugged, fixed to an arm with a socket and {297} thumb screw, by
-means of which it can be raised to any height on the rod attached to
-a moveable wooden foot. The lower part of the burner is provided with
-a screw to which the flexible tube is attached, by means of a Hare’s
-gallows screw connector. The other end of the flexible tube should be
-provided with a stopcock, at its union with the fixed gas pipes for
-regulating the supply of the gas. Above the burner is a moveable ring,
-with socket and thumb screw, for supporting retorts, flasks, etc., at
-any desired height. A glass chimney is represented in the figure, but
-this may be replaced with a short sheet iron chimney, when part of the
-holes in the burner have been plugged as before mentioned. The above
-burner is well adapted for use with the wire gauze chimney, as the
-moveable ring with the addition of a wire tripod, answers as a support
-for a platina crucible. To insure a perfect combustion of the mixture
-of gas and air, I find that the sheet iron cylinder should be about
-ten inches high and two inches diameter. Over such a cylinder, with
-the upper end covered with wire gauze, it is an easy matter to fuse
-carbonate of soda, or other substance requiring a bright red heat.
-When the combustion is perfect with the above cylinder, the flame is
-of a pale blueish white color, like that of a solid flame from alcohol
-but much hotter. With the addition of a small conical chimney of sheet
-iron, placed over the mixed gas-burner, so as to bring the blue flame
-to a smaller compass, I find it a very convenient and powerful flame
-for bending glass tubes, by which tubes of any diameter, or the neck of
-a retort, may be easily softened and bent.
-
-[Illustration: Fig. 2.]
-
-Figure 2, is an argand burner, with every other hole plugged, attached
-to a heavy brass foot, and with an arm and stopcock, to which a long
-flexible tube is attached, the other end of which is connected to a
-pendant above the table. This burner is well adapted for use on any
-part of the table, and may be used with an ordinary retort {298}
-stand, or with a sheet iron cylinder, for supporting vessels over
-the flame. It has all the conveniences without the disadvantages of a
-Berzelius’ Lamp, as it requires no wicks or replenishing, and cannot
-take fire; and the stopcock is not liable to get out of order, as is
-the case with the rack and pinion of the alcoholic lamp.
-
-[Illustration: Fig. 3.]
-
-Figure 3, is a large burner, six inches in diameter, with the holes
-placed far enough apart to form distinct jets of the burning gas, by
-which means smoke is entirely prevented without the use of any chimney.
-This burner, like the preceding, is attached to a heavy brass foot, and
-with an arm and stopcock, to which a long flexible tube is attached, by
-means of which it can be moved to any part of the table.
-
-[Illustration: Fig. 4.]
-
-This burner is provided with a large sheet iron cylinder, (figure 4)
-with air holes at the top and bottom, a slit at the side, to go over
-the arm of the burner, and a door in front for convenience in lighting
-the gas, and thus forms a powerful and convenient gas furnace, by means
-of which a gallon of water can be easily boiled. With this arrangement
-the confined heat is so great, that it is necessary to protect the
-table from burning, by means of sheet iron, or other suitable material.
-
-In point of economy, coal gas is cheaper than alcohol for fuel,
-even in America where the latter is so cheap, and the price of gas
-is comparatively high; and, it is to be hoped, that the price of
-the latter will be reduced, so that coal gas may yet be used with
-economy, as a source of heat for domestic as well as for chemical and
-pharmaceutical purposes. The present price should be no detriment
-to its free use, as it is, {299} undoubtedly, the most cleanly and
-convenient fuel which can be used in the laboratory; and, as such, I
-would strongly recommend it to those, for whom the above description
-has been prepared.
-
-
-NOTE UPON CICUTA (CONIUM MACULATUM) AND CONICINE.
-
-Since Stoerck, who first extolled the virtues of Hemlock, this plant
-has undergone numerous alterations of credit and neglect which may be
-explained by the want of certainty, or rather by the irregularity, of
-its action.
-
-An important work has just appeared on this subject, executed
-conjointly by a physician and pharmacien of Lyons, MM. Devay and
-Guillermond. This work, which developes and completes what has been
-said upon the medicinal virtues of hemlock, furnishes a new element
-which will fix, we believe, the therapeutic value of that substance. It
-is the substitution of the seed like fruits for the other parts of the
-plant. We will briefly explain the motive of that preference.
-
-The principle to which cicuta owes both its toxicological and
-therapeutic powers has received the names of cicuta, coneine and
-conicine, the last of which is now generally adopted. It is a volatile
-alkaloid, of a sharp penetrating, disagreeable smell, somewhat like
-that of mice. It is of an oily consistence, and easily decomposed by
-heat. In these respects it resembles nicotine. But, a characteristic
-readily recognized and which distinguishes it from the latter, when
-shaken with water it again floats upon the surface, while nicotine is
-immediately dissolved by that liquid.
-
-The volatility of conicine, the readiness with which it is {300}
-decomposed by heat or time alone, are such that the Lyonese
-experimenters do not hesitate to propose the abandonment both of
-the herb itself, and of all the pharmaceutic forms prepared by the
-aid of heat, or in which the conicine is susceptible of undergoing
-decomposition. We think this is going rather too far. The extracts of
-cicuta prepared with care, and particularly those prepared in vacuo,
-are of daily service. We have been able to verify by trituration with
-potassa, the presence of conicine in a hydro-alcoholic extract, a
-number of years old. But, notwithstanding, recognizing the fact that
-the preparations of cicuta of this kind are often inert, we agree with
-the experimenters that it is of consequence to escape from such a state
-of things.
-
-The tincture of cicuta prepared with the fresh plant, is a very
-beautiful product, but made from parts of the plant containing but a
-small proportion of conicine, or at all events containing it in very
-variable proportions, may be inert or irregular in its action. What
-then is to be done? employ conicine itself? But the preparation of
-the alkaloid is difficult; it is promptly decomposed by contact with
-the air and light, and the apportionment of its dose, offers serious
-inconveniences.
-
-There is a organ of the plant in which its active principle is found in
-larger and more constant proportion, and under conditions in which it
-is better preserved than in any other; that organ is the fruit. It is
-at the moment of its most perfect development, when the plant commences
-to flower, that it contains the largest proportion of conicine, and
-that the principle is most perfectly elaborated. At a later period it
-disappears and is fixed in the fruit, in which it is concentrated in
-great quantity. It is in the fruit that we seek it when we wish to
-extract it. It is in the fruit we should seek it for medical use.
-
-PHARMACEUTICAL PREPARATIONS. FORMULÆ.—“Having shown by experiment as
-well as by reasoning, that the fruit of the cicuta (akène) should
-henceforth replace all the preparations of the plant employed in
-medicine: we have to make known the use we have made of this fact.
-It is important in the first {301} place, that the fruit employed
-should be that of the great cicuta, and that it should not be mingled
-with seeds of the other umbelliferæ. They may be known by being almost
-globular with five crenelated sides.
-
-When the fruit is divided, the sides fold in the form of a crescent.
-They do not possess like most of the other umbelliferæ, a peculiar
-aromatic odor. This appears to be covered by that of conicine. The
-fool’s parsley, (_æthusa cynapium_,) the phellandrium aquaticum, the
-anise, bear fruits which, physically, have much resemblance to that of
-the cicuta; but, when the latter is pulverized, the characteristic odor
-which is developed is sufficient to enable us readily to recognize it.
-Another precaution to be taken is in relation to the time at which the
-fruit should be collected. Those which were employed in our experiments
-and preparations had reached the perfection of their maturity. It
-is then it should be collected for medical use, because then it is
-isolated, so to speak, from the plant which produces it; the active
-principle exists then in them in a true state of concentration and
-permanence.
-
-1st. FORMULÆ FOR INTERNAL USE.—“The fruit of the cicuta does not need
-any complicated pharmaceutic preparation. It is active enough of itself
-to be employed in its natural condition. A very simple manipulation
-only seems necessary to facilitate its use. It is to reduce it to
-powder and to form it into pills, which, coated with sugar, may be
-preserved an indefinite time. We have thought best to give the pills
-two degrees of strength according to the following formulæ.
-
-“_Pills of Cicuta, No. 1._—Take one gramme of the fruit of the cicuta
-recently pulverized; make with a sufficient quantity of sugar and of
-syrup a mass, to be divided into 100 pills. These are to be covered
-with sugar; each pill will weigh about 10 centigrammes. These are
-suited to persons who are not yet habituated to the use of the drug,
-and who are of a delicate constitution. We commence with two pills the
-first day, and the dose is augmented day by day to 10, 15, or 20. It is
-then most convenient to employ pills No. 2. {302}
-
-_Pills No. 2._—Take 5 grammes of the recently powdered fruit of the
-cicuta; incorporate them with a sufficient quantity of gum and sugar;
-divide as before into 100 pills, which are to be enveloped with sugar,
-each pill will weigh about 25 centigrammes.
-
-“We will finish the series of internal medicines by the formula
-of a syrup of conicine, which will be of the greatest utility to
-practitioners.
-
-“Exhaust 10 grammes of the fruit of the cicuta, with alcohol at 28° C.
-(82 F.) so as to obtain 60 grammes, to which 3000 grammes of syrup,
-aromatised, _ad libitum_, are to be added.
-
-“Thirty grammes of this syrup represent 1 decigramme of the fruit or
-a milligramme of conicine. A teaspoonful being the equivalent of 30
-grammes of syrup, the patient who takes one pill of No. 2. will be able
-to take half a teaspoonful of the syrup.
-
-FORMULA FOR EXTERNAL USE.—_Balm of Conicine._—The process which
-we employ to prepare the balm of conicine authorizes us to give
-it that name. It is in effect, a true solution in lard freed from
-the principles which retain it in combination, and as pure as the
-processes we have proposed for its extraction will permit. Thus, after
-having exhausted the fruit by alcohol, and after having separated as
-completely as possible the conicine by means of ether and caustic
-potash, confining ourselves to the precautions indicated below, we
-take: the ether of cicuta, obtained by the exhaustion of 100 grammes
-of the fruit, and 300 grammes of recently washed lard. We begin by
-evaporating the ether in the open air, that is, by pouring it little
-by little in a plate, and as soon as the greater part of it has been
-eliminated, and the conicine commences to appear upon the plate in the
-form of little yellow drops, separating themselves from the vehicle,
-the lard is to be incorporated with it by degrees, the whole being
-constantly stirred to facilitate the evaporation of the ether. A balm
-of conicine is thus obtained, exceedingly active and convenient for
-use. {303}
-
-The following is the mode of preparing the ether of cicuta: “The
-alcoholic tincture obtained by the complete exhaustion of 100 grammes
-of the fruit, is to be evaporated to the consistence of a syrup, and
-the alcohol is to be replaced by a small quantity of water. This leaves
-undissolved a thick green oil, entirely soluble in ether, and of which
-the quantity reaches the weight of 30 grammes. After having separated
-this green oil, we wash with ether the product of the alcoholic
-evaporation and obtain a yellowish resinous substance, which has no
-action on litmus paper and which has a strong odor, _sui generis_,
-different from that of conicine.
-
-After having submitted the mother waters of the alcoholic extract
-to this preliminary treatment, we have introduced them into a flask
-having a capacity three times as great as their volume, and treated
-them successively with a concentrated solution of caustic potash and
-rectified sulphuric ether. Immediately after the addition of the
-potash, a well marked odor of conicine was manifest in the mixture,
-and the ether became strongly alkaline. We left the same ether, (about
-20 grammes) upon the mixture for twelve hours, often agitating it. It
-was then decanted and replaced by fresh ether, and this was replaced
-until the ether became nearly insensible to litmus paper. We remarked
-that the first 20 grammes of ether took up nearly all the alkaloid.
-One hundred grammes of well rectified ether was sufficient to remove
-almost completely the alkaloid from the extractive and alkaline mixture
-derived from 100 grammes of the fruit of the cicuta.
-
-SOLUTION OF CONICINE FOR INJECTIONS.
-
- Tincture of the fruit,      100 grammes.
- Lime water,                 900 grammes.
-
-Filter at the end of a few minutes.
-
-“In this preparation we have thought best to employ lime water instead
-of simple water. We have remarked previously that the tincture of
-cicuta possessed no smell of conicine, but when lime water was added,
-the odor was instantly developed in a high dagree. The conicine is
-disengaged by the lime {304} from its saline combination, and remains
-free, dissolved in the water.”
-
-MM. Devay and Guillermond, who, in their work, have been so just
-in their deductions, fail here, we think, in denominating syrup,
-injection, &c., of conicine, the various preparations of the fruits of
-the cicuta. It is only perhaps a matter of form, but it is important to
-avoid in materia medica a matter of form which may give rise to a false
-idea of things, which may in a word, induce error.
-
-We have only occupied ourselves with the pharmacological part
-of the work of MM. Devay and Guillermond. The Bulletin de
-Therapeutique will soon offer an appreciation of its therapeutical
-portion.—_Dorvault._—_Bulletin de Therapeutique._
-
- [The facts on which the preference of the seeds of conium to the
- preparations in ordinary use are founded, are by no means new. They
- have been long known and frequently commented on. From six lbs. of the
- fresh and nine of the dried fruit, Geiger obtained an ounce of conia,
- or, as the French chemists prefer to call it, conicine; while from 100
- lbs. of the fresh herb, he procured only a drachm. The fresh dried
- herb exhibited only traces of it. The extract prepared from the herb
- partakes necessarily of its uncertainty and inactivity. Most of what
- is found in the shop is entirely inert; while the best, that of Tilden
- or of Currie, which are superior to the best English extract we have
- seen, possess comparatively little power. If conium is to be retained
- in the materia media, it is evident that we should employ that part of
- the plant in which the active principle is contained in the greatest
- quantity, and in a condition least liable to alteration. We are as
- yet, however, very imperfectly acquainted with the properties, either
- medicinal or poisonous of conium; and, as the continuation of the
- memoir of MM. Devay and Guillermond promises us a solution of the
- question, we await it with much interest.]—ED. NEW YORK JOURNAL OF
- PHARMACY.
-
-{305}
-
-
-ON THE MANUFACTURE OF WRITING INKS.
-
-In the manufacture of good writing ink, more nicety is required in the
-choice of materials, as well as greater skill in manipulation, than is
-generally bestowed upon it.
-
-The proportion of the various ingredients used is a matter of
-considerable importance, affecting in a great degree the durability of
-the ink.
-
-DR. LEWIS’S WRITING INK.—Dr. Lewis, who instituted a series of very
-careful experiments on the manufacture of writing ink, found that equal
-parts of sulphate of iron and of galls gave an ink, which, although of
-a good color when first used, became yellowish-brown when the writing
-was kept for a moderate length of time, and that in proportion to the
-quantity of the sulphate, the inks were less durable in color, and that
-those in which the galls were in excess, were most durable.
-
-He, therefore, recommended the following proportions as best suited
-for the manufacture of good writing ink:—Powdered sulphate of iron, 1
-oz.; powdered logwood, 1 oz.; powdered galls, 3 oz.; gum arabic, 1 oz.;
-white wine or vinegar, 1 quart.
-
-Water will answer for common purposes, but white wine formed a blacker
-ink than water, and vinegar formed one still blacker than wine. The
-addition of spirit injured the color, and occasioned a precipitation of
-coloring matter—a decoction of logwood, instead of water, improved both
-the beauty and deepness of the black. The ingredients are to be put
-in a glass or other convenient vessel, not metallic, and the mixture
-shaken four or five times a day. In ten or twelve days it will be fit
-for use, and sooner if in a warm situation; but it continues for a
-long time to improve if left without decantation. When it is separated
-from the powdery residue, it will be kept in a good state with greater
-certainty, if some broken galls freed from the powder and some pieces
-of iron are put into it. Iron, however, is the only metal which it is
-safe to retain in contact with the ink.
-
-Dr. Lewis gave the preference to distilled or rain water in {306} the
-manufacture of ink, but it seems probable that a water containing a
-certain proportion of carbonate of lime is more suitable. In dyeing
-a black color by means of galls or sumach and copperas, hard spring
-water is preferred by some dyers. To produce in a liquid a given depth
-of color, distilled water requires more dyestuff than common spring
-water. This is illustrated in the following experiment, devised by Mr.
-Phillips: into two glass jars of the same size, each half-filled with
-distilled water, introduce equal quantities of infusion or tincture of
-galls or sumach, and an equal number of drops (only three or four) of
-a solution of copperas; a faint purplish color will be developed in
-both jars, but if one is filled with spring water, the color in that
-rapidly becomes dark reddish-black, and one-half more water is required
-to reduce it to the same shade of color as the other. The water which
-is found by experience to be best adapted for dyeing with galls and
-sulphate of iron, differs from distilled water in containing sulphate
-of lime, carbonate of lime held in solution by free carbonic acid,
-and chloride of calcium. The beneficial ingredient seems to be the
-carbonate of lime, which possesses slight alkaline properties, for if
-the smallest quantity of ammonia or of bicarbonate of potash is added
-to the distilled water in the above experiments, the purple color is
-struck as rapidly and as deeply as in the spring water; chloride of
-calcium and sulphate of lime, on the contrary, produce no sensible
-change either in the depth of color or the tint. The effect is no doubt
-referable to the action of the alkali or lime on the proto-sulphate
-of iron, by which the sulphuric acid of the latter is withdrawn, and
-hydrated protoxide of iron set free, for protoxide of iron is much
-more easily peroxidized and acted upon by tannic and gallic acids (the
-dyeing principles of galls) when in the free and hydrated state, than
-when in combination with sulphuric acid. Neither the caustic fixed
-alkalies (potash and soda) nor their carbonates can be well introduced
-in the above experiments, as the slightest excess reacts on the purple
-color, converting it into a reddish-brown. Ammonia, lime-water, and the
-alkaline {307} bicarbonates also produce a reddening, and if applied
-in considerable quantity a brownish tinge. It is very probable that the
-above-mentioned principle is applicable to the preparation of writing
-ink.
-
-RIBANCOURT’S WRITING INK.—M. Ribancourt, who paid much attention to the
-preparation of inks, stated that none of the ingredients should be in
-excess. “If there be a want of the matter of galls, part of the vitriol
-will not be decomposed; if, on the contrary, there be too much, the
-vitriol will take as much as it can decompose, and the remainder will
-be nearly in the state of the decoction of galls, subject to change
-by becoming mouldy, or to undergo an alteration after writing which
-destroys its legibility much more completely than the change undergone
-by ink containing too small a portion of the galls.
-
-“It is doubtful whether the principles of the galls are well extracted
-by cold maceration, and it is certain that inks made in this way flow
-pale from the pen, and are not of so deep a black as those wherein
-strong boiling is recurred to.”
-
-From all the foregoing considertions, M. Ribancourt gives the following
-directions for the composition of good ink:―
-
-“Take 8 oz. of Aleppo galls (in coarse powder); 4 oz. of logwood (in
-thin chips); 4 oz. of vitriol of iron; 3 oz. of gum arabic (in powder);
-1 oz. of vitriol of copper; and 1 oz. of sugar-candy. Boil the galls
-and logwood together in 12 lb of water for one hour, or till half the
-liquid has evaporated. Strain the decoction through a hair sieve or
-linen cloth, and then add the other ingredients. Stir the mixture till
-the whole is dissolved (more especially the gum), after which leave it
-to subside for twenty-four hours. Then decant the ink, and preserve it
-in bottles of glass or stoneware well corked.” The sulphate of copper
-must be omitted in the preparation of an ink required for steel pens.
-
-DR. BOSTOCK’S INSTRUCTIONS FOR THE MANUFACTURE OF INK.—A few years
-since, Dr. Bostock presented to the Society of Arts the following,
-valuable communication “On the Properties of Writing Inks,” which will
-be read with interest. {308}
-
-“When the sulphate of iron and the infusion of galls are added
-together, for the purpose of forming ink, we may presume that the
-metallic salt or oxide enters into combination with at least four
-proximate vegetable principles, viz: gallic acid, tan, mucilage, and
-extractive matter, all of which appear to enter into the composition
-of the soluble part of the gall-nut. It has been generally supposed
-that two of these, the gallic acid and the tan, are more especially
-necessary to the constitution of ink; and hence it is considered, by
-our best systematic writers, to be essentially a tannogallate of iron.
-It has been also supposed that the peroxide of iron alone possesses the
-property of forming the black compound which constitutes ink, and that
-the substance of ink is rather mechanically suspended in the fluid than
-dissolved in it.
-
-“Ink, as it is usually prepared, is disposed to undergo certain
-changes, which considerably impair its value; of these, the three
-following are the most important:—Its tendency to moulding; the
-liability of the black matter to separate from the fluid, the ink
-then becoming what is termed ropy; and loss of color, the black first
-changing to brown, and at length almost entirely disappearing.
-
-“Besides these, there are objects of minor importance to be attended to
-in the formation of ink. Its consistence should be such as to enable
-it to flow easily from the pen, without, on the one hand, its being
-so liquid as to blur the paper, or on the other, so adhesive as to
-clog the pen and be long in drying. The shade of color is not to be
-disregarded; a black approaching to blue is more agreeable to the eye
-than browner ink; and a degree of lustre or glossiness, if compatible
-with due consistence of the fluid, tends to render the characters more
-legible and beautiful.
-
-“With respect to the chemical constitution of ink, I may remark that,
-although as usually prepared it is a combination of the metallic salt
-or oxide with all the four vegetable principles mentioned above, yet I
-am induced to believe that the last three of them, so far from being
-essential, are the principal {309} cause of the difficulty that we
-meet with in the formation of a perfect and durable ink.
-
-“I endeavored to prove this point by a series of experiments, of which
-the following is a brief extract.
-
-“Having prepared a cold infusion of galls, I allowed a portion of it
-to remain exposed to the atmosphere, in a shallow capsule, Until it
-was covered with a thick stratum of mould, the mould was removed by
-filtration, and the proper proportion of sulphate of iron being added
-to the clear fluid, a compound was formed of a deep black color, which
-showed no further tendency to mould, and which remained for a long time
-without experiencing any further alteration. Another portion of the
-same infusion of galls had solution of isinglass added to it, until it
-no longer produced a precipitate; by employing the sulphate of iron,
-a black compound was produced, which, although paler than that formed
-from the entire fluid, appeared to be a perfect and durable ink.
-
-“Lastly, a portion of the infusion of galls, was kept for some time
-at the boiling temperature, by which means a part of its contents
-became insoluble; this was removed by filtration, when, by addition of
-sulphate of iron, a very perfect and durable ink was produced.
-
-“In the above three processes, I conceive that a considerable part of
-the mucilage, of the tan, and the extract, were respectively removed
-from the infusion, whilst the greatest part of the gallic acid would be
-left in solution.
-
-“The three causes of deterioration in ink, the moulding, the
-precipitation of black matter, and loss of color, as they are distinct
-operations, so we may presume that they depend on the operation of
-different proximate principles.
-
-“It is probable that the moulding more particularly depends ©n the
-mucilage, and the precipitation on the extract, from the property,
-which extractive matter possesses of forming insoluble compounds with
-metallic oxides.
-
-“As to the operation of the tan, from its affinity for metallic salt we
-may conjecture that, in the first instance, it forms a {310} triple
-compound with the gallic acid and the iron, and that in consequence of
-the decomposition of the tan, this compound is afterwards destroyed.
-Owing to the difficulty, if not impossibility, of entirely depriving
-the infusion of galls of any one of its ingredients without in some
-degree affecting the others, I was not able to obtain any results which
-can be regarded as decisive; but the general result of my experiments
-favors the above opinion, and leads me to conclude that, in proportion
-as ink consists merely of the gallate of iron it is less liable to
-decomposition or to experience any kind of change. The experiments to
-which I have alluded above, consisted in forming a standard solution
-by macerating the powder of galls in five times its weight of water,
-and comparing this with other infusions, which had either been suffered
-to mould, from which the tan had been extracted by jelly, or which had
-been kept for some time at the boiling temperature, and by adding to
-each of these respectively both the recent solution of the sulphate
-of iron, and a solution which had been exposed for some time to the
-atmosphere.
-
-“The nature of the black compound produced was examined, by putting
-portions of it into cylindrical jars and observing the changes which
-they experienced with respect either to the formation of mould, the
-deposition of their contents, or any change of color. The fluids
-were also compared by dropping portions of them upon white tissue
-paper, in which way both their color and their consistence might be
-minutely ascertained. A third method was to add together the respective
-infusions, and the solutions of the sulphate of iron, in a very diluted
-state, by which I was enabled to form a more correct comparison of the
-quantity and of the shade of the coloring matter, and of the degree of
-its solubility.
-
-“The practical conclusions which I think myself warranted in drawing
-from these experiments are as follows:—In order to procure an ink which
-may be little disposed either to mould or to deposit its contents,
-and which at the same time may possess a deep black color not liable
-to fade, the galls should be {311} macerated for some hours in hot
-water, and the fluid filtered; it should then be exposed for about
-fourteen days to a warm atmosphere, when any mould which may have
-been produced must be removed. A solution of sulphate of iron is to
-be employed which has been exposed for some time to the atmosphere,
-and which consequently contains a certain quantity of the red oxide
-diffused through it. I should recommend the infusion of galls to be
-made of considerably greater strength than is generally directed, and I
-believe that an ink formed in this manner will not necessarily require
-the addition of any mucilaginous substance to render it of a proper
-consistence.
-
-“I have only farther to add, that one of the best substances for
-diluting ink, if it be in the first instance too thick for use, or
-afterwards become so by evaporation, is a strong decoction of coffee,
-which appears in no respect to promote the decomposition of the ink,
-while it improves its color and gives it an additional lustre.”
-
-Dr. Ure recommends the following formula for the manufacture of writing
-ink. To make twelve gallons take: 12lb of nutgalls; 5lb of green
-sulphate of iron; 5lb of gum Senegal; 12 gallons of water. The bruised
-nutgalls are to be put into a cylindrical copper, of a depth equal to
-its diameter, and boiled during three hours, with three-fourths of the
-above quantity of water, taking care to add fresh water to replace what
-is lost by evaporation. The decoction is to be emptied into a tub,
-allowed to settle, and the clear liquor being drawn off, the lees are
-to be drained. The gum is to be dissolved in a small quantity of hot
-water, and the mucilage thus formed, being filtered, it is added to
-the clear decoction. The sulphate of iron must likewise be separately
-dissolved and well mixed with the above. The color darkens by degrees,
-in consequence of the peroxidizement of the iron, on exposing the ink
-to the action of the air.
-
-But ink affords a more durable writing when used in the pale state,
-because its particles are then finer and penetrate the paper more
-intimately. When ink consists chiefly of tannate {312} of peroxide of
-iron, however black, it is merely superficial, and is easily erased or
-effaced. Therefore, whenever the liquid made by the above prescription
-has acquired a moderately deep tint, it should be drawn off clear into
-bottles and well corked up. Some ink-makers allow it to mould a little
-in the casks before bottling, and suppose that it will thereby be not
-so liable to become mouldy in the bottles. A few bruised cloves or
-other aromatic perfume, added to ink, is said to prevent the formation
-of mouldiness, which is produced by the ova of infusoria animalcules.
-
-The ink made by this prescription is much more rich and powerful than
-many of the inks commonly sold. To bring it to the common standard a
-half more water may safely be added. Even twenty gallons of tolerable
-ink may be made from the above weight of materials.
-
-SCOTT’S WRITING INK.—Mr. Scott’s method of manufacturing writing ink,
-as patented by him in 1840, is as follows:—Take 48lb of logwood chips,
-and let them be saturated two days in soft water, then put the same
-into a close covered iron cauldron, and add 80 gallons of soft water;
-let these be boiled one hour and a half, when the wood must be taken
-out and the fluid left, to which add 48lb of the best picked Aleppo
-galls in coarse powder; boil these half an hour longer, then draw
-off the fire, and let it remain in the cauldron twenty-four hours
-infusing, during which it is to be very frequently agitated; when the
-properties of the galls are sufficiently extracted, draw off the clear
-fluid into a vat, and add 40lb of pulverized sulphate of iron; let
-these ingredients remain a week (stirring daily), after which add four
-gallons of vinegar. Next take 7 1/2lb of the best picked gum arabic,
-and dissolve it in sufficient water to form a good mucilage, which
-must be well strained, and then added to the fluid by degrees; let
-these stand a few days longer, when pour into the same 20 ounces of the
-concentrated nitrate of iron; let the whole stand by again until it has
-arrived at its height of blackness; next pour the clear fluid off from
-the sediment, and add to it the following substances, each prepared
-and ground separately:― {313}
-
-First, take half a pound of Spanish indigo, which grind very fine
-between a muller and stone, adding by degrees portions of the ink
-until it is made into an easy soluble paste; next take well-washed and
-purified Prussian blue five pounds, which prepare as the former, except
-grinding it in distilled water in lieu of the fluid, until it is formed
-into a soluble paste; also next take four ounces of gas black which
-results from the smoke of gas burners received on surfaces of glass, as
-is well known, which grind in one ounce of the nitrate of iron; when
-each is sufficiently fine, let them remain a few hours unmixed, when
-the whole may be incorporated with the fluid, and kept agitated daily
-for a week. The clear may then be poured off for use. The above will
-make eighty gallons of ink.
-
-DR. NORMANDY’S BLACK INK.—In order to supersede the use of nutgalls,
-Dr. Normandy patented the following process for making black ink:―
-
-Take either sumach, elm wood, elder, chestnut, beech, willow, oak,
-plum, sycamore, cherry, poplar wood, catechu, or any other wood or
-berry, or extract of vegetable substances, containing gallic acid and
-tannin, or either, and put this, previously reduced to powder, into a
-copper full of common water, and boil it until a sufficiently strong
-decoction be obtained.
-
-The quantity of water must of course vary according to the sort of
-vegetable substance employed; catechu, for example, requiring less
-water than sumach, on account of the former being almost totally
-soluble. To this add a certain quantity of Campeachy wood, of acetate
-and hydrate of deutoxide of copper, of sulphate of alumina and potash,
-of sulphate of protoxide of iron, in quantities which vary also
-according to the vegetable material first employed, and gum arabic,
-or the best sort of gum Senegal, in the proportion of eighty pounds
-or thereabouts for 340 gallons of liquid; also a variable quantity of
-sulphate of indigo; the whole of these last ingredients, depending on
-the shade of the color intended to be produced, it is impossible to
-indicate absolutely the proportions in which they are to be used, as
-the taste and fancy of the operator must {314} decide. Supposing,
-however, a blue black to be the color desired, and sumach, for example,
-the vegetable ingredient selected for the purpose, the proportions
-should be for 240 gallons: sumach, from 12 to 15 sacks, of four bushels
-each; Campeachy logwood, 2 cwt. or thereabouts, according as new or old
-chip is used; gum arabic, 80 lb. to 1 cwt.; sulphate of protoxide of
-iron, 1 cwt.; acetate and hydrate of deutoxide of copper, 4lb; sulphate
-of alumina and potash, 37lb; sulphate of indigo, 6lb, or even more,
-according to the intensity of the blue cast desired. If catechu were to
-be used instead of sumach, 1 cwt. would be required, the proportions of
-the other materials remaining the same.
-
-The variously colored precipitates which salts of iron form in the
-solutions of the above-cited vegetable astringent substances, all of
-which precipitates vary from the green to the brown (the decoction
-of nutgalls yeilding with salts of iron only a dark purple,) are the
-obstacles which have hitherto prevented the use of these vegetable
-substances, with a view to supersede nutgalls; but by means of the
-sulphate of indigo in various proportions, from the above-cited
-substances a liquid may be obtained, of different shades of color, from
-dark blue to most intense black, applicable to dyeing, staining, or
-writing, and which may be used with every description of pen.
-
-DR. NORMANDY’S PURPLE INK.—To produce a purple-colored ink called the
-“King of Purples,” Dr. Normandy recommends the following proportions to
-be observed:—To twelve pounds of Campeachy wood add as many gallons of
-boiling water; pour the solution through a funnel with a strainer made
-of coarse flannel, on one pound of hydrate or acetate of deutoxide of
-copper finely pulverized (at the bottom of the funnel a piece of sponge
-is placed), then add immediately 14lbs. of sulphate of alumina and
-potash, and for every 340 gallons of liquid add eighty pounds of gum
-arabic or gum Senegal. Let these remain for three or four days, and a
-beautiful purple color will be produced.
-
-DR. NORMANDY’S BLUE INK.—Dr. Normandy’s blue ink is made by operating
-upon Chinese blue or cyanoferruret of {315} iron. The cyanoferruret
-of iron is to be ground in water with oxalic acid or bin-oxalate of
-potash, adding gum arabic in the following proportions: to seven ounces
-of water add three drachms of Chinese blue, 1 drachm of bin-oxalate of
-potash, and 1 drachm of gum arabic; to these ingredients a solution of
-tin may be added.
-
-GIROND’S SUBSTITUTE FOR GALLS.—The substitute for gallnuts, patented
-by M. Girond, of Lyons, in 1825, is an extract from the shell of the
-chestnut, and also from the wood and sap of the chestnut-tree. The
-extract is denominated _Damajavag_, and the mode of preparing it is
-by reducing the chestnut-shell into small pieces, and boiling them in
-water.
-
-One hundred-weight of the shells of chestnuts broken into small pieces
-is to be immersed in about 180 or 200 quarts of water, in a vessel
-of copper or any other material, except iron, and after having been
-allowed to soak in this water for about 12 hours, the material is then
-to be boiled for about three hours, in order to obtain the extract. The
-wood of the chestnut tree may be cut into small pieces or shaved thin,
-and treated in the same way.
-
-The extract is now to be drawn off from the boiler, and filtered
-through a fine sieve or cloth, after which the water must be evaporated
-from it until the extract is reduced to the consistence of paste.
-
-It may now be cut into cakes of any convenient size, and dried in an
-oven of low temperature, and when hard, may be packed for sale, and
-used for any of the purposes in the arts to which gallnuts have been
-heretofore applied. The quantity of damajavag obtained from the above
-will be about 8 or 10 lbs.
-
-In using this damajavag, it is only necessary to pound or otherwise
-reduce it to powder when it may be mixed with other ingredients as
-pulverized gall nuts.
-
-The same chemical properties belong to the sap of the chestnut-tree,
-which may be extracted by tapping the trunk, and when so obtained, may
-be used for the same purpose as gallnuts.
-
-STEPHENS’ BLUE INK.—Stephens’ blue ink is prepared as follows:—Take
-Prussian blue, whether produced from a combination of prussiate of
-potash and salts of iron, or the Prussian {316} blue of commerce, as
-commonly manufactured, and put this into an earthen vessel, and pour
-over it a quantity of strong acid, sufficient to cover the Prussian
-blue. Muriatic acid, sulphuric acid, or any other acid which has a
-sufficient action upon iron will do. If sulphuric acid is used it
-should be diluted a little, that is, with a quantity of water equal to
-about its bulk. The Prussian blue is allowed to remain in the acid from
-twenty-four to forty-eight hours or longer, and then the mixture is
-diluted with a large quantity of water, stirring it up at the time, for
-the purpose of washing from it the salts of iron. When in this state
-of dilution, it is allowed to stand until the color has subsided, when
-the supernatant liquor is drawn off with a syphon and more water added
-to it. This process is repeated until the acid, with the iron, has been
-completely washed away, which is known by testing it with prussiate of
-potash, which will show if it yields any blue precipitate; if not, it
-is sufficiently washed. The product is then placed upon a filter, and
-suffered to remain until the liquid has all drained away.
-
-The Prussian blue, thus prepared, is reduced to a state containing less
-iron than the Prussian blue of commerce, in which state it is more
-readily acted upon, and rendered soluble than in any other condition.
-
-This Prussian blue may then be placed in evaporating dishes, and
-gently dried. To form the Prussian blue, so operated upon, into a
-solution, oxalic acid is added, and carefully mixed with it, after
-which cold water is added (cold distilled water is best) a little at
-a time, making it into a dense or dilute solution, according to the
-color required. The quantity of oxalic acid may vary according to the
-quantity of water used. It will be found that the Prussian blue that
-has undergone the process of digestion, as described, requires but a
-small quantity of oxalic acid to dissolve it: about one part of oxalic
-acid will dissolve six parts of Prussian blue, the weight taken before
-digesting in the acid. This will answer for a concentrated solution,
-but for a dilute solution more acid will be required.
-
-(TO BE CONTINUED.)
-
-{317}
-
-
-VARIA—EDITORIAL.
-
-QUINIDINE.—Sulphate of quinidine is advertised, “eo nomine,” for
-sale in the London Journals. What we get, as yet, occurs only as an
-adulteration of the sulphate of quinine. The same virtues, and to an
-equal extent, are ascribed by the advertisers to the new article,
-that are possessed by quinine. We do not know what authority there is
-for this statement, but it is exceedingly desirable that careful and
-well conducted experiments should be made to determine the properties
-and relative value of quinidine, quinoidine, and cinchonine. The
-great importance of quinine and its immense and constantly increasing
-consumption, long ago created a well founded anxiety lest the sources
-whence we obtain it should become exhausted or materially diminished.
-If the allied alkaloids will in any degree replace it, it is a fact
-of the highest value. Quinidine, in particular, is contained in some
-varieties of bark in which little or no quinine is found, and if the
-statements which have been made of the identity of its effects with
-quinine, probably without any better foundation than the closeness
-of resemblance of the two substances, should prove correct, the
-destruction of the cinchona Calisaya which is going on, may be in some
-measure stayed.
-
-
-EXTRACT OF BARK.—A new article has appeared in our markets under the
-name of Extract of Bark. The specimen that came under our observation
-was a dark brown substance, homogenous, and about the consistence
-of dry opium. It was very little soluble in water, much more so in
-alcohol, and completely so in diluted sulphuric acid. From chemical
-examination it would appear to contain about 46 per cent of quinine,
-with perhaps traces of quinidine and cinchonine. At the price at which
-we hear it is offered it will be sought for by the manufacturers of
-sulphate of quinine.
-
-
-SYRUP OF TURPENTINE.—M. Trousseau often uses the syrup of turpentine
-in chronic catarrh of the bladder and the lungs, in old copious
-suppurations, etc., but as the standard works contain no formula, the
-preparation intended is not always obtained. {318}
-
-The following is the formula which has been published by M. Dorvault,
-according to the indications furnished by M. Trousseau, as being at
-once the most rational, and as furnishing a product preferable in all
-respects to that of the two formulæ given in the officine.
-
- Turpentine,[24]       100 grammes.
- Water,               375 grammes.
-
-Digest during two days, taking care to agitate frequently; afterwards
-make a syrup after the manner of the balsam of Tolu, by adding
-
- White sugar,         750 grammes.
-
-This syrup contains besides the resinous principles, the nature of
-which is not well ascertained, from 1-40 to 1-100 of its weight of the
-essence of Turpentine.
-
-It is limpid, of an aromatic odor—very sweet, and of an agreeable
-taste; it may be employed pure, or used to sweeten appropriate drinks.
-
-Dose: from one to a number of tablespoonsful per day.—_Bulletin de
-Therap._
-
-[24] The turpentine recommended by M. Dorvault is a variety of the
-Strasburg turpentine, having an agreeable odor of lemon.
-
-
-ALOINE.—Our readers will recollect that Dr. Pereira has found Aloine,
-the chrystalline neutral principle recently discovered in Barbadoes
-aloes, by Mr. Smith of Edinburgh, in Socotorine aloe juice, (New
-York Journal of Pharmacy, No. 6, p. 177.) Since then Mr. Smith has
-succeeded in procuring it from Socotorine aloes. It was much longer in
-crystallizing than when obtained from Barbadoes aloes, but did so at
-last. When the impure product is recrystallized from rectified spirits
-it presents the same appearance as the purified crystal of Barbadoes
-aloes (the crystals obtained by Dr. Pereira which were spontaneously
-deposited from the juice, were much smaller) and seems identical with
-that substance. It has not yet been obtained from Cape aloes, but
-undoubtedly exists in that substance, though probably from its inferior
-activity in much smaller quantity.
-
-Aloine has been introduced into the practice of medicine in Edinburgh,
-and the Messrs. Smith have already (June) sold a quarter of a hundred
-weight of it. It is five times more active than good aloes—a single
-grain producing all the effect of a large aloetic pill; the Edinburgh
-physicians describe it as acting “_tuto, cito, et jucunde_,” safely,
-speedily, and pleasantly. If this is meant altogether seriously, in the
-second of the characteristics it presents a marked contrast with the
-crude drug. From the convenience with which it may be exhibited, it
-bids fair to come into general and extensive use.
-
-
-_Action of Sulphuric Acid on the insoluble residue left by Opium,
-exhausted by water. Formation of a new Alkaloid, by_ M. STANISLAS
-MARTIN.—The smallest object added to a kaleidoscope produces new shades
-and different images; so it is {319} with vegetable chemistry; every
-practical man knows that a foreign body, an hours delay in executing
-a work already commenced, changes the nature of the products. Two
-experiments on the inert residue of opium, exhausted by water give
-another illustration of this truth.
-
-The residue of opium submitted to fermentation, affords us a substance
-which has a great analogy to paramorphia; this substance has since been
-studied by M. A. Guergy. The account of the labor of that chemist has
-been reproduced in the review of the Journal de Pharmacie, 1849.
-
-Our second operation consists in treating the residue of opium
-exhausted by water, with water acidulated with sulphuric acid. The
-result is the formation of an alkali which has many of the chemical
-properties of narcotine, but which differs from it completely by its
-insolubility in ether.
-
-This alkali has no relation with codeine or narceine; besides we obtain
-an extractive matter, soluble in all proportions in water, to which it
-communicates the property of frothing like soap.
-
-The following is the method of proceeding. The residue of opium,
-exhausted with water, is boiled in distilled water acidulated with
-sulphuric acid, after ten minutes ebullition it has the appearance of a
-thick magma; it is strained with strong expression; when the colature
-is cold it is filtered through paper.
-
-The colature is highly colored; its odor is similar to that of opium,
-its taste is exceedingly bitter.
-
-Ammonia is added until litmus paper is no longer altered; the liquid is
-filtered, the precipitate washed with distilled water, and permitted to
-dry; afterwards it is boiled with a sufficient quantity of rectified
-alcohol and again filtered. The alcoholic solution deposits on cooling,
-numerous needle like crystals, colored by a brownish bitter resin. It
-is purified in the ordinary manner.
-
-What are the therapeutic properties of this alkaloid, of the extractive
-saponaceous matter, and of the brown bitter resin! Do they partake of
-the properties of opium? We know not; the physician alone can determine
-their value.—_Bulletin de Therapeutique._
-
-
-GELATINIZATION OF THE TINCTURE OF RHATANY.—Mr. Editor,—Some years
-ago having occasion to prepare some saturated Tincture of Rhatany,
-about eighteen, ounces were put aside in a glass stoppered bottle.
-The tincture being examined but a short time since, was found to be
-gelatinized, as is generally the case with old tincture of kino. Having
-never seen such a change before, I sought information, and ascertained
-through the United States Dispensatory that a French Pharmaceutist
-in Paris has remarked the same phenomenon, What is the cause of this
-remarkable change, attended as it is, with the loss of astringency?
-Is it not, perhaps, caused by the same action which produces peculiar
-exudation from the bark of certain trees possessed of tannin, retaining
-it for a {320} while and afterwards, when cut up in logs, losing their
-tanning properties and exuding a species of ulmine? Is it not the same
-process which takes place in the decomposition of the kino and rhatany?
-But why is catechu exempt from such a decomposition? If you can
-enlighten me, and especially can explain how to prevent this change,
-you will much oblige myself and numerous readers.
-
-
-LIST OF DELEGATES TO THE CONVENTION.—On the Sixth of this month the
-National Convention will meet in Philadelphia, and we see that our
-Philadelphia friends, with a reference to the convenience of the
-Delegates, have fixed upon 4 o’clock in the afternoon as the hour for
-assembling. The meeting will be held in the Hall of the College of
-Pharmacy, in Zane Street, above Seventh, which has been placed at the
-disposal of the Convention. As far as heard from, the following is a
-list of Delegates:―
-
- _Philadelphia College of Pharmacy_,
-     DANIEL B. SMITH,
-     CHARLES ELLIS,
-     WILLIAM PROCTER, JR.,
-
- _Massachusetts College of Pharmacy_,
-     JOSEPH BURNETT,
-     SAMUEL COLCORD,
-     SAMUEL R. PHILBRICK,
-
- _Richmond Pharmaceutical Society_,
-     ALEXANDER DUVAL,
-     JOHN PURCEL,
-     JOSEPH LAIDLEY,
-
- _Maryland College of Pharmacy_,
-     GEORGE W. ANDREWS,
-     DAVID STEWART, M. D.
-
- _Cincinnatti College of Pharmacy_,
-     WILLIAM B. CHAPMAN,
-     EDWARD S. WAYNE,
-     CHARLES A. SMITH,
-
- _College of Pharmacy of the City of New York_,
-     GEORGE D. COGGESHALL,
-     L. S. HASKELL,
-     JOHN MEAKIM.
-
-{321}
-
-
-
-
-NEW YORK
-
-JOURNAL OF PHARMACY.
-
-NOVEMBER, 1852.
-
-
-ACCIDENTAL SUBSTITUTION OF EXTRACT OF BELLADONNA FOR EXTRACT OF
-DANDELION.
-
-PROSECUTION OF THE MANUFACTURER.
-
- In the Court of Appeals,
-
- SAMUEL THOMAS, JR. AND MARY ANN THOMAS, HIS WIFE,
-
- _Against_ HOSEA WINCHESTER.
-
- RUGGLES, _Chief Judge_.
-
-This action was brought to recover damages from the defendant for
-negligently putting up, labelling and selling as and for the extract
-of _dandelion_, which is a simple and harmless medicine, a jar of
-the extract of _belladonna_, which is a deadly poison; by means of
-which the plaintiff, Mary Ann Thomas, to whom, being sick, a dose of
-dandelion was prescribed by a physician, and a portion of the contents
-of the jar was administered as and for the extract of dandelion, was
-greatly injured, &c.
-
-The facts proved were briefly these: Mrs. Thomas being in ill health,
-her physician prescribed for her a dose of dandelion. Her husband
-purchased what was believed to be the medicine prescribed, at the store
-of Dr. Foord, a physician and druggist in Cazenovia, Madison County,
-where the plaintiffs reside.
-
-A small quantity of the medicine thus purchased, was administered
-to Mrs. Thomas, on whom it produced very alarming effects; such as
-coldness of the surface and extremities, feebleness of circulation,
-spasms of the muscles, giddiness of the head, dilation of the pupils
-of the eyes, and derangement of mind. She recovered, however, after
-some time, from its effects, although, for a short time, her life was
-thought to be in {322} great danger. The medicine administered was
-_belladonna_, and not dandelion.
-
-The jar from which it was taken was labelled “_1/2lb. Dandelion,
-prepared by A. Gilbert, No. 108 John Street, N. Y. Jar 8.02_.” It was
-sold for, and delivered by Dr. Foord, to be the extract of dandelion as
-labelled. Dr. Foord purchased the article as the extract of dandelion,
-from James S. Aspinwall, a druggist at New York. Aspinwall bought it of
-the defendant as extract of dandelion, believing it to be such.
-
-The defendant was engaged at No. 108 John Street, New York, in the
-manufacture and sale of certain vegetable extracts for medicinal
-purposes, and in the purchase and sale of others. The extracts
-manufactured by him were put up in jars for sale, and those which he
-purchased, were put up by him in like manner. The jars containing
-extracts manufactured by himself, and those containing extracts
-purchased by him from others, were labelled alike. Both were labelled
-like the jar in question, as “prepared by A. Gilbert.” Gilbert was
-a person employed by the defendant, at a salary, as an assistant in
-his business. The jars were labelled in Gilbert’s name because he had
-been previously engaged in the same business, on his own account, at
-No. 108 John Street, and probably because Gilbert’s labels rendered
-the articles more saleable. The extract contained in the jar sold to
-Aspinwall, and by him to Foord, was not manufactured by the defendant,
-but was purchased by him from another manufacturer or dealer. The
-extract of dandelion and the extract of belladonna resemble each
-other in color, consistence, smell and taste, but may, on careful
-examination, be distinguished, the one from the other, by those who are
-well acquainted with these articles. Gilbert’s labels were paid for by
-Winchester, and used in his business, with his knowledge and assent.
-
-The defendant’s counsel moved for a nonsuit on the following grounds:―
-
-1. That the action could not be sustained, as the defendant was the
-remote vender of the article in question, and there was {323} no
-connexion, transaction, or privity between him and the plaintiffs, or
-either of them.
-
-2. That this action sought to charge the defendant with the
-consequences of the negligence of Aspinwall and Foord.
-
-3. That the plaintiffs were liable to, and chargeable with the
-negligence of Aspinwall and Foord, and therefore could not maintain
-this action.
-
-4. That according to the testimony Foord was chargeable with
-negligence, and that the plaintiffs therefore could not sustain this
-suit against the defendant; if they could sustain a suit at all, it
-would be against Foord only.
-
-5. That this suit, being brought for the benefit of the wife, and
-alleging her as the meritorious cause of action, cannot be sustained.
-
-6. That there was not sufficient evidence of negligence in the
-defendant to go to the jury.
-
-The Judge overruled the motion for a nonsuit, and the defendant’s
-counsel excepted.
-
-The Judge, among other things, charged the jury that if they should
-find from the evidence that either Aspinwall or Foord were guilty of
-negligence in vending as and for dandelion the extract taken by Mrs.
-Thomas, or that the plaintiff Thomas, or those who administered it to
-Mrs. Thomas, were chargeable with negligence in administering it, the
-plaintiffs were not entitled to recover; but if they were free from
-negligence, and if the defendant Winchester was guilty of negligence in
-putting up and vending the extracts in question, the plaintiffs were
-entitled to recover, provided the extract administered to Mrs. Thomas
-was the same which was put up by the defendant and sold by him to
-Aspinwall, and by Aspinwall to Foord.
-
-That if they should find the defendant liable, the plaintiffs in
-this action were entitled to recover damages only for the personal
-injury and suffering of the wife, and not for loss of service, medical
-treatment, or expense to the husband, and that the recovery should be
-confined to the actual damages suffered by the wife. {324}
-
-The action was properly brought in the name of the husband and wife,
-for the personal injury and suffering of the wife, and the case was
-left to the jury, with the proper directions on that point. _1 Chitty
-on Pleadings. 62 ed. of 1828._
-
-The case depends on the first point taken by the defendant on his
-motion for a nonsuit; and the question is whether the defendant,
-being a remote vender of the medicine, and there being no privity or
-connexion between him and the plaintiffs, the action can be maintained.
-
-If in labelling a poisonous drug with the name of a harmless medicine
-for public market, no duty was violated by the defendant, excepting
-that which he owed to Aspinwall, his immediate vender, in virtue of
-his contract of sale, this action cannot be maintained. If A build a
-wagon and sell it to B, who sells it to C, and C hires it to D, who,
-in consequence of the gross negligence of A in building the wagon,
-is overturned and injured. D cannot recover damages against A, the
-builder.—A’s obligation to build the wagon faithfully, arises solely
-out of his contract with B. The public have nothing to do with it.
-Misfortune to third persons, not parties to the contract, would not be
-a natural and necessary consequence of the builder’s negligence; and
-such negligence is not an act immediately dangerous to human life.
-
-So for the same reason, if a horse be defectively shod by a smith,
-and a person hiring the horse from the owner is thrown and injured in
-consequence of the smith’s negligence in shoeing, the smith is not
-liable for the injury. The smith’s duty in such case grows exclusively
-out of his contract with the owner of the horse; it was a duty which
-the smith owed him alone, and to no one else. And, although the injury
-to the rider may have happened in consequence of the negligence of
-the smith, the latter was not bound, either by his contract or by any
-considerations of public policy or safety, to respond for his breach of
-duty to any one except the person he contracted with.
-
-This was the ground on which the case of _Winterbotham vs. Wright.
-10 Mees and Wellsby, 109_, was decided. A {325} contracted with the
-Post Master General to provide a coach to convey the mail bags along
-a certain line of road, and B and others also contracted to horse the
-coach along the same line. B and his co-contractors hired C, who was
-the plaintiff, to drive the coach. The coach, in consequence of some
-latent defect, broke down; the plaintiff was thrown from his seat, and
-lamed. It was held that C could not maintain an action against A for
-the injury thus sustained. The reason of the decision is best stated by
-Baron Rolfe. A’s duty to keep the coach in good condition was a duty to
-the Post Master General, with whom he made his contract, and not a duty
-to the driver employed by the owners of the horses.
-
-But the case in hand stands on a different ground. The defendant was a
-dealer in poisonous drugs. Gilbert was his agent in preparing them for
-market; the death, or great bodily harm of some person was the natural
-and almost inevitable consequence of the sale of belladonna by means
-of the false label.—Gilbert, the defendant’s agent, would have been
-punishable for manslaughter if Mrs. Thomas had died in consequence of
-taking the falsely labelled medicine. Every man who, by his culpable
-negligence, causes the death of another, although without intent to
-kill, is guilty of manslaughter. 2 _R. S._ 662. § 19. A chemist who
-negligently sells laudanum in a phial labelled as paregoric, and
-thereby causes the death of a person to whom it is administered, is
-guilty of manslaughter. _Tessymond’s case, 1 Lewins’ crown cases,
-169._ “So highly does the law value human life that it admits of no
-justification wherever life has been lost, and the carelessness or
-negligence of one person has contributed to the death of another.”
-_Regina vs. Swindall, 2 Car. and Kir. 232–3._ And this rule applies
-not only where the death of one is occasioned by the negligent act
-of another, but where it is caused by the negligent omission of a
-duty of that other. _2 Car. and Kir. 368–371._ Although the defendant
-Winchester may not be answerable, criminally, for the negligence of
-his agent, there can be no doubt of his liability in a civil action,
-in which the act of the agent is to be regarded {326} as the act of
-the principal. In respect to the wrongful and criminal character of the
-negligence complained of, this case differs widely from those put by
-the defendant’s counsel. No such imminent danger existed in those cases.
-
-In the present case the sale of the poisonous article was made to a
-dealer in drugs, and not to a consumer. The injury, therefore, was not
-likely to fall on him, or on his vendee who was also a dealer; but much
-more likely to be visited on a remote purchaser, as actually happened.
-The defendant’s negligence put human life in imminent danger. Can it
-be said that there was no duty on the part of the defendant to avoid
-the creation of that danger by the exercise of greater caution. Or,
-that the exercise of that caution was a duty only to his immediate
-vendee, whose life was not endangered? The defendant’s duty arose out
-of the nature of his business, and the danger to others incident to its
-mismanagement. Nothing but mischief like that which actually happened
-could have been expected from sending the poison falsely labelled into
-the market; and the defendant is justly responsible for the propable
-consequences of the act.
-
-The duty of exercising caution in this respect did not arise out of
-the defendant’s contract of sale to Aspinwall. The wrong done by the
-defendant was in putting the poison mislabelled into the hands of
-Aspinwall, as an article of merchandize to be sold and afterwards
-used as the extract of _dandelion_ by some person then unknown. The
-owner of a horse and cart, who leaves them unattended in the street,
-is liable for any damage which may result from his negligence. _Lynch
-vs. Mordon, 1 ad. and Ellis, U. S. 29, 5 Car. and Payne 190._ _Illidge
-vs. Goodwin._ The owner of a loaded gun, who puts it into the hands
-of a child by whose indiscretion it is discharged, is liable for
-the damage occasioned by the discharge. _5 Maule and Sel. 198._ The
-defendant’s contract of sale to Aspinwall does not excuse the wrong
-done to plaintiffs. It was a part of the means by which the wrong was
-effected. The plaintiffs injury and their remedy would have stood on
-the same {327} principle, if the defendant had given the _belladonna_
-to Dr. Foord without price; or, if he had put it in his shop without
-his knowledge, under circumstances which would propably have led to its
-sale, on the faith of the label.
-
-In _Longmead vs. Holliday, 6 Law and Eq. Rep. 562_, the distinction is
-recognized between an act of negligence imminently dangerous to the
-lives of others, and one that is not so. In the former case, the party
-guilty of the negligence is liable to the party injured, whether there
-be a contract between them or not; in the latter, the negligent party
-is liable only to the party with whom he contracted, and on the ground
-that negligence is a breach of the contract.
-
-The defendant on the trial insisted that Aspinwall and Foord were
-guilty of negligence in selling the article in question for what it
-was represented to be in the label; and that the suit if it could
-be sustained at all, should have been brought against Foord. The
-judge charged the jury that if they or either of them were guilty of
-negligence in selling the _belladonna_ for _dandelion_, the verdict
-must be for the defendant, and left the question of their negligence to
-the jury, who found on that point for the plaintiff. If the case really
-depended on the point thus raised, the question was properly left to
-the jury. But, I think it did not. The defendant by affixing the label
-to the jar represented its contents to be _dandelion_, and to have
-been “prepared” by his agent Gilbert. The word “prepared” on the label
-must be understood to mean that the article was manufactured by him,
-or that it had passed through some process under his hand, which would
-give him personal knowledge of its true name and quality. Whether Foord
-was justified in selling the article upon the faith of the defendant’s
-label, would have been an open question in an action by the plaintiffs
-against him; and I wish to be understood as giving no opinion on that
-point. But it seems to me to be clear, that the defendant cannot in
-this case set up as a defence that Foord sold the contents of the jar
-as and for what the defendant represented it to be. The label conveyed
-the idea distinctly to Foord that the contents of the {328} jar was
-the extract of _dandelion_, and that the defendant knew it to be such.
-So far as the defendant is concerned, Foord was under no obligation
-to test the truth of the representation. The charge of the judge in
-submitting to the jury the question in relation to the negligence of
-Foord and Aspinwall, cannot be complained of by the defendant.
-
-Judgment Affirmed.
-
- A Copy.       H. R. SELDEN, _State Reporter_.
-
-MEM.—The original verdict against Winchester was $800; the costs of
-appeal, &c. swelled the amount to near $1,400, which was paid by
-Winchester.
-
-
-NOTES IN PHARMACY, No. 5.
-
-BY BENJAMIN CANAVAN.
-
-
-SUCCI INSPISSATI PER AERE SICCO.—I take occasion again to notice these
-preparations, for the reason, that I perceive from a note, by the
-Editor of this Journal, appended to an article on “Cicuta,” &c., in
-the last (September) number: that he considers the extracts of Messrs.
-Tilden or Currie, superior to the best English extracts he has seen. I
-think, however, that on reflection, he will agree with me that those
-prepared by means of a current of dried air—some of which so made have
-been imported and used here—must particularly, when there is anything
-volatile about them,—be superior to all others; indeed, so favorably
-am I inclined to regard this process, that I think the profession,
-medical and pharmaceutical, should _demand_ its adoption by those
-engaged in the business of preparing extracts; until which is the case,
-I shall feel it incumbent upon me to use the imported article, as I
-have been in the habit of doing. Moreover, the relative virosity of
-the _narcotic plants_ of the {329} American and European continents
-are still in favor of the latter, although, if recent researches are
-to be depended upon, the difference is not so great as was supposed.
-Mr. Currie, I believe, prepares some at least, if not all his extracts
-with imported herbs, and in vacuo, and they are therefore the best made
-here; but these are the _dried_ herbs, and cannot afford as good an
-extract, ceteris paribus, as when the fresh plant is used. The English
-extracts of indigenous plants are, strictly speaking, _inspissated
-juices_, according to the _London Pharmacopœia_. The juice of a plant
-inspissated by air alone, and that quickly too, must be tantamount in
-its properties to the fresh plant whence obtained, so far as we are at
-present aware, or at least to the same, dried in the same equally safe
-manner; wherefore, I consider them preferable to all other preparations
-of the family of Extracts.[25]
-
-[25] Mr. Canavan mistakes—the assertion was that the Extract of Conium,
-prepared by Tilden or by Currie, was superior to the best English
-Extract of that article we have seen, and a comparison of the odor of
-the two articles, under the influence of a little liquor potassae, will
-readily convince the observer of its correctness. The question as to
-the other Extracts is one of great interest, and we still believe it
-awaits a satisfactory solution.—[ED.]
-
-
-SANGUINARINA.—Having been called upon to prepare some of this article,
-I undertook to do so by the process said to have been adopted by Mr.
-Dana, viz.: displacing the root with dilute acetic acid; precipitating
-by ammonica; boiling with purified animal charcoal; treating with
-alcohol, and finally evaporating the alcoholic solution, by which I
-obtained from two ounces of the root, about twenty grains only, having
-the sensible properties of the article very strongly, and being of a
-reddish brown color, assuming, when finely pulverized, an ochreish
-hue. It has been described as a “white, pearly substance,” which it
-might have become by more perfect discoloration, or the use of a
-different acid. The liquor from which it was precipitated, lost its
-peculiar taste, but not all its color, showing that the color of the
-root does not depend altogether on this principle, as was supposed.
-The article in question has been used by one practitioner, who stated
-it to have met his expectations, administered in doses of one sixth of
-a grain. The preparation in question is a very desirable one, as the
-objectionable taste of the ordinary preparations is a frequent bar to
-their use.
-
-
-ALOINE.—On this subject it may be well to mark the fact, {330} that
-the officinal “ext. aloe purificat,” presents the active property of
-the aloes, freed from its griping quality, (though this is doubted; but
-the same doubt would seem to apply to aloine.) It is, however, about
-twice the strength of the crude extract, and is generally used when the
-“tuto cito et jucunde” effect is desired. The change which is supposed
-to take place in the aloine, from the heat used in the preparation of
-the purified extract, would only—according to the Messrs. Smith of
-Edinburg—prevent its crystallization, and therefore the extract should
-be equally advantageous, except, perhaps, in regard of bulk, which is
-not a very _great_ object.
-
-
-ZIMMER TEST FOR QUINIDINE.—In employing this test, some modification
-of the original directions is necessary, in order to success. The
-word _drop_ is used, but it is doubtful whether _minim_ may not be
-meant, and if not, the difference in density of the liquids used would
-prevent our getting, by dropping, the correct quantities. This I found
-to be the case, and to save future trouble I give the minutiæ of the
-experiment as I performed it, with success; no evidence of the presence
-of quinidine being shown, as was expected:
-
- ℞  Aquae gtt. xxiij.
-    Acid. Sulph. C. P. gtt. vi.
-    Aether Sulph. _concentr._ gtt. lx.
-    Aquae Ammonia F. F. F. gtt. xx.
-
-Et agita bene.
-
-In each instance, the drops were allowed to fall from the lip of an
-ordinary quart tincture bottle, except the sulphuric acid, which was
-contained in a small pint tincture bottle, and of which I used _three
-times the number of drops_ directed; the drops being about one third
-the size of a drop of distilled water, which was shown to be correct,
-by the necessity for that quantity to effect a solution which took
-place without the aid of external heat. With regard to this matter of
-drops, it is a considerable eyesore. I would recommend to apothecaries,
-(perhaps it might be deemed worthy of the action of the convention),
-to agree upon some standard _size_ for the {331} drop,—say that of
-a drop of distilled water, under definite circumstances. It is true,
-we have a measure; but it is for minims not for drops, whilst in this
-way, by a little practice, the eye might be accustomed to the proper
-size of the drop, so that there would be little or no difficulty in
-obtaining an exact result, by increasing or diminishing the number of
-drops, according to the proportional size of its drop, to the standard
-one. Of course, when I speak of “keeping the drop in the eye,” I do not
-mean to imply anything incompatible with the Maine Liquor Law. I speak
-aquatically, not _spiritually_.
-
-
-NATIONAL PHARMACEUTICAL CONVENTION.
-
-According to the arrangement which had previously been announced,
-the National Convention met in Philadelphia, on Wednesday the 6th of
-October, at 4 P. M. In the absence of Dr. Guthrie, the President, the
-Convention was organized by the appointment of Mr. Coggeshall, of New
-York, as President _pro tempore_; Mr. A. B. Taylor, of Philadelphia,
-as acting Secretary. A committee was then appointed by the Chair,
-consisting of Messrs. Ellis, of Philadelphia, Colcord, of Boston, and
-Laidley, of Richmond, to examine the credentials of the delegates
-present; and to report a resolution in regard to the admission of such
-apothecaries as might be present, who, though not {332} delegated by
-any incorporated institution, desired to attend the Convention.
-
-The committee reported that satisfactory credentials had been presented
-by the following gentlemen:―
-
-_From the Massachusetts College of Pharmacy_—Joseph Burnett, Samuel M.
-Colcord, Dr. Samuel R. Philbrick.
-
-_From the College of Pharmacy, of the City of New York_—George D.
-Coggeshall, L. S. Haskell, John Meakim.
-
-_From the Richmond Pharmaceutical Society_—Alexander Duvall, John
-Purcell, Joseph Laidley.
-
-_From the Cincinnatti College of Pharmacy_—William B. Chapman, Charles
-Augustus Smith, Edward S. Wayne.
-
-_From the Philadelphia College of Pharmacy-_-Daniel B. Smith, Charles
-Ellis, William Procter, Jr.
-
-_From the Maryland College of Pharmacy_—Dr. David Stewart, George W.
-Andrews.
-
-Henry F. Fish, of Waterbury, Connecticut, as the representative of
-the apothecaries and druggists of Hartford county, Connecticut. The
-following resolution was also offered by the committee:―
-
-_Resolved_, That those gentlemen whose interest in the object of the
-Convention has induced them to meet with us on this occasion, be
-invited to take seats in the Convention, and fully participate in its
-proceedings.
-
-The report and resolutions were adopted, and the committee continued to
-act on claims of delegates, and others not yet arrived.
-
-After the roll had been called, the following gentlemen were invited to
-seats in the convention, viz.:―
-
- CHARLES L. BACHE, of San Francisco, California.
- EUGENE DUPUY, of New York.
- EDWARD PARRISH and ALFRED B. TAYLOR, Of Philadelphia.
-
-A committee, consisting of one from each delegation, was {333}
-then chosen to nominate officers for the Convention, and on their
-nomination, the following gentlemen were duly elected:―
-
- DANIEL B. SMITH, of Philadelphia, PRESIDENT.
- GEORGE W. ANDREWS, of Baltimore,
-   SAMUEL M. COLCORD, of Boston,
-   C. AUGUSTUS SMITH, of Cincinnati, VICE PRESIDENTS.
- GEORGE D. COGGESHALL, of New York, RECORDING SECRETARY.
- WILLIAM PROCTER, JR., of Philadelphia, CORRESPONDING SECRETARY.
-
-After the officers had taken their seats, the following report was
-presented by the committee appointed at the Convention, held the
-previous year at New York, “To act as a standing committee, to collect
-such information as maybe deemed valuable, together with memorials
-and suggestions from Medical and Pharmaceutical Associations to be
-presented to the next Convention.”
-
-“The undersigned, a committee appointed at the Convention, held
-last year in New York, and instructed “To collect and receive such
-information as may be valuable, and memorials and suggestions from
-Medical and Pharmaceutical Associations, to be presented to the next
-Convention,” respectfully report: That in the period that has elapsed
-since their appointment—notwithstanding the fact of their readiness
-to receive any communications, having been duly announced—they
-have received no contributions towards the end or object of their
-appointment, except those relating to the inspection of drugs. They
-have, however, not been unmindful of the duty imposed upon them, and
-now offer the following suggestions, as tending to aid the business of
-the Convention, in so far as they exhibit some of the more prominent
-subjects, worthy of its serious deliberation and action.
-
-1st, The number of pharmaceutists constituting the professional body in
-the United States is large, comprehends all grades of qualifications,
-and extends to every city and town in the country. The professed
-object of the present Convention being to adopt measures calculated to
-benefit this large body of citizens, in a professional point of view,
-by showing that there exist many grounds of sympathy between them,
-notwithstanding the present want of united action; we believe, that the
-institution of a national association, whose members may come from all
-sections of the body, is calculated to enlist this feeling of {334}
-brotherhood, and direct its power, as a reforming force, towards the
-elevation of the average standard of qualification now existing. In
-view of this, it is suggested, whether the passage of a resolution by
-this Convention, resolving itself into a National Association, should
-not properly engage its attention at its commencement, so that the
-important details of forming a Constitution—explaining the nature of
-its organization, &c. &c., might receive the deliberate consideration
-they merit, before being adopted.
-
-As the basis upon which the Association will rest, will be the
-decision as to what shall constitute a member, we believe its ultimate
-usefulness will very much depend on the character of this decision, and
-we cannot refrain from presenting some reflections on the subject.
-
-The inefficiency or inadequacy of the present basis, viz.:—Delegates
-from incorporated and unincorporated societies is here demonstrated,
-by the small number who have been appointed in answer to the call; at
-least, this must be true, so long as the process of local organization
-is so dilatory. The aim should be, to enlist as much as possible of the
-talent now engaged in the pharmaceutical ranks.
-
-We think, therefore, that membership in the proposed association
-should be of a representative character, to as full an extent as
-practicable. Colleges and societies of pharmacy should, of course,
-send delegates. Then, provision should be made for the apothecaries,
-in cities and towns where no society exists, whereby they may send
-representatives, to the extent of one for every ten apothecaries, in
-such places; each representative to bring with him a certificate from
-his constituents. Finally, to provide for the admission of isolated
-individuals, who may not have neighbors sufficient to entitle them to
-act as representatives, but who feel an interest in the association.
-Power should be given to the committee, on credentials, under certain
-restrictions.
-
-The formation of the constitution, and the preparation of a code
-of ethics applicable to the present condition of the profession;
-sufficiently stringent to elevate the members above many things now too
-prevalent, and yet not so binding as to exclude a large number, who,
-though well disposed, are unable to free themselves from participation
-in acts contrary to the highest standard, without a sacrifice greater
-than could be expected of them, should engage the wisest action of the
-Convention, to render them practicable in their working. {335}
-
-2nd, The subject of _Pharmaceutical Education_ is, in the opinion
-of this committee, one of great importance, and deserving of the
-consideration of the committee, in several points of view. Indeed,
-the primary object of the Convention being called, was in reference
-to the improvement of the standard practice throughout the country;
-and this cannot be effected without extending the present means of
-education, either by schools, or by an increase of facilities, offered
-by proprietors to their apprentices and assistants. In too many
-instances the proprietors are illy fitted to extend to those whom they
-have engaged to teach the business of a Pharmaceutist the tuition that
-of right belongs to them. As schools of pharmacy are of gradual growth,
-and cannot be expected to exist, except in large cities, the Convention
-would do well to consider what subsidiary means may be enlisted to
-reach those of our brethren who reside in small towns. One of the
-first of these collateral aids will be found in local organizations,
-embracing the proprietors in such towns where, by a union of their
-exertions and contributions they may encourage pharmaceutical
-literature, by forming libraries, and uphold among themselves correct
-practice,—the employment only of good drugs, and the receipt of fair
-prices.
-
-In France, where but three pharmaceutical schools exist, there are
-such societies in all large towns, which have halls and libraries,
-where their young men and apprentices have opportunities for gaining
-knowledge; and laboratories wherein they occasionally perform
-operations not easily executed with the instruments and utensils most
-usually found in shop laboratories. If such associations can be formed
-by the proprietors, they will soon influence the apprentices, and thus
-effect the object aimed at, to a great extent.
-
-The superior advantages of tuition in well conducted schools of
-pharmacy will not be doubted, especially, when it is preceded by
-several years shop practice. Access to these, by young men at a
-distance, can always be had, when their circumstances enable them to
-attend, and thus finish their pharmaceutical education. The perfection
-of a school of pharmacy is attained by attaching to it a practical
-laboratory, wherein the advanced pupils can have an opportunity to
-become familiar with the more difficult manipulations of pharmaceutical
-chemistry, and of extemporaneous pharmacy. As yet, neither of the
-schools in this country have that addition, which arises from the fact,
-that the expense of conducting them, renders their support by the fees
-{336} of the pupils almost impossible. We think the voice of the
-Convention should be raised to encourage the formation of such schools,
-and also, to advocate the practice of preparing chemicals in the shop
-laboratory.
-
-3rd, The apprenticeship system, which obtains, in many parts of the
-United States, is a subject worthy the consideration of the Convention.
-The conditions, conducing to mutual advantage, between the employer
-and the employed, are not sufficiently attended to in general.
-Proprietors often do not consider the fitness of applicants, both
-as regards natural endowments and preliminary education, with that
-care and attention that a due regard to such applicants demands; and
-consequently, a large number of inefficient apothecaries are entailed
-upon the country—inefficient from lack of talent, or from disgust at
-a business for which they have no inclination. More attention to the
-claims of apprentices, on the _teaching_ of their employers, should be
-advocated by the Convention as due to the former, as advantageous to
-the latter, and eventually to the profession.
-
-4th, The committee believe that the subject of _secret medicines_, or
-quackery, as applied to Pharmacy, together with the course usually
-followed by quacks, in bringing their nostrums into notice, is becoming
-yearly more fraught with ill consequences, both to the consumers and
-the apothecaries, and merits the consideration of the Convention, as
-to whether the reference of the subject to a committee to investigate,
-would not result in some advantage.
-
-5th, The subject of the _inspection of imported drugs_, as regards
-the _actual_ working of the law, is of deep interest to all. The
-possibility of bringing the influence of this Convention to bear, in
-regard to the continuance in office of able men, solely on the ground
-of fitness, is worth consideration. The usefulness of this law rests
-absolutely on the ability and conscientiousness of the inspector, and
-if incumbents, perfectly satisfactory to those concerned, are removed
-on political grounds, and replaced by inexperienced and unqualified
-persons, it is apparent that the good results of the law will cease.
-
-Whatever may be the efficiency of the law against the importation of
-inferior drugs, it will not reach those _at home_, who are disposed
-to resort to adulteration as a means of increasing their profits. The
-power of the General Government ceases with the Custom House. It will
-be necessary in order to reach this evil effectually, as far as it can
-be {337} done by legislation; to induce our State Legislatures and
-Municipal Authorities to authorize some form of inspection by which
-the delinquents can be reached; not the drug adulterator merely, but
-the medicine adulterator—the apothecary who scruples not to reduce
-the strength of standard medicines, that he may reduce his prices.
-Whatever may be the proper course of this Convention, we believe that
-eventually the National Association should urge, with all the force of
-its influence, the enactment of State laws tending to the reformation
-of these evils.
-
-6th, The general adoption of our _National Pharmacopœia_ as a guide
-in the preparation of officinal medicines, is much to be desired. We
-believe that this Convention should encourage its adoption, and should
-request the publishers of that work to issue a small sized cheap
-edition, so that every physician and apothecary shall have a copy. We
-also believe that a fruitful source of variation in the preparations
-of the shops, is the existence of a number of formulæ for the same
-preparation, as found in the British Pharmacopœias parallel with that
-of our own code, in the commentaries in general use.
-
-7th, The _indiscriminate sale of poisons_ by druggists and
-apothecaries, as at present conducted, is a serious evil in the United
-States. Any views which may originate in the Convention, tending to
-abate this evil, would no doubt have some influence, if circulated by
-its authority.
-
-8th, The separation of Pharmacy from the practice of Medicine, has long
-been effected on the continent of Europe, by the direct interference
-of the government, each profession being in the hands of a distinct
-class of men. Inheriting, as we do, our medical institutions from
-Great Britain, the confusion of interests which has long prevailed
-there has in some measure descended to us; and many instances of
-medical practitioners conducting apothecary shops, like the so-called
-_apothecaries_ of England, exist among us. The increase of this class
-in some localities has been marked of late years—a fact attributable
-to the “undue multiplication of graduates in medicine, who, finding
-the ranks of their profession so full as to render prospect of
-immediate success doubtful, turn their attention towards Pharmacy,
-as a subsidiary means of support. As these mongrel apothecaries too
-frequently use their shops merely as stepping-stones to business,
-they tend directly to depreciate the standard of practice on the one
-hand, and tempt {338} young apothecaries, who are struggling against
-the difficulties of an already excessive competition, to turn their
-attention to medical practice with or without a diploma, as may suit
-their circumstances or fancy, on the other, and thus complicate the
-confusion. As pharmacy never will advance as it should, whilst this
-amalgamation exists in cities and towns to any large extent, we
-earnestly recommend to this Convention, that a voice may go forth at
-its present session, calling attention to this growing evil.
-
-9th, Believing, that if the Pharmaceutists of the United States are
-true to themselves, the Meetings of the Association, of which the
-present may be considered the beginning, will annually increase in
-interest and importance, we would suggest—what must have occurred to
-many present—that they should be partially devoted to the advancement
-of Pharmacy, as well as to the sciences on which it is based, by
-inviting contributions of original papers, and by committing subjects
-requiring investigation to suitable committees, who should report
-the results of their researches at the ensuing Annual Meeting,
-when, if they meet the approbation of the Association, it might
-direct their publication. Participation in the proceedings of such
-a gathering of their brethren, would prove a powerful incentive to
-many pharmaceutists, whose tastes lead them into scientific paths, to
-cultivate their talents by the pursuit of investigations fraught with
-usefulness to their profession at home, and with honor to it abroad.
-
-And lastly, whatever may be the ultimate action of the Convention,
-in relation to the subjects brought forward in this Report, we would
-respectfully suggest that a full digest of its proceedings be directed
-to be published, and largely circulated among the Pharmaceutists of the
-United States, as calculated to do much good.
-
- (SIGNED,)
-    WILLIAM PROCTER, JR.,
-    SAMUEL M. COLCORD,
-    GEO. D. COGGESHALL. COMMITTEE.
-
-The Second Meeting of this Association was mainly occupied in reading
-and discussing a draft of a Constitution and code of Ethics.
-
-THIRD SITTING, October 7th, 4 o’clock, P. M.
-
-President in the chair.
-
-On the roll being called, the delegates generally were present. {339}
-
-The minutes of the preceding sitting were read and adopted.
-
-The President informed the Convention, that the Business Committee not
-being ready to report, it was understood that Dr. Stewart, Examiner of
-Drugs, &c., at the port of Baltimore, had some statements to offer in
-regard to the working of the Drug Law at that port, and the Convention
-assenting, requested him to proceed.
-
-Dr. Stewart stated, that as there had been some difference of opinion
-among the Drug Examiners, as to the intention of the law in certain
-cases, he desired the opinion of the Convention regarding the inferior
-class of Cinchona Barks that came from Maracaibo, Carthagena, &c.,
-and other articles about which there is difference of opinion among
-druggists. In illustration of the difficulties of the subject, he
-remarked that one invoice of bark, that in a commercial point of view
-was not esteemed, and which came invoiced at ten cents per pound, had
-yielded, on analysis, two and a half per cent of cinchonine; whilst
-Loxa bark, invoiced at thirty cents per pound, had afforded but a
-fraction of one per cent. He considered the admission of the barks in
-question as quite different from deteriorated or adulterated drugs, in
-as much as they possessed a range of power which, though inferior to
-the best Peruvian barks, was yet useful, and capable of application in
-medicine.
-
-He therefore offered the following resolution:
-
-“Resolved, that it is the opinion of this Convention, that all
-varieties of drugs, that are good of their kind, should be admitted by
-the Special Examiners of drugs and medicines.”
-
-Pending the consideration of this resolution, Mr. Coggeshall informed
-the Convention that Dr. Bailey, the Special Examiner of Drugs for
-the port of New York, had furnished, at his request, a report on the
-character of imported drugs, coming under his supervision, and on the
-general working of the laws, which, by request, was read. (Published in
-our last.)
-
-A similar report from Mr. Edward Hamilton, late Drug Examiner at the
-port of Boston, communicated to Mr. S. M. Colcord, at his request, with
-a view to its being presented to {340} this Convention, was also read.
-(To be published in our next.)
-
-Dr. Stewart then opened the debate on the subject, arguing that drugs,
-of whatever virtue or variety, so that they are good of their kind,
-should be admitted. In reference to Barks he could say, that perhaps
-a larger amount of the varieties of that drug came to the port of
-Baltimore than any other. That the merchants in that trade were so
-desirous of getting the best kinds, that it was quite usual for them
-to import specimens by way of the Isthmus, and have them examined
-before ordering their invoices, to ascertain whether they would pass
-the Custom-house, that he had, (as Examiner at that port,) chemically
-examined a large number of samples of the barks, both Peruvian and
-Carthagena, and that the latter had invariably contained more or less
-of alkaloids, and were generally of good quality, of their kind.
-
-He therefore considered the fact that a drug is, or may be used as an
-adulteration for other drugs, should not exclude it if it is used to
-any extent on its own merits. In illustration, Dr. Stewart remarked
-that the Examiner might go on a vessel and observe, side by side, two
-casks of oil, consigned to the same individual, one invoiced “cod liver
-oil,” and the other “sperm oil.” On examination he finds that they are
-what they purport to be; the suspicion would arise very naturally,
-that the latter was to be used for adulterating the former, yet,
-should sperm oil be excluded, because certain parties use it for an
-adulteration? He thought not, and on the same grounds he considered
-that the inferior barks and rhubarb should be admitted, although some
-persons may use them for adulteration.
-
-At the request of the President, Professor Carson, of the University
-of Pennsylvania, addressed the Convention on the subject before it.
-He coincided generally with the views of Dr. Stewart, as regarded the
-value of the drugs in question. He expressed the opinion that numerous
-varieties of the so-called Carthagena and Maracaibo barks, were
-possessed of decided medicinal virtue; that several kinds of European
-rhubarb {341} were of much value in medicine, especially in times when
-the officinal varieties are scarce, and that these drugs should all be
-admitted, when not deteriorated or adulterated.
-
-Mr. Haskell, of New York, advocated the same views, more especially,
-as related to English rhubarb, bringing forward the testimony of Dr.
-Pereira, to the effect, that some specimens of Banbury rhubarb were
-almost, if not fully equal to the Chinese drug, and they were here even
-of rather higher price. He also stated, that a large demand existed in
-this country for the yellow Carthagena barks, that the House, of which
-he Was a member, sold large quantities in powder, and that the parties
-purchasing it did so, knowing its origin. He was not aware of the use
-to which it was put, but presumed that it was employed legitimately.
-
-Mr. Fisk, of Connecticut, stated, that through the part of New England
-that he represented, considerable quantities of the barks in question
-were used legitimately, as tonics; and that no instance of their being
-used as an adulteration of the Peruvian barks had come to his knowledge.
-
-Mr. Coggeshall on the other side of the question, called the attention
-of the Convention to the item in Dr. Bailey’s Report, showing that
-three hundred thousand pounds of these barks had been rejected at the
-port of New York, in about two years and a half. He argued that this
-bark was not consumed there; that it was not used in the manufacture
-of the alkaloids; that the allegation that it was used for making
-tooth powders would hardly account for the great consumption of it,
-and the question naturally arose for what purpose was it imported? He
-believed that it was used extensively to grind with the Peruvian barks,
-as an adulteration, and to make an inferior extract, which could be
-done cheaply and profitably, and it was largely sold as an officinal
-preparation, that many of the persons who came to our cities to buy
-drugs, were not able to judge of their purity, and bought them without
-asking any questions, save, as regarded price,—and so convinced was he
-of the application of these false barks to these false purposes, {342}
-that as a protective measure, in his opinion, they should be excluded.
-And also, in regard to English and other European rhubarb, that the
-argument of Professor Carson would not hold good while the markets were
-so well supplied with the Russian and Chinese varieties, to which the
-Banbury, regarded as the best of the European, was so very inferior. It
-might be used as a dernier resort, but should only be so used. Entirely
-independent of this argument, however, Mr. Coggeshall considered that
-European rhubarb should be excluded, because of its peculiar adaptation
-and general use as an adulteration, owing to its fine color, which
-enables the adulterator to improve the appearance of the inferior
-Chinese variety, to mix it with the Russian article in powder, without
-depreciating its appearance; or, as it is notoriously done, to a great
-extent, substitute it entirely for the true article.
-
-Mr. Colcord, of Boston, advocated the latter view, and hoped that the
-Resolution would not pass.
-
-Other members of the Convention joined in the debate, after which, the
-question was taken on the Resolution of Dr. Stewart, and it was lost.
-
-As the importance of the subject introduced by Dr. Stewart, was fully
-appreciated by the Convention, at the same time that no direct course
-of action seemed proper for it to pursue, the following Resolution was
-offered by Mr. Smith, of Cincinnati, viz.:
-
-“Resolved, that the whole subject of the Inspection of Drugs shall be
-referred to a Committee, who shall be instructed to confer with the
-Examiners, and endeavor to arrive at some practicable means of fixing
-standards for imported drugs.”
-
-The resolution was unanimously adopted, and Mr. Taylor, of
-Philadelphia, Mr. Meakim, of New York, and Mr. Burnett, of Boston, were
-appointed by the President, to carry it into effect.
-
-On motion of Mr. Procter, Dr. Stewart, of Baltimore, was added to the
-Committee.
-
-[This Report is made up from the Report of the Executive Committee,
-published in Philadelphia. The conclusion of the proceedings will be
-given in our next.]
-
-{343}
-
-
-OBSERVATIONS UPON A GENERAL METHOD FOR DETECTING THE ORGANIC ALKALOIDS
-IN CASES OF POISONING.
-
-BY PROFESSOR STAS, OF BRUSSELS.
-
-Whatever certain authors may have said on the subject, it is possible
-to discover in a suspected liquid all the alkaloids, in whatever state
-they may be. I am quite convinced that every Chemist who has kept
-up his knowledge as to analysis, will not only succeed in detecting
-their presence, but even in determining the nature of that which he
-has discovered, provided that the alkaloid in question is one of
-that class of bodies, the properties of which have been suitably
-studied. Thus he will be able to discover conia, nicotine, aniline,
-picoline, petinine, morphine, codeine, narcotine, strychnine, brucine,
-veratrine, colchicine, delphine, emetine, solanine, aconitine,
-atropine, hyoscyamine. I do not pretend to say that the chemical study
-of all these alkaloids has been sufficiently well made to enable the
-experimenter who detects one of them to know it immediately, and affirm
-that it is such an alkaloid, and not such another. Nevertheless, in
-those even which he cannot positively determine or specify, he may
-be able to say that it belongs to such a family of vegetables—the
-Solanaceæ, for example. In a case of poisoning by such agents, even
-this will be of much importance. The method which I now propose for
-detecting the alkaloids in suspected matters, is nearly the same as
-that employed for extracting those bodies from the vegetables which
-contain them. The only difference consists in the manner of setting
-them free, and of presenting them to the action of solvents. We know
-that the alkaloids form acid salts, which are equally soluble in water
-and alcohol; we know also that a solution of these acid salts can be
-decomposed so that the base set at liberty remains either momentarily
-or permanently in solution in the liquid. _I have observed that all
-the solid and fixed alkaloids above enumerated, when maintained in a
-free state_ {344} _and in solution in a liquid, can be taken up by
-ether when this solvent is in sufficient quantity._ Thus, to extract
-an alkaloid from a suspected substance, the only problem to resolve
-consists in separating, by the aid of simple means, the foreign
-matters, and then to find a base which, in rendering the alkaloid free,
-retains it in solution, in order that the ether may extract it from
-the liquid. Successive treatment by water and alcohol of different
-degrees of concentration, suffices for separating the foreign matters,
-and obtaining in a small bulk a solution in which the alkaloid can
-be found. The bicarbonates of potash or soda, or these alkalies in
-a caustic state, are convenient bases for setting the alkaloids at
-liberty, at the same time keeping them wholly in solution, especially
-if the alkaloids have been combined with an excess of tartaric or of
-oxalic acid.
-
-To separate foreign substances, animal or otherwise, from the suspected
-matters, recourse is commonly had to the tribasic acetate of lead,
-and precipitating the lead afterwards by a current of sulphuretted
-hydrogen. As I have several times witnessed, this procedure has many
-and very serious inconveniences. In the first place, the tribasic
-acetate of lead, even when used in large excess, comes far short of
-precipitating all the foreign matters; secondly, the sulphuretted
-hydrogen, which is used to precipitate the lead, remains in combination
-with certain organic matters which undergo great changes by the action
-of the air and of even a moderate heat; so that animal liquids which
-have been precipitated by the tribasic acetate of lead, and from which
-the lead has been separated afterwards by hydrosulphuric acid, color
-rapidly on exposure to the air, and exhale at the same time a putrid
-odor, which adheres firmly to the matters which we extract afterwards
-from these liquids. The use of a salt of lead presents another
-inconvenience, viz.: the introduction of foreign metals into the
-suspected matters, so that that portion of the suspected substance is
-rendered unfit for testing for mineral substances. The successive and
-combined use of water and alcohol at different states of concentration,
-{345} permits us to search for mineral substances, whatever be their
-nature, so that in this way nothing is compromised, which is of immense
-advantage when the analyst does not know what poison he is to look for.
-
-It is hardly necessary to say, that in medico-legal researches for the
-alkaloids, we ought never to use animal charcoal for decolorizing the
-liquids, because we may lose all the alkaloid in the suspected matters.
-It is generally known that animal charcoal absorbs these substances at
-the same time that it fixes the coloring and odoriferous matters.
-
-[This is no doubt true; we must not use animal charcoal to decolorize,
-and then look for the alkaloid in the _liquid_, but we may use it, at
-least in the case of strychnia and some of the non-volatile alkaloids,
-to separate them, and then we look for them _in the charcoal_. See
-notice of Graham and Hofmann’s Process for Detecting Strychnia:
-_Monthly Journal_, Aug., 1852, p. 140; _Pharmaceutical Journal_, vol.
-xi., p. 504, May, 1852.]
-
-The above observations do not proceed from speculative ideas only, but
-are the result of a pretty long series of experiments which I have
-several times employed for discovering these organic alkaloids. To put
-in practice the principles which I have thus explained, the following
-is the method in which I propose to set about such an analysis:—I
-suppose that we wish to look for an alkaloid in the contents of the
-stomach or intestines; we commence by adding to these matters twice
-their weight of pure and very strong alcohol;[26] we add afterwards,
-according to the quantity and nature of the suspected matter, from ten
-to thirty grains of tartaric or oxalic acid—in preference tartaric;
-we introduce the mixture into a flask, and heat it to 160° or 170°
-Fahrenheit. After it has completely cooled it is to be filtered, the
-insoluble residue washed with strong alcohol, and the {346} filtered
-liquid evaporated in vacuo. If the operator has not an air-pump, the
-liquid is to be exposed to a strong current of air at a temperature
-of not more than 90° Fahrenheit. If, after the volatilization of the
-alcohol, the residue contains fatty or other insoluble matters, the
-liquid is to be filtered a second time, and then the filtrate and
-washings of the filter evaporated in the air-pump till nearly dry.
-If we have no air pump, it is to be placed under a bell-jar over a
-vessel containing concentrated sulphuric acid. We are then to treat
-the residue with cold anhydrous alcohol, taking care to exhaust the
-substance thoroughly; we evaporate the alcohol in the open air at the
-ordinary temperature, or still better, in vacuo; we now dissolve the
-acid residue in the smallest possible quantity of water, and introduce
-the solution into a small test-tube, and add little by little pure
-powdered bicarbonate of soda or potash, till a fresh quantity produces
-no further effervescence of carbonic acid. We then agitate the whole
-with four or five times its bulk of pure ether, and leave it to settle.
-When the ether swimming on the top is perfectly clear, then decant some
-of it into a capsule, and leave it in _a very dry place_ to spontaneous
-evaporation.
-
-[26] When we wish to look for an alkaloid in the tissue of an organ,
-as the liver, heart, or lungs, we must first divide the organ into
-very small fragments, moisten the mass with pure strong alcohol, then
-express strongly, and by further treatment with alcohol exhaust the
-tissue of everything soluble. The liquid so obtained, is to be treated
-in the same way as a mixture of suspected matter and alcohol.
-
-Now, two orders of things may present themselves; either the alkaloid
-contained in the suspected matter is liquid and volatile, or solid and
-fixed. I shall now consider these two hypotheses.
-
-
-EXAMINATION FOR A LIQUID AND VOLATILE ALKALI.
-
-We suppose there exists a liquid and volatile alkaloid. In such a
-case, by the evaporation of the ether, there remains in the inside of
-the capsule some small liquid striæ which fall to the bottom of the
-vessel. In this case, under the influence of the heat of the hand,
-the contents of the capsule exhale an odor more or less disagreeable,
-which becomes, according to the nature of the alkaloid, more or less
-pungent, suffocating, irritant; it presents, in short, a smell like
-that of a volatile alkali masked by an animal odor. If we discover
-any traces of the presence of a volatile alkaloid, we add then to the
-contents {347} of the vessel, from which we have decanted a small
-quantity of ether, one or two fluid drachms of a strong solution of
-caustic potash or soda, and agitate the mixture. After a sufficient
-time, we draw off the ether into a test-tube; we exhaust the mixture by
-two or three treatments with ether, and unite all the ethereal fluids.
-We pour afterwards into this ether, holding the alkaloid in solution,
-one or two drachms of water, acidulated with a fifth part of its weight
-of pure sulphuric acid, agitate it for some time, leave it to settle,
-pour off the ether swimming on the top, and wash the acid liquid at
-the bottom with a new quantity of ether. As the sulphates of ammonia,
-of nicotine, aniline, quinoleine, picoline, and petinine, are entirely
-insoluble in ether, the water acidulated with sulphuric acid contains
-the alkaloid in a small bulk, and in the state of a pure sulphate;
-but as the sulphate of conia is soluble in ether, the ether may
-contain a small quantity of this alkali, but the greater part remains
-in the acidulated watery solution. The ether, on the other hand,
-retains all the animal matters which it has taken from the alkaline
-solutions. If it on spontaneous evaporation leaves a small quantity of
-a feebly-colored yellowish residue, of a repulsive animal odor, mixed
-with a certain quantity of sulphate of conine, this alkaloid exists
-in the suspected matter under analysis. To extract the alkaloid from
-the solution of the acid sulphate, we add to the latter an aqueous
-and concentrated solution of potash or caustic soda, we agitate and
-exhaust the mixture with pure ether; the ether dissolves ammonia, and
-the alkaloid is now free. We expose the ethereal solution at the lowest
-possible temperature to spontaneous evaporation; almost all the ammonia
-volatilizes with the ether, whilst the alkaloid remains as residue. To
-eliminate the last traces of ammonia, we place for a few minutes the
-vessel containing the alkaloid in a vacuum over sulphuric acid, and
-obtain the organic alkaloid with the chemical and physical characters
-which belong to it, and which it is now the Chemist’s duty to determine
-positively.
-
-I applied, on the 3d March, 1851, the process which I have {348}
-described, to the detection of nicotine in the blood from the heart
-of a dog poisoned by two cubic centimetres [0.78 C.I.] of nicotine
-introduced into the œsophagus, and I was able in a most positive manner
-to determine the presence of nicotine in the blood. I was able to
-determine its physical characters, its odor, taste, and alkalinity.
-I succeeded in obtaining the chloroplatinate of the base perfectly
-crystallized in quadrilateral rhomboidal prisms of a rather dark yellow
-color, and to ascertain their insolubility in alcohol and ether.
-
-I have applied the same process for the detection of conia in a very
-old tincture of hemlock, which my friend and colleague M. de Hemptinne
-was so kind as to put at my disposal; and I was equally successful in
-extracting from the liquid colorless conia, presenting all the physical
-and chemical properties of this alkali. I was also able to prove that
-the ether which holds conia in solution, carries off a notable portion
-of this alkaloid when the solvent is exposed to spontaneous evaporation.
-
-
-EXAMINATION FOR A SOLID AND FIXED ALKALOID.
-
-Let us now suppose that the alkali is solid and fixed; in that
-case, according to the nature of the alkali, it may happen that the
-evaporation of the ether resulting from the treatment of the acid
-matter, to which we have added bicarbonate of soda, may leave or not
-a residue, containing an alkaloid. If it does, we add a solution of
-caustic potash or soda to the liquid, and agitate it briskly with
-ether. This dissolves the vegetable alkaloid, now free and remaining
-in the solution of potash or soda. In either case, we exhaust the
-matter with ether. Whatever be the agent which has set the alkaloid
-free, whether it be the bicarbonate of soda or potash, or caustic soda
-or potash, it remains, by the evaporation of the ether, on the side
-of the capsule as a solid body, but more commonly a colorless milky
-liquid, holding solid matters in suspension. The odor of the substance
-is animal, disagreeable, but not pungent. It turns litmus paper
-permanently blue.
-
-When we thus discover a solid alkaloid, the first thing to do is
-to try and obtain it in a crystalline state, so as to be able to
-{349} determine its form. Put some drops of alcohol in the capsule
-which contains the alkaloid, and leave the solution to spontaneous
-evaporation. It is, however, very rare that the alkaloid obtained by
-the above process is pure enough to crystallize. Almost always it is
-soiled by foreign matters. To isolate these substances, some drops
-of water, feebly acidulated with sulphuric acid, are poured into the
-capsule, and then moved over its surface, so as to bring it in contact
-with the matter in the capsule. Generally we observe that the acid
-water does not moisten the sides of the vessel. The matter which is
-contained in it separates into two parts, one formed of greasy matter,
-which remains adherent to the sides—the other alkaline, which dissolves
-and forms an acid sulphate. We cautiously decant the acid liquid,
-which ought to be limpid and colorless, if the process has been well
-executed; the capsule is well washed with some drops of acidulated
-water, added to the first liquid, and the whole is evaporated to
-three-fourths in vacuo, or under a bell-jar over sulphuric acid. We
-put into the residue a very concentrated solution of pure carbonate
-of potash, and treat the whole liquid with absolute alcohol. This
-dissolves the alkaloid, while it leaves untouched the sulphate of
-potash and excess of carbonate of potash. The evaporation of the
-alcoholic solution gives us the alkaloid in crystals.
-
-It is now the Chemist’s business to determine its properties, to be
-able to prove its individuality. I have applied the principles which I
-have just expounded to the detection of morphine, iodine, strychnine,
-brucine, veratrine, emetine, colchicine, aconitine, atropine,
-hyoscyamine—and I have succeeded in isolating, without the least
-difficulty, these different alkalies, previously mixed with foreign
-matters.
-
-I have thus been able to extract, by this process, morphine from opium,
-strychnine and brucine from nux vomica, veratrine from extract of
-veratram, emetine from extract of ipecacuanha, colchicine from tincture
-of colchicum, aconitine from an aqueous extract of aconite, hyoscyamine
-from a very old extract of henbane, and atropine from an equally old
-tincture of {350} belladonna. Thus it is in all confidence that I
-submit this process to the consideration of Chemists who undertake
-medico-legal researches.—_Bulletin de l’ Académie Royale de Médecine de
-Belgique_, tom. vi., No. 2; _and Edinburgh Monthly Journal of Medical
-Science_.
-
-
-VARIA—EDITORIAL.
-
-
-OINTMENT OF STAVESACRE IN ITCH.—It has long been known that the itch is
-caused by the attack of a minute insect, the acarus scabiei, the male
-of which has only been lately detected, by the microscope. The ordinary
-sulphur ointment, though successful after repeated applications, in
-destroying the insect, often causes a good deal of irritation of the
-skin, and leaves the patient with an eruption as troublesome if not
-as permanent as the itch itself. M. Bourguignon, a French physician,
-finds that the infusion of the seeds of the stavesacre, (Delphinium
-Staphisagria) or a solution of the extract, not only speedily kills
-the insects and destroys their eggs, but that it has no irritating
-influence whatever upon the skin itself. He afterwards adopted an
-ointment, prepared by digesting over a vapor bath, for twenty-four
-hours, three parts of stavesacre seeds in five parts of lard, and
-straining the product while still liquid. He found that friction with
-this ointment cured the patient in four days, while seven days were
-required when sulphur ointment was used.
-
-
-POISONOUS HONEY.—The family of one of our most respectable wholesale
-druggists has lately suffered severely from symptoms of poisoning,
-caused by some honey which they had eaten. The family of one of
-his neighbors likewise, to whom, induced by its particularly fine
-appearance, he had sent some of the honey, were affected in a similar
-manner. The number of those who partook of the suspected article,
-all of whom were affected, though not to the same degree, renders it
-certain that the symptoms were not caused by any idiosyncracy, but
-were produced by some poisonous principle, probably derived from some
-narcotico-acrid plant on which the bees had fed.
-
-On eating it there was an unpleasant sense of pricking and burning
-in the throat, nausea, and a burning sensation throughout the whole
-system, together with an immediate effect upon vision, approaching
-to blindness. Several of those who {351} ate of the honey vomited
-violently and were in great distress. One was rendered entirely blind
-and insensible, and it was feared for some time might not recover. In
-the other cases the effect passed off in some ten or twelve hours. In
-one case a single drop of the honey, taken on the end of the finger
-from the box where it had leaked through a crevice, had such an effect
-on the sight that the person could not see to read a newspaper, but it
-passed off within an hour.
-
-“We are not aware,” continues our informant, “of any poisonous plants
-in the vicinity where the honey was made, except what is called
-kill-calf, (Andromeda Mariana) which is found in abundance on Hempstead
-Plains, at a distance of about a mile.”
-
-If, as is supposed, the poison was derived from some plant in which
-the bees had fed, it must have been elaborated or concentrated in the
-economy of the insect, or been the product of some reaction of the
-honey itself upon the poisonous principle, since no poisonous vegetable
-is known which would produce such effects, in such minute quantity.
-
-
-NEW REMEDIES.—Dr. J. Y. Simpson, of Edinburg, the discoverer of the
-anaesthetic properties of Chloroform, has lately been experimenting
-on the physiological and therapeutical properties of a varitey of
-substances which have not previously been used in medicine. He finds
-that the alkaloid furfurine in poisonous doses, produces upon animals
-many of the symptoms of poisoning by quinine, and that in smaller doses
-on the human subject it acts as a tonic, if not an anti-periodic. He
-has likewise used nickel, generally in the form of sulphate, and finds
-that it is exceedingly analagous in its therapeutic effects to the
-salts of iron. In one instance, however, a case of severe periodic
-headache, it proved completely successful, after iron with quinine, and
-a great many other remedies had been tried in vain.
-
-
-THE CONVENTION.—The _event_ for Pharmaceutists in the past month, was
-the Meeting of the Convention at Philadelphia. The number present was
-smaller than could have been wished, yet great as could reasonably have
-been anticipated. Eight states were represented, including Mr. Bache,
-of San Francisco, California, and there were delegates present from
-five Colleges. We have devoted, perhaps, an undue portion of our space
-to a partial record of its proceedings. Though on particular points
-there were differences of opinion, yet on the whole the meetings were
-characterized by great unanimity of sentiment, as well as cordiality
-of feeling. Our great hope for the Convention is, that it will form a
-bond of union among the scattered and divided members of the profession
-in the United States; that it will tend to bring them into one great
-body, united by common interests and common pursuits, that it will
-tend to soften commercial jealousies between individuals, as well as
-between states and cities; that it will enable the profession when
-united, to exercise its rightful and legitimate influence upon {352}
-public opinion; that in the profession itself it will promote a
-more extended course of education, a higher standard of attainment
-and nobler principles of conduct. These are great aims and worthy of
-strenuous efforts, and it is to be hoped that no personal or sectional
-jealousies may be permitted to stand in the way of their attainment.
-The Convention has made a good beginning, “Esto perpetua.”
-
-
-COLLEGE OF PHARMACY OF THE CITY OF NEW YORK.
-
-The regular Winter Course of Lectures in this Institution, will
-commence on Monday, 1st instant, at 7 o’clock, P. M., and be continued
-four months, on Monday, Wednesday and Friday evenings of each week, at
-the College Rooms.
-
- On Materia Medica and Pharmacy, from 7 to 8 o’clock, by Prof. B.W.
- MCCREADY, M.D.
-
- On Chemistry, from 8 to 9 o’clock, by Professor R. O. DOREMUS, M.D.
-
- On Botany, by Professor I. F. HOLTON, of which further notice will be
- given.
-
-The Chemical Lectures will comprise instruction in the Science as
-extensively connected with many of the useful and ornamental arts,
-rendering them of great advantage to the community at large as well as
-to the Apothecary.
-
-In calling public attention to the present Course, the Trustees would
-more especially call upon the Medical Profession and Druggists and
-Apothecaries generally, to encourage them in carrying out, in the most
-effectual manner, the important design of providing, at a nominal
-expense, for a knowledge of Chemistry, Pharmacy, and the collateral
-Sciences, to our future Apothecaries, and to all others who will avail
-themselves of the facilities offered.
-
-In urging these, the Trustees have no selfish ends to attain beyond
-the gratification of ministering to the public good in the elevation
-of their profession; they desire to see their efforts appreciated and
-sustained by full classes, and would earnestly ask of their brethren
-to make sufficient sacrifice of time and convenience to enable their
-Assistants and Pupils to profit by the opportunity offered for their
-instruction. The advantages will recur directly to the employer in the
-improved capacity and usefulness of his Assistants.
-
-The Trustees solicit the influence of the Medical Profession to aid
-them in cultivating a desire to improve this important Auxilliary
-Department of the Profession, as the successful treatment of disease is
-greatly dependent on the integrity and intelligence of the apothecary.
-
-Tickets for the Course on Chemistry, at $7, and on Materia Medica and
-Pharmacy, at $7, may be procured from
-
- MR. GEORGE D. COGGESHALL,      No. 809 BROADWAY.
- MR. J. S. ASPINWALL,           No. 86 WILLIAM STREET.
- DR. W. J. OLLIFFE,             No. 6 BOWERY.
-
- AND AT THE COLLEGE ROOMS, No. 511 BROADWAY.
-
- October, 1852.
-
-
-ERRATUM.—In the October No. on page 294, twentieth line from the top,
-for _manifestations_, read _modifications_.
-
-{353}
-
-
-
-
-NEW YORK
-
-JOURNAL OF PHARMACY.
-
-DECEMBER, 1852.
-
-
-ON THE PRESERVATION OF IODIDE OF IRON.
-
-BY HENRY WURTZ.
-
-There can be no doubt that imperfections exist in many of the methods
-at present in use for the preservation of various articles of the
-materia medica. Wherever the fault may be in these cases, the evil
-is generally shared between the physicians and the patients, much
-the larger share of course, falling to the latter. The _iodide of
-iron_ is one of these articles, and it will appear probable from the
-sequel that, in a multitude of cases, this remedy is administered to
-the patient in quantities which are inconstant and much too small to
-produce the effect contemplated by the physician in his prescription.
-
-One method, extensively employed, of preserving iodide of iron, for
-use in medicine, is in the form of an aqueous solution in which a coil
-of iron wire is kept immersed. This method is given by Pereira,[27] as
-proposed by Hemingway. Pereira also remarks in another place that “it
-is important to know, that by keeping a coil of iron wire in a solution
-of the protiodide, as suggested by Mr. Squire, no free iodine or
-sesquiodide of iron is formed although the liquid may be fully exposed
-to air and light; sesquioxide of iron is formed, but if the solution be
-filtered it is found to contain protiodide only.”
-
-[27] Materia Medica, 3rd Am. Ed. 1, 745.
-
-In a paper previously published in this journal, I have remarked with
-reference to this matter, that I should strongly {354} suspect in this
-case a formation of a subiodide of iron and consequent abstraction of
-iodine from the solution.[28] Since that time I have been enabled to
-confirm this supposition by experiment. Pieces of iron wire placed in
-contact with a colorless solution of iodide of iron caused, in the
-course of a few hours, the deposition of a precipitate, which had a
-dark orange color quite distinct from the dark brown color of hydrated
-sesquioxide of iron precipitated from a solution of the protochloride
-of iron by metallic iron. This precipitate, being washed with distilled
-water until the washings gave no indication of the presence of _iron_,
-was still found to contain much iodine. No quantitative analysis of
-the precipitate, however, was attempted, for it was found that the
-washings which no longer contained a trace of iron still gave with
-nitric acid and starch, a strong iodine reaction, thus indicating that
-the subiodide of iron upon the filter, whatever its composition, was
-decomposed by the action of water and oxygen as soon as the neutral
-iodide of iron was washed out. This is probably the reason why previous
-observers have mistaken this precipitate for pure sesquioxide of iron,
-having continued washing the precipitate until the washing no longer
-gave an _iodine_ reaction, instead of an _iron_ reaction as in the plan
-adopted by me, and consequently until all the subiodide of iron was
-decomposed and nothing but sesquioxide of iron was actually left upon
-the filter.
-
-[28] New-York Journal of Pharmacy, August, 1852.
-
-The washings, however, after the removal of the iodide of iron, gave
-no iodine reaction with starch until after the addition of nitric
-acid; iodine, therefore, could only have been present in the form of
-hydriodic acid and the reaction by which the unknown subiodide of
-iron was decomposed may be represented as follows:—2 Fe I^{1}‗{x} +
-^{1}‗{x}H O + (3−^{1}‗{x})O = Fe ^{2}O^{3} + ^{1}‗{x}HI.
-
-Since the above experiments were made, I have found that I have,
-after all, merely been in a measure confirming an observation of
-the illustrious Berzelius. _Gmelin’s Handbuch_ under the head of
-_Einfachiodeisen_, has the following, “Nach Berzelius ist das braune
-Pulver welches sich beim Aussetzen des {355} wässrigen Einfachiodeisens
-an die Luft absetzt, nicht reines Eisenoxyd, sondern ein basisches
-salz.”[29]
-
-It appears, therefore, that the method of preserving iodide of iron in
-solution, in contact with metallic iron is perfectly fallacious. This
-remedy, if preserved in solution at all, should be kept in bottles
-hermetically closed.
-
-[29] According to Berzelius, the brown powder, which is deposited
-upon exposure of aqueous protiodide of iron to the air, is not pure
-sesquioxide of iron, but a basic salt.
-
-
-OBSERVATIONS ON THE VOLATILITY AND SOLUBILITY OF CANTHARDIN IN VIEW OF
-THE MOST ELEGIBLE PHARMACEUTICAL TREATMENT OF SPANISH FLIES.
-
-BY WILLIAM PROCTER, JR.
-
-Cantharides have been used in Pharmacy since the days of Hippocrates.
-It was not till 1810, however, that the principle giving them
-activity was isolated by Robiquet (Annal. de Chimie lxxvi. 302,) and
-subsequently named _Cantharidin_ by Dr. Thomas Thompson. Since then
-various experimenters have been engaged in the chemical investigation
-of these flies, and in the more recent treatises they are stated to
-consist of _cantharidin_, _yellow fixed oil_, _green fixed oil_,
-_a yellow viscous substance_, _a black matter_, _ozmazome_, _uric
-acid_, _acetic acid_, _phosphoric acid_, and the _phosphate of lime
-and magnesia_. It is proverbial among apothecaries and physicians,
-that the pharmaceutical preparations designed to produce vesication,
-vary very much in their power as prepared by different individuals,
-and from different samples of cantharides by the same recipes. Is
-this variableness of power due to the inequality of strength of the
-commercial drug? or, are we to attribute it to the treatment employed
-by the apothecary? The real importance of these queries demands an
-answer. To proceed {356} properly, the investigator should examine
-cantharidin in a pure state, ascertain how far the statements of
-writers are correct, then by a series of analyses, quantitative as
-regards that principle, determine whether its proportion varies, and to
-what extent, in different specimens of cantharides of fair quality; and
-finally to test the preparations derived from the same samples and see
-how far they correspond with the inferences drawn from the ascertained
-properties and proportion of the active principle. I have at present
-undertaken to resolve but a part of these queries—yet by far the most
-important ones—as will be seen.
-
-Cantharidin is a white, neutral substance, of which the formula
-according to Regnault is C‗{10}H O‗{4}. Gmelin considers it of the
-nature of a solid volatile oil. As usually seen it has the form of
-minute flatted four-sided prisms (_c_,) much broken up, so as to appear
-like scales. When deposited from an ethereal solution of cantharides by
-slow evaporation, or from its solution in hot acetic acid by cooling,
-it assumes the form of flattened oblique four-sided prisms with
-dihedral summits, derived from the rectangular prism by the bevelment
-of its edges (see fig. _a_ and _b_ from _c_.) The crystals by slow
-sublimation are four-sided rectangular prisms of great brilliance and
-sometimes iridescent, _c_ and _d_.
-
-[Illustration]
-
-SOLUBILITY.—Pure cantharidin is insoluble in water, hot or cold. It is
-slightly soluble in cold alcohol, readily so when hot. Ether dissolves
-it to a greater extent, yet much more easily hot than cold. Chloroform
-is its best solvent, cold or hot, as shown in a former essay (Am. Jour.
-Pharm. vol. xxiii. 124,) and will remove it from the aqueous infusion
-of the flies. Acetic ether dissolves cantharidin, especially when hot,
-but does not retain much on cooling. When one part of cantharides
-is mixed with 20 parts of olive oil and heated to 250° Fahr. it is
-completely dissolved. As the solution cools, the cantharidin rapidly
-separates in shining needles in such quantity as {357} at first to
-give the oil a pulpy consistence. The clear cold oil retains sufficient
-to act as an efficient rubefacient but not as an epispastic. One part
-of cantharidin requires 70 parts of oil of turpentine to dissolve it at
-the boiling temperature, the greater part separating, as the solution
-cools, in long asbestos-like needles. A piece of paper saturated with
-the cold solution and applied to the skin under adhesive plaster did
-not vesicate. Acetone (from the distillation of acetate of lime)
-dissolves cantharidin with great readiness and ranks next to chloroform
-in this regard. The solution deposits the substance in crystals by
-evaporation. The commercial methylic alcohol or wood naphtha also
-dissolves cantharidin, but to a much less extent than acetone. When
-acetic acid sp. gr. 1.41 (U. S. P.) is added to cantharidin, it but
-slightly acts on it in the cold; heat much increases its solvent power,
-which is lost on cooling and the substance deposited by standing,
-though not immediately. One part of cantharidin was mixed with 40
-parts of _crystallizable_ acetic acid and agitated together during
-five hours, but a small percentage was dissolved; but on applying heat
-the crystals were dissolved quickly. On standing, nearly all of the
-cantharidin was slowly deposited in regular crystals. To ascertain
-whether, as has been asserted,[30] a combination was effected, and an
-_acetate_ of cantharidin produced, an acetic solution of cantharidin
-was evaporated to dryness and the crystals mixed with strong sulphuric
-acid and heated till dissolved, while the nose was held near, without
-the slightest evidence of acetic odor; one twentieth of a grain of
-acetate of potassa was then added, which instantly evolved the well
-marked smell of acetic acid. Formic acid dissolves but a trace of
-cantharidin, cold or hot; and muriatic acid sp. gr. 1.18 hardly can be
-said to act on it in the cold, but when boiling a minute portion is
-taken up. The same is true of phosphoric acid dissolved in five parts
-water. Sulphuric acid sp. gr. 1.840, when heated readily dissolves
-pure cantharidin without being discolored, {358} and deposits it in
-crystals unchanged by cooling. Hot nitric acid sp. gr. 1.38, dissolves
-cantharidin readily, and deposits the greater part of it on cooling
-in brilliant crystals, unchanged. A concentrated solution of ammonia
-slowly dissolves cantharidin to a small extent, and yields it up
-on evaporation in crystals. Solutions of pottassa and of soda also
-dissolve this principle.
-
-[30] New York Jour. Pharm. vol. 1. p. 72.
-
-ITS VOLATILITY.—About ten grains of pure and perfectly dry cantharidin
-was spread on the pan of an Oertling’s balance, (sensitive to 1-150th
-of a grain,) and the equilibrium carefully adjusted with platina
-weights. After exposure for a week to the action of the air, a vessel
-of lime being present to keep the air dry, no change in the adjustment
-had occurred. To further test the volatility of cantharidin, a portion
-of it was put at the bottom of a dry test tube, through a paper funnel
-so as not to soil the sides, which was then fixed so as to dip half an
-inch in a mercurial bath having a thermometer suspended in it. It lost
-nothing appreciable after being kept at 212° F. for half an hour, no
-sublimate being visible with a lens. At 220° F. no visible effect was
-produced. Kept at 250° F. for twenty minutes, a very slow sublimation
-commenced. At 300° F. the vaporization was but slightly increased.
-The heat was then raised to 360° F., when the sublimation became
-more decided, yet still slow. Between 402° F. and 410° F. it fused,
-and rapidly sublimed at a few degrees higher. Cantharidin at this
-temperature volatilizes with great ease and condenses in beautiful well
-defined crystals like salicylic acid.
-
-The specific gravity of cantharidin is considerable, as it sinks in
-nitric acid sp. gr. 1.38; it is exceedingly acrid; its powder applied
-to the skin with a little oil, produces speedy vesication, and taken
-internally it is an irritant poison of the most virulent kind.
-
-Such are some of the more prominent characters of this remarkable
-substance, which exhibits a permanence and want of affinity
-extraordinary in an animal principle. Let us now see how far
-experiments with cantharidin as it exists in the flies in substance,
-correspond with its behaviour in an isolated state. {359}
-
-1st. Is cantharidin, as it exists in Spanish flies, volatile at common
-temperatures, or at the temperature usually employed in making the
-cerate; and if so to what extent?
-
-_a._ Six hundred grains of powdered cantharides were put into a quart
-flask, a pint of water poured on, and macerated two hours. The flask
-was then adapted to a glass tubulated receiver by means of a long glass
-tube, the joints made tight, and the tube refrigerated throughout its
-length by a current of cool water, the receiver itself being surrounded
-by water. A sand-bath heat was then applied and the materials in the
-flask kept boiling during several hours, until half a pint liquid had
-distilled. The product in the receiver was opalescent, with white
-particles floating through it, and had a strong odor of spanish flies.
-It was decanted into a bottle, and agitated repeatedly with half
-an ounce of chloroform, which dissolved the particles and removed
-the opalescence. The chloroform, when separated with a funnel, and
-evaporated spontaneously, yielded a colorless semi-crystalline residue,
-having a waxy consistence and a strong odor different from that of the
-flies. It fused at 120° Fahr., was volatile _per se_, but was partially
-decomposed and condensed in drops which subsequently solidified. This
-substance is soluble in alcohol, ether and chloroform, is decomposed
-and dissolved by sulphuric acid, produces _no signs of vesication after
-forty-eight hours’ contact with the skin_ under adhesive plaster, and
-is most probably the same volatile principle that has been noticed by
-Orfila.
-
-The long glass tube was then examined for a sublimate, by rinsing it
-thoroughly with chloroform, which, on evaporation, afforded more of the
-same substance obtained from the distilled water, and like it did not
-produce vesication.
-
-This experiment shows conclusively that cantharidin _does not
-volatilize to an appreciable extent with water evaporating from
-cantharides_.
-
-_b._ More water was added to the residue in the flask, again boiled for
-fifteen minutes and thrown on a displacing filter, and water added to
-the solid residue, after the decoction had {360} ceased to pass, until
-the absorbed liquid was displaced. The decoction was much less odorous
-than the distilled water, and had a deep reddish-brown color. Half of
-this was agitated repeatedly with chloroform. The latter decanted and
-evaporated yielded a crop of crystals intermixed with some coloring
-matter. A part of these heated in a tube over a lamp, gave immediately
-the brilliant crystaline sublimate of cantharidin well marked; another
-portion applied to the skin produced vesication in a few hours.
-
-The other half of the decoction was evaporated to a soft extract by
-direct heat. This produced speedy and deep vesication, more effectual
-than that of pure cantharidin, as in the extract that principle was in
-a soluble state by virtue of the yellow matter of the flies.
-
-_c._ The residual flies were then dried carefully and exhausted with
-ether, which assumed a deep green color. A green semi-fluid fatty oil
-was obtained by evaporation, from which a fluid yellow oil separated by
-standing, which produced a tardy vesication, not comparable with the
-aqueous extract.
-
-_d._ One hundred grains of flies in powder were introduced into a test
-tube so as not to soil the sides. This was then kept at the temperature
-of 212° F. during six hours, by causing it to dip into a vessel of
-boiling water through a tin plate. The hygrometric water was removed as
-it condensed above. At the end of the experiment a minute deposit of
-microscopic crystals less than one thirtieth of a grain, was observed
-above the flies on the side of the tube.
-
-_e._ Two hundred grains of flies were introduced into a two ounce
-retort, which they half filled, adapted to a two ounce receiver, and
-this again connected with a third vessel. The retort heated by a
-mercurial bath, was kept at 225° F., for two hours, without any product
-except a little odorous hygrometric water. The heat was then raised to
-412° F., when a colorless oily matter flowed slowly into the receiver,
-mixed with water, whilst a crystalline matter mixed with oil collected
-in the neck. This crystalline matter mixed with the oil produced
-{361} vesication when applied to the skin. The heat was now rapidly
-increased so as to produce brown vapors, from which was condensed a
-dark colored empyreumatic oil, abundant crystals of an ammonical salt
-collected in the tubes and on the sides of the receiver, whilst the
-aqueous liquor in the receiver was strongly ammonical. Neither the dark
-oil nor the crystals produced vesication, the high temperature having
-probably decomposed the cantharidin.
-
-From these experiments it must be admitted that cantharidin is less
-volatile than has been asserted. The effect produced on the eye of the
-pupil of Robiquet who was watching the crystallization of cantharidin
-during the evaporation of an ethereal solution, may be accounted for
-by the mechanical action of the dense ethereal vapor escaping near his
-eye, as he watched the process with a lens, carrying off some particles
-of cantharidin; and the readiness with which this principle may be
-brought mechanically in contact with the skin of the face, during a
-series of experiments, by want of care, will easily account for the
-occasional testimony of writers in favor of its volatility at low
-temperatures based on that kind of evidence. During the whole of the
-experiments detailed in this paper, the author has not experienced any
-inconvenience to his eyes or face except in two instances, once when
-decomposing cantharides by destructive distillation, during which some
-of the vapors escaped near his person, and again where a small capsule
-containing aqueous extract of cantharides was accidentally exposed
-to high temperature over a lamp so as to partially decompose it; he
-suffered slight pain for a few hours in the conjunctiva of both eyes.
-
-It must also be admitted that the heat ordinarily employed in making
-the blistering cerate of the United States Pharmacopœia, does not
-injure the preparation by volatilizing the cantharidin, and that the
-recommendation to digest the flies in the melted vehicle on a water
-bath is not only not injurious, but decidedly advantageous, as it
-increases, many fold, the solvent power of the fatty matter. {362}
-
-2d. Having ascertained the solvent powers of olive oil, oil of
-turpentine and acetic acid, on pure cantharidin, the following
-experiments were made with those menstrua, and with water, on the flies
-in substance:
-
-_a._ One hundred grains of powdered cantharides were mixed with two
-hundred grains of olive oil in a large test tube, which was corked,
-and the mixture heated in a boiling water bath during four hours, with
-occasional agitation. The contents of the tube were then poured into a
-small glass displacement apparatus, surrounded with water kept hot by
-a lamp, and the saturated oil gradually displaced, without cooling, by
-the addition of fresh portions of oil. The oily liquid thus obtained
-had a deep green color, smelled strongly of the flies, and when applied
-to the skin produced full vesication in about twelve hours contact.
-After standing twenty-four hours shining needles of cantharidin
-gradually separated, but not in quantity.
-
-_b._ One hundred grains of powdered flies were mixed with two hundred
-grains of pure oil of turpentine in a closed tube, heated in a boiling
-water bath four hours, and displaced while hot as in the preceding
-experiment. The terebinthinate solution had a dull yellow color, and
-was perfectly transparent as it passed, but in a short time numerous
-minute stellated crystals commenced forming, which increased in
-quantity by standing. The saturated cold solution, separated from the
-crystals after standing twenty-four hours, did not blister when applied
-to the skin.
-
-_c._ One hundred grains of powdered flies were digested in a close
-vessel, at the temperature of boiling water, in three hundred grains
-of acetic acid sp. gr. 1.041, for six hours, and then subjected to
-displacement in the hot filter above noticed. A dark reddish-brown
-transparent liquid passed, which had very little odor of flies, even
-when a portion was exposed until the acetic acid had nearly all
-evaporated. A portion of this liquid applied to the skin produced
-complete vesication in about ten hours. After standing a few hours,
-numerous minute {363} granular crystals were deposited, which
-gradually increased in amount and size.
-
-These three experiments prove that hot fatty matter is a good solvent
-for cantharidin as it exists in the flies, and that it retains more
-on cooling than either turpentine or acetic acid. That hot oil of
-turpentine is a good solvent for extracting cantharidin, although it
-does not retain much on cooling, and that officinal acetic acid at the
-temperature of 212° F. will remove cantharidin readily from Spanish
-flies, but retains but a part on cooling.
-
-_d._ Five hundred grains of recently powdered flies, contained in a
-flask, were boiled in a pint of water, for an hour, and the clear
-decoction decanted, the residue again treated with half a pint
-of water, so as to remove all matter soluble in that liquid. The
-decoctions were mixed, filtered, and evaporated carefully to dryness.
-The extract was exhausted by repeated treatment with boiling alcohol,
-which left a dark colored pulpy matter, very soluble in water, from
-which it is precipitated by subacetate of lead. The alcoholic solution
-was now evaporated to a syrup, and on cooling yielded a yellow extract
-like mass, interspersed with numerous minute four-sided prisms.
-By washing a portion with water, the yellow matter was removed,
-leaving the crystals white and pure. The aqueous washings yielded
-by evaporation a residue of crystals, and does not vesicate. When
-the alcoholic extract was treated with chloroform the crystals were
-dissolved, and the yellow matter left. On evaporating the chloroform
-solution the crystals were re-obtained with all the characters of
-cantharidin. The matter left by chloroform was now treated with water,
-in which it dissolved, except a trace of dark substance, and was
-again evaporated carefully. It afforded a yellow honey-like residue,
-thickly interspersed with crystals and strongly acid to litmus, without
-vesicating power.
-
-A portion of the yellow matter separated from the alcoholic extract by
-water was boiled with some cantharidin, filtered and evaporated. The
-residue treated with chloroform afforded no {364} cantharidin; hence
-it would appear that although the yellow matter enables the cantharidin
-to dissolve in water and cold alcohol, when once separated its solvent
-power ceases.
-
-Having now studied the effects of the ordinary solvents on cantharidin
-in a free state, and in the condition in which it exists in the insect,
-we are prepared to consider with some clearness, the pharmaceutical
-preparations of the Spanish fly, and their action as vesicants.
-
-_a._ If 1-30th of a grain of pure cantharidin, in fine powder, be
-placed on the skin of the arm and covered with a piece of warmed
-adhesive plaster, active vesication occurs in eight hours, with pain.
-If the same quantity of cantharidin be put on the other arm, a small
-piece of paper be laid over it, and then a piece of adhesive plaster
-with a circular hole in it be applied, so as to hold on the paper,
-no vesication occurs in sixteen hours, the powder remaining dry. If
-then a large piece of plaster be put over the whole, at the end of
-eight hours more no blistering action will have taken place. If now a
-trace of olive oil be applied to the back of the paper covering the
-cantharidin, and the plaster replaced, speedy vesication will occur.
-These experiments prove that cantharidin must be in solution to have
-its vesicating action, and that oily matter is a proper medium.
-
-_b._ When powdered flies are stirred into the ordinary vehicle of
-resin, wax, and lard, so as to chill it almost immediately as was
-formerly directed, but little of the cantharidin is dissolved by the
-fatty matter, and when applied to the skin the process of vesication is
-retarded. If, however, the cerate be kept fluid for a length of time,
-say for half an hour, by a water-bath or other regular heat, no loss
-of cantharidin occurs by the heat, the active principle is in a great
-measure dissolved by the fat, and every part is impregnated and active.
-In the foregoing experiments it has been shown that twenty parts of
-olive oil will dissolve one of cantharidin when hot. If we admit with
-Thierry that cantharides contain but four thousandths of their weight
-of cantharidin, the quantity contained in a {365} pound of cerate is
-about _eight_ grains, whilst the lard in the same weight of cerate is
-1600 grains, or two hundred times the weight of that principle, not to
-speak of the influence of the wax and resin, which, in union, with the
-melted lard, act as solvents. Hence the whole of the cantharidin may be
-dissolved by the vehicle. Another advantage of employing a continued
-heat in digestion is the removal of the hygrometric water from the
-flies, which is the source of the mouldiness to which the cerate is
-prone in certain conditions.
-
-In a former essay (Amer. Journ. Pharm., vol. xiii, p. 302,) I have
-advocated digestion in making this cerate, (a recommendation also made
-by Mr. Donovan, of Dublin, about the same time,) and also the use of
-a portion of the oil of turpentine to facilitate the solution of the
-cantharidin, but the foregoing experiments prove that fatty matter is
-quite as good, if not a better solvent alone than with turpentine.
-
-_c._ It has been asserted long ago by Beaupoil, Robiquet and others,
-that water will perfectly extract the active matter from Spanish flies,
-which these experiments corroborate. Hence it is easy to understand
-how the condensed perspiration may facilitate the action of a blister,
-especially when, as was formerly much the case, its surface is coated
-with the dust of the flies, and the skin moistened.
-
-It is also clear why the Unguentum Cantharidis of the United States
-Pharmacopœia is active although made with a decoction of flies, yet,
-in this preparation, care should be observed not to evaporate all the
-water, as on the existence of the aqueous extract in a soft state
-depends much of the efficiency of the preparation as an irritant
-dressing.
-
-_d._ In the Linimentum Cantharidis, United States Pharm., in which an
-ounce of flies is digested in eight fluid ounces of oil of turpentine,
-the cantharidin is to be the menstruum as 1 to 1500, a proportion
-probably quite sufficient to retain it in solution. The importance of
-the officinal direction to digest is evident. It is quite doubtful
-whether this liniment, as made by the process of Dr. Joseph Hartshorne,
-one part of flies to {366} three parts of oil, will retain all the
-cantharidin after standing awhile.
-
-_e._ The Acetum Cantharidis, (Lond. Ph.) made by macerating an ounce of
-flies in ten fluid ounces of acetic acid, 1.48, has been criticised by
-Mr. Redwood, (Pharm. Journal, Oct. 1841,) who arrived at the conclusion
-that it owed its vesicating power almost solely to the acid, he not
-being able to discover cantharidin in it. The inefficiency of _cold_
-acetic acid as a solvent for _pure_ cantharidin has been proven by the
-above experiments, and its efficiency when hot equally shown. There can
-be little doubt that the London preparation would be much improved by
-_digesting_ the flies in the acid for an hour in a close glass vessel
-at the temperature of boiling water.
-
-_f._ The _cantharidal collodion_ of M. Ilisch has been considerably
-used as a vesicant in this country. Ether being a good solvent for
-cantharidin readily keeps that principle in solution. When applied to
-the skin, the escape of the ether leaves a coating of ethereal extract
-of cantharides, admixed with collodion. This preparation sometimes
-fails from a deficiency of cantharidin, at other times from want of
-a sufficient body in the collodion excipient, and it has been found
-more advantageous to treat the cantharides with ether till exhausted,
-distill off the ether, and add the oily residue to collodion of the
-proper consistence. The addition of a little olive oil, and of Venice
-turpentine, as recommended by Mr. Rand, will give more activity to the
-preparation, especially if a piece of oiled silk or adhesive plaster be
-applied over the part.
-
-_g._ Besides these, many other epispastic preparations are made in
-France and other countries. The acetic alcoholic extract of cantharides
-of Ferrari is made by digesting four parts of cantharides in sixteen
-parts of alcohol 36° B. mixed with one part of acetic acid 10° B.
-In the opinion of the author, the acetic acid tends to prevent the
-crystallization of the cantharidin, a statement rendered doubtful by
-the above experiments, as that principle separates in crystals from an
-acetic solution of cantharides. The alcohol dissolves the green oil
-{367} which gives to the extract a butyraceous consistence. This is
-undoubtedly an efficient preparation, and is used by spreading it on
-paper with a brush, and applying to the skin. Nearly all the French
-preparations direct digestion of from 2 to 6 hours, showing evidently
-that the experience of pharmaceutists is opposed to the opinion that
-cantharides is “a very volatile substance, even at common temperatures.”
-
-The vesicating tafeta of the Codex, is that proposed by Messrs. Henry
-& Guibourt, and is made by fusing together one part of the ethereal
-extract of cantharides and two of wax, and spreading it on waxed paper
-or linen in the manner of adhesive plaster. This preparation is said
-to lose its efficiency by exposure to the air. How can this occur in
-view of the results which have been detailed above? admitting the fact,
-it is not probable that the change lies in the strong tendency of the
-cantharidin to separate in crystals? a change easily observable in
-the ethereal extract. This is the chief objection to some otherwise
-excellent preparations of cantharides for vesication, and it is far
-more probably the true explanation, than, that volatility should be the
-cause.
-
-The recently prepared and soft aqueous extract of cantharides has
-been shown to be a powerful epispastic. Will this extract of the
-consistence of honey, associated with sufficient acetic acid, alcohol,
-or acetone, to preserve it, keep without the gradual separation of
-the cantharidin? If so, it will undoubtedly prove one of the very
-best blistering agents, as by simply applying a covering of it over
-the surface of waxed paper, or adhesive plaster, with a camel’s-hair
-brush, a perfect blistering plaster can be made quickly and neatly,
-and all tendency to change of aggregation by the action of the air on
-the menstruum avoided. This is a question now under trial, and should
-it result favorably, a formula will be published. The extraordinary
-tendency of cantharidin to crystallize, even under the most adverse
-circumstances, taken in connection with its insolubility, _per se_,
-has hardly received sufficient attention from pharmaceutists as a
-cause of the deterioration of {368} cantharidal preparations, and the
-discovery of a menstruum, that will retain that principle in solution
-for an indefinite period, is a problem yet to be solved, and worthy the
-attention of pharmaceutical investigators.
-
-Philadelphia, September, 1852.
-
-
-ON GELSEMINUM SEMPERVIRENS OR YELLOW JASSAMIN.
-
-BY WILLIAM PROCTER, JR.
-
-Considerable attention has recently been turned to the Yellow Jassamin
-of our Southern States, from the accidental discovery of certain
-remarkable effects produced by it when taken internally. A planter
-of Mississippi having suffered much from a tedious attack of bilious
-fever, which resisted the usual medicines employed in such cases,
-requested one of his servants to obtain from the garden a certain root,
-from which he intended to prepare an infusion for drinking. By mistake,
-the person sent collected a different root, and administered the tea
-to his master, who, soon after taking it, was seized with a complete
-loss of muscular power, being, in fact, so completely prostrated as
-to be unable to move a limb or to raise the eyelids, yet he could
-hear, and could appreciate what was occurring around him. After some
-hours, during which his friends were watching him with much anxiety
-and little hope, he gradually recovered his muscular control, and was
-astonished to find that the fever had left him. Having ascertained from
-his servant what plant he had collected, he subsequently employed it
-successfully on his own plantation as well as among his neighbors. The
-history becoming known to a quackish physician, he prepared from it
-a nostrum called the “Electrical Febrifuge,” in {369} which, it was
-disguised by oil of winter-green, (_Eclectic_ Dispensatory, page 186.)
-
-The Gelseminum is not noticed by Dr. Griffith in his Medical Botany,
-nor in the recent edition of the United States Dispensatory, and so
-far appears to have been used chiefly by the “Eclectic” practitioners
-of Cincinnati and other parts of the Western States. The accompanying
-description of the plant is taken partly from a specimen sent
-from Memphis, Tennessee, where, in common with other parts of the
-south-western States, it is cultivated as an ornamental garden plant.
-
-The Gelseminum belongs to the natural order Apocyneæ, so remarkable for
-the great activity of many of its genera, and the name of the genus,
-given by Jussieu, is one of the ancient names of the jessamine, and
-that of the species arises from its evergreen foliage.
-
-GELSEMINUM belongs to Pentandria Digynia of Linnæus, and to the natural
-order Apocyneæ of Jussieu.
-
-_Generic characters._—Regular, calyx five parted, (the sepals of
-this species being furnished with bract-like appendages) carolla
-funnel-form, border spreading, five lobed, nearly equal, capsule
-compressed, flat, two partible, two-celled, seeds flat and attached to
-the margins of the valves, (Eaton.)
-
-_Specific characters._—The G. sempervirens is known at the South under
-the names yellow jasmine, wild jasmine, and woodbine. In Florida it
-flowers in March, and in Mississippi and Tennessee in May and June.
-Its stem is twining, smooth and glabrous; its leaves are opposite,
-perennial, lanceolate, entire, dark green above, paler beneath; with
-short petioles. The flowers, which are esteemed poisonous, are yellow,
-about an inch long and half an inch wide at the top, of a fine yellow
-color, and have an agreeable odor, which perfumes the air when they
-bloom. It grows luxuriantly, climbing from tree to tree, forming a
-delightful shade. According to Eaton, from whose botany we glean part
-of the above botanical notice, there is a variety called inodorum which
-has scentless flowers.
-
-The Gelseminum is indigenous to the Southern States, and its beauty has
-caused its introduction into the gardens. {370}
-
-_Medical properties and uses._—The root is the part used, and the
-tincture is the preparation most usually employed, and, as made, must
-be a saturated tincture. The roots, in a green state, well bruised,
-are introduced into a suitable vessel, and covered with whiskey, or
-diluted alcohol. After standing two weeks, the tincture is separated by
-expression and filtered. It has a dark red color, and a pleasant bitter
-taste. The dose is from ten to fifty drops. The following account
-of its medical properties and effects is taken from a paper in the
-“Eclectic Medical Journal,” August, 1852, page 353, by F. D. Hill of
-Cincinnati:
-
- “Gelseminum is stimulant, tonic, and anti-spasmodic. By its relaxing
- effect it produces gentle diaphoresis, and is said to be _narcotic_.
- Its effect in large doses, or doses too frequently repeated, is
- extreme relaxation, and general prostration of the whole muscular
- and nervous system. It will suspend and hold in check muscular
- irritability and nervous excitement with more force and power than
- any known remedy. It is of a pleasant bitter taste, and performs its
- wonder-working cures, in all febrile diseases, without exciting either
- nausea, vomiting, or purging. When enough has been given to produce
- its specific effect, the eye is dimmed, the vision clouded and double,
- the head light and dizzy. When these effects follow the administration
- of this remedy, no more should be given until the patient has entirely
- recovered from its influence. ‘It maybe used in all species of
- fevers, nervous and bilious headache, colds, pneumonia, hemorrhages,
- leucorrhea, chorea, ague-cake, asthma, and many other diseases: but
- its efficacy has been most admired in all forms and grades of fevers.’
- It should always be used with great care and caution. The root is
- said to possess a resinous principle, which, when extracted by pure
- alcohol, will produce death in very small doses. But no such effect
- need be expected from the proper dose of the common tincture. There
- is danger of carrying it to such an extent as to suspend involuntary
- muscular action, and when this is the case, death must ensue. ‘It is
- incompatible with no known substance, and may follow any _preceeding
- treatment with perfect safety_.’ The dose is forty drops for an
- adult, and children in proportion to age and temperament. It is given
- either with or without quinine. It has been used alone for _chronic
- rheumatism_, in doses of forty drops, three times a day, with marked
- effects. Three or four doses, with a mild cathartic, will remove the
- redness and swelling attending inflamed sore eyes. Special attention
- should be directed to the general health and constitution of the
- patient before giving gelseminum. If the bowels be constipated they
- should be moved by a gentle aperient, and kept in a relaxed condition.
- It requires double the quantity to produce the effect on some that it
- does on others; and should the practitioner ever produce too great a
- degree of relaxation, he should lose no time in stimulating and toning
- up his patient.” {371}
-
-The alleged effects of this plant on the human system, taken in
-connection with its medico-botanical relations, mark it out as being
-probably one of the most valuable of our indigenous remedial agents,
-and render it well worthy of the investigation of regular physicians.
-
-
-ON THE MANUFACTURE OF WRITING INKS.
-
-(_Concluded from page 316._)
-
-Prussian blue, that has not undergone digestion in acid in the way
-above pointed out, will require a much larger proportion of oxalic
-acid, from twice to three times its weight; and even then it will be
-greatly liable to precipitation after standing; but when treated in the
-way described, it is not liable to precipitate, but remains a permanent
-solution.
-
-
-STEPHENS’ RED INK.—Stephens’ red ink is prepared as follows:—Take a
-quantity of common soda, potash or carbonate of ammonia, to which is to
-be added, at intervals, twice its weight of crude argol in powder.
-
-When the effervescence, arising from this combination, has ceased, pour
-off the solution, or filter it from the insoluble matter; to this, add
-by measure half the quantity of oxalate of alumina, or oxalo-phosphate
-of alumina, prepared by adding to precipitated alumina or phosphate
-of alumina, in a damp state, as much oxalic acid as will dissolve.
-Into this mixture, put, when cold, as much cochineal, first bruised
-or powdered, as will give it a fine red color, varying the quantity
-according to the shade of color required; and after letting it stand
-for the space of forty eight hours, strain it off for use.
-
-
-PROFESSOR RUNGE’S WRITING FLUID.—One of the least expensive formulas
-for the manufacture of a writing ink, is that given by Professor Runge,
-who says: “I have for some time {372} endeavored to find a black fluid
-possessing the properties of forming no deposit, of adhering strongly
-to the paper, of being unaffected by acids, and lastly, what is of
-great importance, not acted upon by steel pens.
-
-“After many experiments, I have succeeded in obtaining a composition of
-the kind required, very simple in its preparation, containing nothing
-but logwood, chromate of potash, and water, and free from vinegar,
-gum, copperas, blue vitriol, and even nutgalls. The low price of this
-writing fluid is also in its favor. It is prepared by simply adding
-one part of chromate of potash to 1000 parts of decoction of logwood,
-made by boiling twenty-two pounds of logwood in a sufficient quantity
-of water to give fourteen gallons of decoction; to this decoction,
-when cold, the chromic salt is gradually added, and the mixture well
-stirred. The addition of gum is injurious. In the preparation of
-this ink, it must be remembered that the yellow chromate and not the
-bi-carbonate of potash is employed, and great care is required to
-ensure due adjustment of the relative proportions of the ingredients
-used. The best way is to make a decoction of logwood, and _gradually_
-add to it, well stirring the mixture, as much solution of chromate as
-will give the shade required.
-
-“It appears astonishing what a small quantity of the chrome salt is
-required to convert a large quantity of decoction of logwood into a
-black writing fluid; the fact is however certain, and care must be
-taken not to allow the proportion of chrome salt to exceed half a
-part for each 500 parts of decoction of logwood, as a larger quantity
-exercises a prejudicial effect in destroying the coloring matter of the
-liquid, whilst in the proportion above mentioned, a deep blue black
-writing ink is formed, which, unlike the ink made with tannogallate
-of iron, is perfectly fluid, forming no deposit. This writing fluid
-possesses another advantage; the paper which has been written upon with
-it may be washed with a sponge, or be left twenty-four hours under
-water, without the writing being effaced. Weak acids do not destroy
-the writing, nor do they even change the {373} shade, whilst that
-made with gallnuts is effaced, and the ink prepared with logwood and
-copperas is turned red.
-
-“New steel pens are coated with a greasy substance, which prevents the
-ready flow of the ink; this should, therefore, be removed previous to
-use by moistening the pens with saliva, and then washing them in water.
-The application of an alkaline solution is still preferable to remove
-this greasy matter. The cleansing of the steel pens is absolutely
-essential in the case of using the ink above mentioned. I have used
-this ink upwards of two years, and my steel pens are not in the least
-degree affected. No rust is formed on the pens, so that after years
-of service the only wear experienced is that from constant use on the
-paper, thus rendering unnecessary the use of pens tipped with iridium
-and other hard substances.”
-
-
-ON THE GROWTH OF VARIOUS KINDS OF MOULD IN SYRUP.
-
-Professor Balfour, the Professor of Botany in the University of
-Edinburgh, has read a valuable paper on this subject, at the Botanical
-Society in that city, in which he states that mould of various kinds,
-when placed in syrup, has a tendency to spread out and form a flat,
-gelatinous, and leathery expansion. This he shows by experiments, as
-follows:—Mould that had grown upon an apple was put into syrup; and in
-the course of two months there was formed upon the syrup a cellular,
-flat, expanded mass, while the syrup was converted into vinegar.
-
-Mould that had grown upon a pear was also put into syrup, and the
-same result was produced. He also experimented in the same manner
-with various moulds that were growing upon bread, tea, and some other
-vegetable substances; the effect {374} produced, in most cases, was
-to cause a fermentation, resulting in the production of vinegar. In
-another experiment, a quantity of raw sugar, treacle, and water, were
-put into a jar, without any mould being introduced. When examined,
-after a lapse of four or five months, a growth like that of the vinegar
-plant was visible, and vinegar was formed. This plant was removed, and
-put into fresh syrup, which was followed again by the production of
-vinegar. It appears that, when purified white sugar only is used to
-make syrup, the plant, when placed in it, does not produce vinegar so
-speedily; the length of time required for the changes varying from four
-to six months. Dr. Balfour thinks this may possibly be owing, to the
-presence of some ingredient in the raw sugar and treacle, which may
-tend to promote the production of vinegar.
-
-In connection with this subject, I may refer to the _Vinegar Plant_,
-which is considered by some eminent botanists to be an unnatural and
-peculiar form of some fungus. This plant, which has a tough gelatinous
-consistence, when put into a mixture of treacle, sugar and water,
-gives rise to an acetous fermentation. The vinegar, which is the
-result of this acetous fermentation, is of a syrupy nature; and when
-evaporated to dryness, a large quantity of saccharine matter is left.
-Various conjectures have been hazarded as to the origin of this vinegar
-plant; some stating that it came from South America, or other distant
-regions; and others that it is a spontaneous production. Dr. Lindley
-is of opinion that it is a peculiar form of _penicillum glaucum_, or
-common blue-mould. The general opinion appears to be, that it is in an
-anomalous state of mould, or of some fungus: and the peculiar form and
-consistence it assumes on different occasions, seems to depend upon the
-nature of the material in, or upon which, it makes its appearance.
-
-{375}
-
-
-CONSTITUTION OF THE AMERICAN PHARMACEUTICAL ASSOCIATION.
-
-_Whereas_, The advancement of pharmaceutical knowledge and the
-elevation of the professional character of apothecaries and druggists
-throughout the United States are objects that are dear to us in common
-with all well disposed pharmaceutists; and, _whereas_, a large portion
-of those in whose hands the practice of pharmacy now exists, are not
-properly qualified for the responsible offices it involves, chiefly
-by reason of the many difficulties that impede the acquirement of a
-correct knowledge of their business;―
-
-_Therefore_, We, the members of a Convention now met at Philadelphia,
-composed of apothecaries and druggists from different sections of the
-Union, and from all the Colleges and Societies therein existing, with
-the object of deliberating on the condition of our profession, _do_
-hereby resolve and constitute ourselves into a permanent asociation, to
-meet annually at such times and places as may hereafter be determined,
-for more effectually accomplishing the objects for which we are now
-assembled; and do now adopt the following CONSTITUTION:
-
-SECTION 1.
-
-This association shall be called “_The American Pharmaceutical
-Association_.”
-
-SECTION 2. _Of the Members._
-
-_Article_ I. All pharmaceutists and druggists who shall have
-attained the age of twenty-one years, whose character, morally
-and professionally, is fair, and who, after duly considering the
-obligations of the Constitution and Code of Ethics of this Association
-are willing to subscribe to them, shall be eligible for membership.
-
-_Article_ II. The members shall consist of delegates from regularly
-constituted Colleges of Pharmacy, and Pharmaceutical Societies, who
-shall present properly authorized credentials, and of other reputable
-Pharmaceutists feeling an interest in the objects of the Association,
-who may not be so delegated, the latter being required to present a
-certificate signed by a majority of the delegates from the places
-whence they come. If no such delegates are present at the Association,
-they may, on obtaining the certificates of any three members of the
-{376} Association, be admitted, provided they be introduced by the
-committee on credentials.
-
-_Article_ III. All persons who become members of this Association shall
-be considered as permanent members, but may be expelled for improper
-conduct by a vote of two thirds of the members present at any annual
-meeting.
-
-_Article_ IV. Every member in attendance at the annual meetings shall
-pay into the hands of the Treasurer the sum of two dollars as his
-yearly contribution.
-
-_Article_ V. Every local Pharmaceutical Association shall be entitled
-to five delegates.
-
-SECTION III. _Of the Officers._
-
-The officers of this association shall be a President, three Vice
-Presidents, a Recording Secretary, a Corresponding Secretary, a
-Treasurer, and an Executive Committee of three, which may include any
-of the members except the President, all of whom shall be elected
-annually.
-
-_Article_ I. The President shall preside at the meetings and preserve
-order. He shall nominate all committees, except a majority of the
-members present direct a resort to balloting or other means. He
-shall sign all certificates of membership, approve of all foreign
-correspondence, and countersign all orders on the Treasurer drawn by
-the Executive Committee. And he shall, at least three months previously
-to the annual meeting publish a call in all the pharmaceutical and in
-such medical and other Journals as he may select, stating therein the
-objects of the Association, and the conditions of membership.
-
-_Article_ II. In case of the temporary absence, or inability of the
-President, his duties shall devolve on one of the Vice Presidents.
-
-_Article_ III. The Recording Secretary shall keep fair and correct
-minutes of the proceedings of the Association. He shall keep a roll
-book of the members, and see that it is corrected annually, and he
-shall furnish to the Executive Committee a correct transcript of the
-minutes of the meeting for publication in the Transactions of the
-Association.
-
-_Article_ IV. The Corresponding Secretary shall attend to the official
-correspondence directed by the association with other bodies, or with
-its members, all of which correspondence shall be approved by the
-President. {377}
-
-_Article_ V. The Treasurer shall receive and take care of the funds
-of the Association; shall pay its money only on the order of the
-Executive Committee, countersigned by the President; and shall present
-a statement of his accounts annually that they may be audited.
-
-_Article_ VI. The Executive Committee shall take charge of the
-publication of the proceedings of the Association, including such
-papers on scientific subjects as it may direct to be published; attend
-to their distribution; pay the expenses incurred on behalf of the
-Association at its meetings or in the interim, and report a statement
-of their transactions to the next meeting.
-
-SECTION IV. _Of the Meetings._
-
-_Article_ I. The meetings shall be held annually, at such time and
-place as shall be determined at the adjournment of the previous
-meeting, observing that no two meetings shall be held consecutively at
-the same place.
-
-_Article_ II. The meetings shall be organized by the President of the
-previous year, or, in his absence, by either of the Vice Presidents in
-the order of their election, or, in their absence, by the Recording
-Secretary, who shall act _pro tempore_ until the nomination and
-election of officers for the session.
-
-_Article_ III. Immediately after the temporary organization of the
-Association the roll shall be called, when a committee on credentials
-shall be appointed from the _members_ present, to whom the certificates
-of delegates shall be submitted, and who shall examine the claims of
-all other applicants for membership before they are submitted to the
-Association.
-
-SECTION V.
-
-This Constitution may be altered or amended by a vote of three-fourths
-of the members present at any regular meeting, and notice to alter
-or amend the same shall be given at least one sitting before a vote
-thereupon.
-
-{378}
-
-
-CODE OF ETHICS OF THE AMERICAN PHARMACEUTICAL ASSOCIATION.
-
-The American Pharmaceutical Association, composed of Pharmaceutists and
-Druggists throughout the United States, feeling a strong interest in
-the success and advancement of their profession in its practical and
-scientific relations, and also impressed with the belief that no amount
-of knowledge and skill will protect themselves and the public from the
-ill effects of an undue competition, and the temptations to gain at the
-expense of quality, unless they are upheld by high moral obligations in
-the path of duty, have subscribed to the following _Code of Ethics_ for
-the government of their professional conduct.
-
-ART. I. As the practice of pharmacy can only become uniform by an open
-and candid intercourse being kept up between apothecaries and druggists
-among themselves and each other, by the adoption of the National
-Pharmacopœia as a guide in the preparation of officinal medicines, by
-the discontinuance of secret formulæ and the practices arising from
-a quackish spirit, and by an encouragement of that _esprit du corps_
-which will prevent a resort to those disreputable practices arising out
-of an injurious and wicked competition;—_Therefore_, the members of
-this Association agree to uphold the use of the Pharmacopœia in their
-practice; to cultivate brotherly feeling among the members, and to
-discountenance quackery and dishonorable competition in their business.
-
-ART. II. As labor should have its just reward, and as the skill,
-knowledge and responsibility required in the practice of pharmacy are
-great, the remuneration of the pharmaceutist’s services should be
-proportioned to these, rather than to the market value of preparations
-vended. The rate of charges will necessarily vary with geographical
-position, municipal location, and other circumstances of a permanent
-character, but a resort to intentional and unnecessary reduction in
-the rate of charges among apothecaries, with a view to gaining at
-the expense of their brethren, is strongly discountenanced by this
-Association as productive of evil results.
-
-ART. III. The first duty of the apothecary, after duly preparing
-himself for his profession, being to procure good drugs and
-prepartions, (for without these his skill and knowledge are of small
-avail,) he frequently has to rely on the good faith of the druggists
-for their selection. {379} Those druggists whose knowledge, skill and
-integrity enable them to conduct their business faithfully, should
-be encouraged, rather than those who base their claims to patronage
-on the cheapness of their articles solely. When accidentally or
-otherwise, a deteriorated, or adulterated drug or medicine is sent to
-the apothecary, he should invariably return it to the druggist, with a
-statement of its defects. What is too frequently considered as a mere
-error of trade on the part of the druggist becomes a _highly culpable_
-act when countenanced by the apothecary; hence, when repetitions of
-such frauds occur, they should be exposed for the benefit of the
-profession. A careful but firm pursuit of this course would render
-well-disposed druggists more careful, and deter the fraudulently
-inclined from a resort to their disreputable practices.
-
-ART. IV. As the practice of pharmacy is quite distinct from the
-practice of medicine, and has been found to flourish in proportion as
-its practitioners have confined their attention to its requirements;
-and as the conducting of the business of both professions by the
-same individual involves pecuniary temptations which are often not
-compatible with a conscientious discharge of duty; we consider that
-the members of this Association should discountenance all such
-professional amalgamation; and in conducting business at the counter,
-should avoid prescribing for diseases when practicable, referring
-applicants for medical advice to the physician. We hold it as
-unprofessional and highly reprehensible for apothecaries to allow any
-per centage or commission to physicians on their prescriptions, as
-unjust to the public, and hurtful to the independence and self-respect
-of both parties concerned. We also consider that the practice of
-some physicians, (in places where good apothecaries are numerous) of
-obtaining medicines at low prices from the latter, and selling them to
-their patients, is not only unjust and unprofessional, but deserving
-the censure of all high-minded medical men.
-
-ART. V. The important influence exerted on the practice of pharmacy
-by the large proportion of physicians who have resigned its duties
-and emoluments to the apothecary, are reasons why he should seek
-their favorable opinion and cultivate their friendship, by earnest
-endeavors to furnish their patients with pure and well-prepared
-medicines. As physicians are liable to commit errors in writing their
-prescriptions, involving serious consequences to health and reputation
-if {380} permitted to leave the shop, the apothecary should always,
-when he deems an error has been made, consult the physician before
-proceeding; yet in the delay which must necessarily occur, it is his
-duty, when possible, to accomplish the interview without compromising
-the reputation of the physician. On the other hand, when apothecaries
-commit errors involving ill consequences, the physician, knowing the
-constant liability to error, should feel bound to screen them from
-undue censure, unless the result of a culpable negligence.
-
-ART. VI. As we owe a debt of gratitude to our predecessors for the
-researches and observations which have so far advanced our scientific
-art, we hold that every apothecary and druggist is bound to contribute
-his mite towards the same fund, by noting the new ideas and phenomena
-which may occur in the course of his business, and publishing them,
-when of sufficient consequence, for the benefit of the profession.
-
-
-VARIA—EDITORIAL.
-
-THE JOURNAL.—With the present number, the first volume of the Journal
-is completed. In a pecuniary point of view its success has fully
-equalled the expectations of its originators; it is no longer an
-experiment, but is established on a firm basis, and will be continued
-with increased energy and a larger experience in the art of journalism.
-We have tried to keep faithfully in view the objects with which the
-Journal was commenced; while we have endeavored to present to our
-readers whatever of general interest or importance has been published
-abroad, we have the gratification to believe that some contributions
-to the general stock have first appeared in our pages which would
-otherwise never have seen the light. But those who confine the benefit
-of a journal solely to the information it imparts have but a limited
-view of its usefulness; an account of what is done abroad excites
-but little emulation compared with far humbler efforts made by our
-own friends, and in our own neighborhood, and the encouragement and
-promotion of such efforts is a large good, quite independent of the
-results that may be attained. The mere attempt to write on a subject
-like scientific pharmacy leads to a close scanning of the foundation of
-our opinions, to renewed experiments to ascertain their justness, to
-more enlightened views of the connection and bearing of our science.
-In this way we hope to see the good done by the {381} Journal greatly
-increased. The contributors to its pages have hitherto been but few
-in number, but its columns are open to all. They are controlled by no
-clique, are subservient to no views of merely personal advancement, and
-we will gladly, welcome communications from all quarters, judging of
-them only by their merit and usefulness.
-
-
-THE DRUG INSPECTION LAW.
-
-We had intended to have made some remarks on the debate which took
-place in the Convention regarding the admission of certain articles,
-under the law for the inspection of imported drugs, which, though
-possessing medicinal properties are, we believe, merely used for the
-purpose of adulterating other and better articles, but willingly
-give place to the subjoined communication from Dr. Guthrie, which,
-on the whole, advocates views similar to our own. With regard to the
-Carthagena barks, as they are termed, we confess to a desire for
-further information. Those barks vary very much from each other.
-Though not rich in quinia, some of them contain a large per centage of
-alkaloids, which are closely allied to it. We hope that the committee
-to whom the subject was referred by the Convention will not only cause
-proper analyses to be made of the commercial varieties of these barks,
-but will have experiments instituted regarding their comparative
-therapeutic value. The Hospitals of our country afford abundant cases
-of malarious disease, and, we have no doubt, the physicians attached
-to them would be ready to institute trials which would afford a
-satisfactory solution to this important question.
-
- GEO. D. GOGGESHALL,
-
- _My Dear Sir_,—The proceedings of the National Pharmaceutical
- Convention have just come to hand, and been perused by me, with no
- ordinary degree of interest.
-
- You have known somewhat of my anxiety concerning these preliminary and
- forming stages of an Association of this character, and will readily
- believe that I have awaited the results of the late Convention, from
- which, most unfortunately for myself, I was compelled to be absent,
- with great solicitude. That solicitude has been relieved, and in
- its stead I have the assurance that a good foundation to a National
- structure has been laid, towards which hope points and expectation
- looks with joyous anticipations of future good.
-
- I may be permitted to congratulate you upon the successful labors
- of the convention, and more especially upon the fact that you have
- avoided any untenable false ground both in the convention and
- organization of the Association.
-
- That old stumbling block of “all drugs good of their kind,” in
- reference to our Drug Law, I see made its appearance again, but
- this time from a quarter I {382} little expected. But it had,
- notwithstanding its new paternity and eminent godfathership, only, so
- far as I can see, the same lame, diffuse and weak conclusions to back
- it.
-
- I was the more surprised at seeing the resolution in the form offered
- as coming from my friend Dr. Stewart, of Baltimore, because I had
- considered him as one who held entirely opposite opinions, and from
- this fact, that in a communication made to me in January last, as
- special agent of the Treasury Department, charged with the examination
- of the practical workings of the Drug Law, he says, “I have inspected
- several hundred thousand dollars worth of one drug which requires some
- particular notice, as I understand your views and mine correspond with
- regard to it, and you have succeeded in arranging a uniform system of
- examination at the different ports.
-
- The prominent principles upon which its value is based vary from
- about one to four per cent. The commercial article of the best
- varieties is graduated by the quantity of valuable element above
- referred to, but with regard to the inferior kinds this is not the
- case, as I have found upon repeated analyses that what are called
- bastard varieties (which are not used for extracting the valuable
- principles above referred to) _sell at_ higher prices in proportion
- to their resemblance to the _officinal kinds_. Even in cases where
- they contain no valuable medicinal constituents they are invoiced at 3
- to 4 times the price of the other varieties on board the same vessel
- containing 3 per cent. Now if our object in this law is to discourage
- the introduction of those articles that are used for the purpose of
- adulterating medicines, it is manifest that the true interest of
- all will be served by admitting those only of the bastard varieties
- that are _equal_ to the inferior officinal varieties, particularly
- as they happen to be at a lower cost and are very abundant.” This
- is Dr. Stewart, Jan. 9, 1852. The whole of his report to me, a very
- interesting and able document, I intend publishing, and have delayed
- it for the purpose of accompanying it with some other matter of the
- same nature, not yet in hand.
-
- If I understand him correctly, he took entirely opposite ground in the
- Convention, and I certainly shall look with no ordinary interest for
- some explanation of a change so entire, in one whose position and well
- earned reputation give him importance and great influence in the final
- settlement of this matter. What new light has shone upon his path?
- What new facts has he to offer? I say _final_ settlement, because I
- see by the appointment of a committee to whom the matter was referred,
- that the whole subject is but laid over. Although the convention
- negatived the resolution, as it did a _similar_ one a year ago in New
- York, they seem disposed to endow the question with as many lives as
- are fabled of the cat.
-
- Notwithstanding all the reasoning of the author of the resolution,
- backed by the eminent professor, and aided by other reasons, thick
- no doubt as blackberries, you practical men who buy and sell these
- articles, were not convinced and never will be. They may cry out for
- “tooth powder,” until the demand for dentrifice shall quadruple, and
- tell us of the legitimate use of Carthagena or Maracaibo barks; (what
- is its legitimate use?) all in vain, for it is too well {383} known
- that the main use of the article is to adulterate the genuine barks.
- Why does the Drug examiner at Baltimore, Dr. Stewart, say that the
- “bastard varieties _sell at higher_ prices in proportion to their
- _resemblance to the officinal kinds_?” Why this demand for such as
- resemble the genuine, but to supply it to the buyers of Peruvian bark
- for the genuine and officinal. There can be no other conclusion.
- If more proof is wanting I take the remark of the gentleman from
- New-York, that the “house he was connected with sold large quantities
- in powder, and the parties purchasing did so knowing its origin.” No
- one could doubt this statement, at least as to the quantity annually
- purchased, who will go through half-a-dozen drug stores in any of the
- country villages or small towns any where in our country from Maine to
- Louisiana.
-
- He will have offered prime, best quality cinchona bark for 40 to 100
- cents almost any where, and in one half the cases the venders believe
- they are selling what they offer, for they bought it for that. Is this
- not so, or is it all bought for “tooth powder?” One half the druggists
- who go to our large cities, buy “pale yellow” and red bark, and never
- think to enquire for the inferior barks, and once drive these last
- from our seaboard cities, and we shall have done with them.
-
- You are aware that I have had some opportunity of becoming acquainted
- with the drug trade of our country, and I assure you that throughout
- its length and breadth there is more worthless Peruvian bark sold and
- consumed by far than of the genuine, mostly, I hope through ignorance,
- but many times knowingly on the part of the dealer.
-
- The same that has been said of these false barks, may be said of
- English rhubarb; when it is not sold for and in the place of Turkey,
- it is used to make powdered Turkey out of. But the resolution does not
- stop short at these two articles, as the discussion seemed to. There
- is “false jalap” undoubtedly good of its kind, but unfortunately for
- the buyer the kind is good for nothing, although it makes extract of
- jalap, that in looks cannot be told from the genuine.
-
- There is also Egyptian opium, and a false Sarsaparilla and many other
- important drugs, that should have received the attention of the
- friends of this resolution, all of which, I beg to assure them, are
- undoubtedly good of their kind.
-
- But I have written more than I designed by far, as the subject grows
- upon my hands, though I regard it a very important one, and vitally so
- to the drug law which lies at the very foundation of all beneficial
- results to grow out of this association, and the position of the
- association as to the whole subject is equally important, for if we
- unfortunately commit ourselves to a wrong principle in the start, and
- especially upon this standard of purity as applicable to our Drug
- examiners, which is now regarded as a test question by the community
- at large, we lose all hold upon their confidence, and with it all hope
- of effecting any good either to ourselves as a profession or to the
- community in general.
-
- My chief object in addressing you this communication (intended for
- the New York Journal of Pharmacy, if you choose so to use it) is to
- record my experience as differing in toto from those of Dr. Stewart
- and Prof. Carson, and to elicit a full discussion of the whole matter.
- Let us have light! light! light enough to {384} settle this question,
- especially about the barks, for they are the source of this whole
- contention after all. There must be data enough to be had, upon which
- to form an opinion, and a correct one as to the medicinal virtues of
- Maracaibo, and Carthagena barks, as well as of English rhubarb, false
- jalap, Egyptian opium etc., etc.
-
- I shall be perfectly satisfied if the labors of this committee result
- in fixing a definite standard of strength, or amount of alkaloids
- required to be found in barks before consumed for medicine, and
- therefore admissible under the act, but satisfied at nothing short
- of this, for till that is done there will never be any uniformity in
- the action of the law. I had designed to make some remarks upon the
- requirements of the law and its needed emendation which I must defer
- to more leisure.
-
- Yours, etc., C. B. GUTHRIE.
-
- Memphis, Tenn., November 2, 1852.
-
-
-A DISCOURSE ON THE TIMES, CHARACTER AND WRITINGS OF HIPPOCRATES,
-READ BEFORE THE TRUSTEES, FACULTY AND MEDICAL CLASS OF THE COLLEGE
-OF PHYSICIANS AND SURGEONS, AT THE OPENING OF THE TERM, 1852, BY
-ELISHA BARTLETT, M. D., PROFESSOR OF MATERIA MEDICA, AND MEDICAL
-JURISPRUDENCE. Published by the Class.
-
-Introductory lectures are generally very common-place affairs. Custom
-has prescribed that every year the different medical schools shall be
-opened with them; and custom, too, has prescribed for them a certain
-limited range of topics. Year after year, in a hundred places, the
-same round is gone over, and the same good advice is listened to, and
-neglected. Dr. Bartlett has broken through all this. He has chosen for
-the subject of his discourse the Character and Writings of the Father
-of Medicine, and he has illustrated them well and thoroughly. This is
-not the place for a detailed notice of the lecture. Yet we cannot but
-call attention to the playful humour, the kindly and genial spirit
-which set off and enliven its details, and which, breathing from the
-whole air and features of the man, render him one of the most agreeable
-lecturers to whom we have ever listened.
-
-
-EXCHANGES.—Hitherto the exchanges of this journal have not been
-conducted with proper regularity. It has neither been transmitted
-punctually to other journals, nor have they been received regularly
-in return. For the future this will be corrected; the journal
-will be forwarded immediately on its publication; and we hope our
-contemporaries will observe a like regularity with us.
-
-{385}
-
-
-
-
-CONTENTS.
-
-
- Accidents caused by a very small dose of Santonine given to a child,
- . . . 16
-
- Act relative to the sale of drugs, . . . 62
-
- Action of Sulphuric Acid on the insoluble residue left by opium,
- exhausted by water. Formation of a new alkaloid, . . . 318
-
- Adulteration of certain drugs, and the methods of detecting said
- adulteration, . . . 73
-
- Adulteration of sulphate of quinine, . . . 142
-
- Aleppo Scammony, results of the examination of several parcels of,
- . . . 165
-
- Alcohol in essential oils, a test for, . . . 154
-
- Aloe Juice, Socotrine, . . . 235
-
- Aloine, the crystalline cathartic principle of Barbadoes aloes, . . .
- 177
-
- Aloine, . . . 318
-
- American Journal of Pharmacy, . . . 252
-
- Amount of loss in powdering drugs, . . . 225
-
- Anodyne liquor, Hoffman’s, . . . 209
-
- Application of Organic Chemistry to perfumery, . . . 148
-
- Barbadoes Aloes, Aloine, the cathartic principle of, . . . 177
-
- Barium Compounds, . . . 161
-
- Bark, extract of, . . . 317
-
- Belladonna, accidental substitution of, for extract of dandelion,
- . . . 321
-
- Bestucheff’s tincture, . . . 233
-
- Blistering cerate, . . . 72
-
- Broom, Chemical examination of, . . . 189
-
- Butter of Cacao, . . . 224
-
- Camphor, as a stimulant, . . . 63
-
- Carbonate of potash, preparation of pure, . . . 33
-
- Carbonate of Soda, preparation of pure, . . . 36
-
- Cavendish Society, . . . 64
-
- Cerate, blistering, . . . 72
-
- Cicuta, . . . 299
-
- Cider, poisoning by adulterated, . . . 287
-
- Chemical technology, . . . 128
-
- Cherry laurel water, strength of, . . . 26
-
- Chloric ether, . . . 48
-
- Chloroform, as a solvent, . . . 197
-
- Chloroform, remarkable specimen of decomposed, . . . 116
-
- Chloroform, prepared from essences of lemon, copaiba, peppermint and
- bergamotte, . . . 157
-
- Chromic acid, an escharotic, . . . 127
-
- Chronic diseases, cure of by movement, . . . 221
-
- Coal gas, used as a source of heat in laboratories, . . . 296
-
- Cod liver oil, chemical composition of, . . . 240
-
- {386}
-
- Code of ethics of the American Pharmaceutical Association, . . . 378
-
- Coffinism, . . . 63
-
- Colchicum Autumnale, . . . 95
-
- College of Pharmacy, . . . 128, 352
-
- Colored fires for pyrotechnical purposes, . . . 248
-
- Committee of College of Pharmacy, . . . 3
-
- Comments on comments, . . . 252
-
- Constitution of the American Pharmaceutical Association, . . . 375
-
- Convention of the American Pharmaceutical Association, . . . 159, 252,
- 285, 331, 352
-
- Convention delegates to, . . . 224
-
- Croton oil, Chemical examination of, . . . 172
-
- Dandelion, compound fluid extract of Senna and, . . . 15
-
- Delegates to the Convention, . . . 224
-
- Delegates to the National Pharmaceutical Convention, . . . 320
-
- Division of gum resins in potions and in diachylon plaster, . . . 58
-
- Drugs, adulteration of, . . . 73
-
- Drugs, law, report on, . . . 264
-
- Drugs, amount of loss in powdering, . . . 225
-
- Dry Extracts, . . . 158
-
- Envelopment of pills, . . . 146
-
- Emplastrum epispasticum, . . . 255
-
- Ergotine, preparation of propylamine from, . . . 280
-
- Escharotic, chromic acid as an, . . . 127
-
- Essential oil of bitter almonds, . . . 205
-
- Essential oils, test for alcohol in, . . . 154
-
- Essence of jargonelle pear, . . . 60
-
- Essence of pine apple, . . . 114
-
- Estimation of strength of Medicinal Hydrocianic acid, of bitter almond
- water, and of cherry laurel water, . . . 26
-
- Ether, chloric, . . . 197
-
- Extract of bark, . . . 317
-
- Extract of belladonna, accidental substitution of, for extract of
- dandelion, . . . 321
-
- Extract of Senna and dandelion, . . . 15
-
- Extractum lobeliæ fluidum, . . . 249
-
- Extracts, dry, . . . 158
-
- Facts and discoveries in science, . . . 373
-
- False jalap, . . . 4
-
- Fires, colored for pyrotechnical purposes, . . . 248
-
- Fluid extract of senna and dandelion, . . . 15
-
- Fusel oil, . . . 257
-
- Galbanum plant, . . . 220
-
- Gambir, . . . 219
-
- Gas, coal, use of as a means of heat in the laboratory, . . . 296
-
- General method for detecting alkaloids in cases of poisoning, . . . 343
-
- General report on the drug law, . . . 264
-
- {387}
-
- Gelatinization of tincture of rhatany, . . . 319
-
- Gelseminum sempervirens, . . . 368
-
- Growth of plants in various gases, . . . 61
-
- Guarana, . . . 243
-
- Gum resins, division of in potions and in diachylon plaster, . . . 58
-
- Gutta Taban, . . . 216
-
- Heavy oil of wine, . . . 61
-
- Heat, coal gas used as a means of, in the laboratory, . . . 296
-
- Henry’s magnesia, . . . 127
-
- Hints, practical, . . . 69, 133
-
- Hoffman’s anodyne liquor, . . . 184
-
- Honey, poisonous, . . . 350
-
- Hydrate of potash, preparation of pure, . . . 33
-
- Hydrate of soda, . . . 36
-
- Hydrocyanic acid and bitter almond water, strength of, . . . 26
-
- Hygeine, public, . . . 127
-
- Hyposulphite of soda, easy method to make, . . . 259
-
- Impurities, test for, in acetic acid, . . . 152
-
- Indelible ink, . . . 106
-
- Inks, writing, . . . 305, 371
-
- Inspection of the drug law, . . . 381
-
- Internal use of Atropine, . . . 125
-
- Ioduretted oil, artificial, a substitute for cod liver oil, . . . 121
-
- Ipecacuanha, tincture of, . . . 201
-
- Iron, used in Medicine, notes on the preparations of, . . . 229
-
- Iron, protiodide of, new method of preparing and exhibiting, . . . 250
-
- Iron, soda, pyrophosphate of, . . . 92
-
- Itch, ointment of stavesacre in, . . . 350
-
- Jalap, two varieties of false, . . . 4
-
- Jalap, resin of, . . . 155
-
- Jargonelle pear, essence of, . . . 60
-
- Lemon, essence of, preparation of chloroform from, . . . 157
-
- Liquid socotrine aloes, . . . 235
-
- Liquor magnesiæ citratis, . . . 132
-
- Lobeliæ extractum fluidum, . . . 249
-
- Loss in powdering drugs, . . . 225
-
- Magnesiæ citratis, liquor, . . . 132
-
- Magnesia, preparation of pure, . . . 199
-
- Magnesia, Henry’s, . . . 184
-
- Manganese, . . . 192
-
- Manufacture of nitrate of potash, (saltpetre), . . . 273
-
- Manufacture of writing inks, . . . 305, 371
-
- Matico, pharmacology of, . . . 169
-
- Means of detecting adulterations in sulphate of quinine, . . . 142
-
- Measures, weights and, . . . 135
-
- {388}
-
- Medicine and pharmacy in Brazil, . . . 186
-
- Medicines, act relating to, . . . 62
-
- Medicine, preparations of iron used in, . . . 229
-
- Medical hydrocyanic acid, estimation of strength of, . . . 26
-
- Method of preparing and exhibiting protiodide of iron, . . . 250
-
- Method of detecting organic alkaloids in cases of poisoning, . . . 343
-
- Method of easy to make hyposulphite of soda, . . . 259
-
- Mode of ascertaining the purity of essential oil of bitter almonds,
- . . . 205
-
- Monesia, what is, . . . 167
-
- Movements as a cure in chronic diseases, . . . 221
-
- National Pharmaceutical Convention, . . . 285, 331
-
- National Pharmaceutical Convention, delegates to, . . . 320
-
- New alkaloid, discovery of, . . . 318
-
- New remedies, . . . 351
-
- New method of preparing protiodide of iron, . . . 250
-
- Nicotine, poisoning by, . . . 17
-
- Nitrogen of the air, other gases substituted for, . . . 61
-
- Nitrate of potash, manufacture of, . . . 273
-
- Notes in pharmacy, . . . 103, 129, 193, 260, 328
-
- Notes on the division of gum resins in potions, . . . 58
-
- Notice of some vegetable and animal substances, products of New
- Granada, . . . 89
-
- Observations on a method of detecting organic alkaloids in cases of
- poisoning, . . . 343
-
- Observations on the volatility and solubility of cantharidin, . . . 355
-
- Officers of the College of Pharmacy, . . . 128
-
- Oil, cod liver, . . . 240
-
- Oil, Croton, . . . 172
-
- Oil, fusel, . . . 257
-
- Oil, ioduretted, . . . 121
-
- Oil, of bitter almonds, . . . 205
-
- Oil, heavy wine, . . . 65
-
- Oil, test for alcohol in essential, . . . 154
-
- Ointment, stavesacre, . . . 350
-
- Ointment, stramonium, . . . 13
-
- Opium, cultivation of, . . . 127
-
- Opium, residue left by, . . . 318
-
- Opium, letter on, . . . 45
-
- Opium, observations on strength of tincture of, . . . 85
-
- Opium, tincture of, . . . 279
-
- Pear, essence of jargonelle, . . . 60
-
- Perfumery, application of organic chemistry to, . . . 148
-
- Pharmacopœia of the United States, . . . 27
-
- Pharmaceutical Convention, . . . 30, 157, 193, 331
-
- Pharmacy, . . . 119, 328
-
- Pharmacy, College of, . . . 352
-
- Pharmacy, Journal of, . . . 3, 252
-
- {389}
-
- Pharmacology of Matico, . . . 169
-
- Pharmacy in Brazil, . . . 186
-
- Pharmacy in Richmond, . . . 223
-
- Pills, on the envelopment of, . . . 146
-
- Pine apple, essence of, . . . 114
-
- Poisoning by drinking adulterated cider, . . . 287
-
- Poisoning, by tincture of aconite, . . . 190
-
- Poisoning, Nicotine, . . . 17
-
- Potash, nitrate of, . . . 273
-
- Potions, division of gum resins in, . . . 58
-
- Poisonous honey, . . . 350
-
- Powdering drugs, loss in, . . . 225
-
- Preparations of iron used in medicine, . . . 229
-
- Preparations of the pharmacopœia of the United States, . . . 38
-
- Preservation of iodide of iron, . . . 355
-
- Practical hints, . . . 69
-
- Propylamine, prepared from ergotine, . . . 280
-
- Protiodide of iron, new method of preparing, . . . 250
-
- Prosecution of a manufacturer of extract of dandelion, . . . 321
-
- Pure magnesia, . . . 199
-
- Pure Hydrate of potash, . . . 33
-
- Pure Hydrate of Soda, . . . 36
-
- Quinine, spurious sulphate of, . . . 192
-
- Quinidine, . . . 141, 317
-
- Santonine, . . . 16
-
- Scammony resin, . . . 7
-
- Scammony, Aleppo, . . . 165
-
- Senna and dandelion, compound fluid extract of, . . . 15
-
- Simaba Cedron, . . . 93
-
- Socotorine aloes juice, . . . 235
-
- Stavesacre ointment, . . . 350
-
- Stramonium ointment, . . . 13
-
- Sulphate of quinine, spurious, . . . 192
-
- Sulphate of quinine, adulteration of, . . . 142
-
- Sulphuric acid, action of on the residue left by opium, . . . 318
-
- Suppositories of butter of cacao, . . . 224
-
- Tannate of zinc, . . . 251
-
- Technology, Chemical, . . . 317
-
- Test for alcohol in essential oils, . . . 154
-
- Tincture of aconite, poisoning by, . . . 190
-
- Tincture, Bestucheff’s, . . . 233
-
- Tincture, Ipecacuanha, . . . 201
-
- Tincture, opium, . . . 279
-
- Tincture of rhatany, . . . 319
-
- United States Customs, . . . 289
-
- {390}
-
- Use of coal gas as a means of heat in laboratories, . . . 296
-
- Valerianic acid, . . . 108
-
- Virgin Scammony, . . . 7
-
- Weights and Measures, . . . 135
-
- Woorara, . . . 77
-
- Writing inks, . . . 305, 371
-
- Yatamansi, . . . 82
-
- Yellow jessamine, . . . 368
-
- Zinc, tannate of, . . . 251
-
-
-
-
-INDEX OF AUTHORS.
-
-
- BAILEY, DR. M. J.
-
-   United States Customs, . . . 289
-
- BARNES, MR. J. B.
-
-   Valerianic Acid, and its salts, . . . 108
-
- BERNARD, M. U.
-
-   On Woorara, . . . 77
-
- BERNOUILLI, J. J.
-
-   A test for alcohol in essential oils, . . . 154
-
- BOUNWYN, M. H.
-
-   New method of preparing and exhibiting protiodide of iron, . . . 250
-
- BULL, B. W.
-
-   Virgin scammony, with some remarks upon the characteristics of
-   scammony resin, . . . 7
-
-   Results of the examination of several parcels of Aleppo scammony,
-   . . . 165
-
- BUSHE, T. A.
-
-   On the Galbanum plant, . . . 220
-
- CANAVAN, BENJ.
-
-   Notes in Pharmacy, No. 1, . . . 103
-
-   Notes in Pharmacy, No. 2, . . . 129
-
-   Notes in Pharmacy, No. 3, . . . 198
-
-   Notes in Pharmacy, No. 4, . . . 260
-
-   Notes in Pharmacy, No. 5, . . . 328
-
- CHANTARD, M.
-
-   On the preparation of chloroform from the essences of lemon, copaiba,
-   peppermint, and bergamotte, . . . 157
-
- COGGESHALL, GEORGE D.
-
-   Remarks upon some of the preparations of the United States
-   Pharmacopœia, 1851, . . . 38
-
-   The same continued, . . . 97
-
- CURRIE, JOHN H.
-
-   On two varieties of false jalap, . . . 4
-
- DORVAULT,
-
-   Remarks on the envelopment of pills, . . . 146
-
-   Pharmacology of Matico, with formulæ for its preparation, . . . 169
-
- DUBLANE, M.
-
-   Chemical research on croton oil, . . . 172
-
- DUPUY, EUGENE
-
-   On the preparation of stramonium ointment, . . . 13
-
-   Compound fluid extract of senna and dandelion, . . . 15
-
-   On blistering cerate, . . . 72
-
-   What is Monesia? . . . 167
-
- {391}
-
- GARROD, DR. A. B.
-
-   Observations on the strength of tincture of opium, . . . 85
-
- GIBERT, M.
-
-   Report presented to the Academy of Medicine of Paris, on the
-   substitution of an artificial ioduretted oil for cod liver oil, . . .
-   121
-
- GLADSTONES, MESSRS.
-
-   On the growth of plants in various gases, especially substituting
-   carbonic oxide, hydrogen and light carburetted hydrogen, for the
-   nitrogen of the air, . . . 61
-
- GUILLER, M.
-
-   Indelible ink, . . . 106
-
- GUTHRIE, DR. C. B.
-
-   General report upon the results and effects of the drug law, . . . 264
-
- HARRIS, C. T.
-
-   On the adulteration of certain drugs and the methods of detecting said
-   adulterations, . . . 73
-
- HOFFMAN, DR. A. W.
-
-   On the application of organic chemistry to perfumery, . . . 148
-
- HOLTON, I. F.
-
-   Chloric ether, . . . 197
-
- HOWARD, MR. ROBT.
-
-   Quinidine, . . . 141
-
- KENT, EDWD. H.
-
-   On the heavy oil of wine, . . . 65
-
-   On the oil of grain spirit, or fusel oil, . . . 257
-
-   On the use of coal gas as a source of heat for the laboratory, . . . 296
-
- LEPAGE, M. P. H.
-
-   On chloroform as a solvent, . . . 48
-
- LEROY, G. F.
-
-   On tincture of Ipecacuanha, . . . 201
-
- LIEBIG, J.
-
-   On the estimation of the strength of medicinal hydrocianic acid of
-   bitter almond water, and of cherry laurel water, . . . 26
-
- MAYER, FR.
-
-   Note on the preparation of Bestucheff’s tincture, . . . 233
-
- MOHR, DR.
-
-   On dry extracts, . . . 158
-
-   On Henry’s Magnesia, . . . 184
-
- MONZON, DR. M. J. RAF.
-
-   Notice of some vegetable and animal substances natural products of New
-   Granada, . . . 89
-
- ORFILA, M.
-
-   On poisoning by nicotine, . . . 17
-
- PEREIRA, JONATHAN
-
-   On a remarkable specimen of decomposed chloroform, . . . 116
-
-   On socotrine aloe juice, . . . 235
-
- PROCTER, W. JR.
-
-   On Hoffman’s anodyne liquor, . . . 209
-
-   Extractum Lobeliæ Fluidum, . . . 249
-
-   On the volatility and solubility of cantharidin, . . . 355
-
-   On Gelseminum Sempervirens, . . . 368
-
- RITCHIE, D.
-
-   Guarana, . . . 243
-
- SANDROCK, B.
-
-   Chemical examination of resin of jalap, . . . 155
-
- SEEMAN, M. B.
-
-   On the simaba cedron, . . . 93
-
-   On Gutta Taban, . . . 216
-
-   On gambir, . . . 219
-
- STAS, Prof.
-
-   Observations upon a general method for detecting the organic alkaloids
-   in cases of poisoning, . . . 343
-
-   On aloine, . . . 177
-
- STENHOUBE, DR. J.
-
-   Chemical examination of Broom, . . . 189
-
- TALLON, JOHN C.
-
-   Easy method to make hyposulphite of soda, . . . 259
-
- URE, ALEX.
-
-   On the soda pyrophosphate of iron, . . . 92
-
- WIEGAND, THOS. S.
-
-   Liquor Magnesiæ citratis, . . . 132
-
- {392}
-
- WINCKLER, DR. H. S.
-
-   Chemical composition of cod liver oil, . . . 240
-
-   Preparation of propylamine from ergotine, . . . 280
-
- WURTZ, H.
-
-   On the preparation of pure hydrate of potash and carbonate of potash,
-   . . . 33
-
-   On the preparation of chemically pure hydrate and carbonate of soda,
-   . . . 36
-
-   Preparation of barium compounds, . . . 161
-
-   Preparation of pure magnesia, . . . 199
-
-   On the preparations of iron used in medicine, . . . 229
-
-   On the preservation of iodide of iron, . . . 353
-
- ZIMMER, MR.
-
-   On the adulteration of sulphate of quinine, and the means of its
-   detection, . . . 142
-
-
-
-
-TRANSCRIBER’S NOTE
-
-Original spelling and grammar have been generally retained, with
-some exceptions noted below. Errata mentioned in the endmatter of
-monthly issues have been ignored—left unchanged. Original printed
-page numbers are shown like this: “{52}”. Original small caps are now
-uppercase. Italics look _like this_. Footnotes have been relabeled
-1–30. The commas used to end several paragraphs by mistake, e.g.
-on page 176, were changed to full stops. Superscript x looks like
-this: “^x” or “^{x}”. Subscript x looks like “‗{x}”. The transcriber
-produced the cover image and hereby assigns it to the public domain.
-Original page images are available from archive.org—search for
-“newyorkjournalof11852newy”.
-
-Ditto marks, including “Do” or “do”, have been eliminated, replaced
-by repeated text. In a table on page 130, white space was employed as
-a ditto mark. In this table, the white space ditto and “Nitrici” have
-been replaced with “Acidi hydro nitrici”.
-
-Page 36. The formula for ordinary monohydrated bicarbonate of soda is
-retained. The phrase “lost by ignition; O. 845 grn.” was changed to
-“lost by ignition; 0.845 grn.”
-
-Page 44. Large curly brackets “}” employed as graphic devices to
-indicate combination of information over two or more lines of text were
-eliminated. There were examples of this on pages 44 and 58. The text
-was restructured as necessary to retain the evident meaning of the
-original brackets.
-
-Page 63; “sufficient t  supply” to “sufficient to supply”.
-
-Page 70; added a full stop after “the doctor knows but little more”.
-
-Page 81; “3nd” to “2nd”.
-
-Page 86; “constitutents” to “constituents”.
-
-Page 90; “exeoriating” to “excoriating”.
-
-Page 100; “with fonr ounces” to “with four ounces”.
-
-Page 110. The formula for valerianic acid is retained.
-
-Page 122; “phrosphorus” to “phosphorus”.
-
-Page 124; “a renecessary” to “are necessary”.
-
-Page 126; “Anaethesia” to “Anaesthesia”.
-
-Page 127; “engagaged” to “engaged”.
-
-Page 142; “800 gains” to “800 grains”.
-
-Page 167; “_Chrysophi lum;_” to “_Chrysophi lum._;”.
-
-Page 169; “fossœ”, retained, possibly should be “fossæ”.
-
-Page 170; “over their property” is retained, but maybe should be “owe
-their property”.
-
-Page 171; “represents 1-10 of its weight of matico” is retained.
-
-Page 209; “gavity” to “gravity”.
-
-Page 225. In the table row “Potassæ Nitrat.”, “3 98” was changed to
-“3.98”.
-
-Page 228. In table row “——— Bi-tartrat.”, “ 45” was changed to “.45”.
-In row “Buchu”, “ 96” was changed to “.96”.
-
-Page 243; “hyrate” to “hydrate”. The words “guarana” and “guaraná”,
-in various states of capitalization, have been retained as printed
-throughout the book.
-
-Page 244; “imformation” was changed to “information”, and “knowlege” to
-“knowledge”. The word “angnlato” is retained, but possibly should be
-“angulato”.
-
-Page 249; “Salpetre” to “Saltpetre”.
-
-Page 250; “incoveniences” to “inconveniences”.
-
-Page 254; “evarated” to “evaporated”.
-
-Page 259; “preciptate” to “precipitate”.
-
-Page 261; “qnantity” to “quantity”.
-
-Page 278; “mannfacture” to “manufacture”.
-
-Page 280; unmatched right parenthesis was removed from “part i., p.
-22)”.
-
-Page 287; “rceive” to “receive”.
-
-Page 297; “atttched” to “attached”.
-
-Page 302. The original quotation punctuation is retained, although it
-appears wrong. The first paragraph has no left quotation mark, and the
-fourth paragraph has no end quotation mark. Similarly, the original
-quotation marks are retained on page 303.
-
-Page 326, 327; “propable” and “propably” retained.
-
-Page 330. A right parenthesis is added after “(perhaps it might be
-deemed worthy of the action of the convention” to close the left
-parenthesis.
-
-Page 357; “catharidin” to “cantharidin”.
-
-Page 369; “commom” to “common”.
-
-Page 381; “satisfacfactory” to “satisfactory”. Also, there is a letter
-to “Geo. D. Goggeshall”. The name has been retained on page 381,
-although the only other reference to “Goggeshall” was on page 390—see
-below—where it was evidently wrong, and refers to “Coggeshall”.
-
-Page 383. A matching right quotation mark was added to ‘say that the
-“bastard varieties _sell at higher_ prices in proportion to their
-_resemblance to the officinal kinds_?’.
-
-Page 390. The name “Goggeshall” has been changed to “Coggeshall”
-on page 390 (Index of Authors) to conform with its position in the
-alphabetical list, and to agree with the names found on the referenced
-pages 38 and 97.
-
-
-
-
-
-
-
-
-
-
-
-End of the Project Gutenberg EBook of New York Journal of Pharmacy, Volume 1
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-
-The Project Gutenberg EBook of New York Journal of Pharmacy, Volume 1 (of
-3), 1852, by Various
-
-This eBook is for the use of anyone anywhere in the United States and most
-other parts of the world at no cost and with almost no restrictions
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-
-Title: New York Journal of Pharmacy, Volume 1 (of 3), 1852
-       Published by Authority of the College of Pharmacy of the
-              city of New York.
-
-Author: Various
-
-Editor: Benjamin W. McCready
-
-Release Date: December 29, 2016 [EBook #53828]
-
-Language: English
-
-Character set encoding: UTF-8
-
-*** START OF THIS PROJECT GUTENBERG EBOOK NEW YORK JOURNAL OF PHARMACY, 1852 ***
-
-
-
-
-Produced by Charlene Taylor, Bryan Ness, RichardW, and the
-Online Distributed Proofreading Team at http://www.pgdp.net
-(This book was produced from scanned images of public
-domain material from the Google Books project, and from
-The Internet Archive.)
-
-
-
-
-
-
-</pre>
-
-
-<div class="dctr02">
-<img id="coverpage" src="images/cover.jpg" width="600" height="800" alt="" />
-</div>
-
-<div class="dfront">
-<h1 class="h1thisbook">NEW YORK JOURNAL OF PHARMACY,
-<span class="hsmall">Volume 1 (1852)</span></h1></div>
-
-<div class="dfront">
-<div class="fsz3"><span class="hsmall">NEW YORK</span>
- JOURNAL OF PHARMACY,</div>
-
-<div class="fsz6 padtopa"><span class="hsmall">PUBLISHED BY AUTHORITY OF</span>
-THE COLLEGE OF PHARMACY OF THE CITY OF NEW YORK,</div>
-
-<div class="fsz5 padtopa"><span class="hsmall">EDITED BY</span>
-BENJAMIN W. McCREADY, M. D.
-<span class="htiny">PROFESSOR OF MATERIA MEDICA
-AND PHARMACY IN THE COLLEGE OF PHARMACY,</span></div>
-
-<div class="pjust fsz6 padtopb">
-<span class="htiny">ASSISTED BY A PUB­LISH­ING
-COM­MIT­TEE, CON­SIST­ING OF</span>
-JOHN H. CUR­RIE, THOM­AS B. MER­RICK, EU­GENE DU­PUY,
-WM. HEGE­MAN, GEORGE D. COGGES­HALL.</div>
-
-<div class="fsz5">VOLUME I.</div>
-
-<div class="fsz6 padtopb">NEW YORK:</div>
-<div class="fsz7">JOSEPH W. HARRISON, PRINTER,</div>
-<div class="fsz8">
- <span class="smcap">N<b>O.</b></span> 197
- <span class="smcap">C<b>ENTRE,</b></span>
- <span class="smmaj">NEAR</span>
- <span class="smcap">C<b>ANAL</b></span>
- <span class="smcap">S<b>TREET.</b></span></div>
-
-<div class="fsz6">1852.</div>
-</div><!--dfront-->
-
-<div class="chapter">
-<div><span class="xxpn" id="p001">{1}</span></div>
-<h2 class="h2nobreak"><span class="hsmall">NEW YORK</span>
-JOURNAL OF PHARMACY.
-<span class="hsmall"><span class="hdate">JANUARY, 1852.</span></span>
-</h2>
-
-<h3>TO OUR READERS.</h3>
-
-<p>The College of Pharmacy was founded with a view to the elevation
-of the professional standing and scientific attainments of Apothecaries,
-as well as to guard their material interests by raising a barrier against
-ignorance and imposture. What they have accomplished and how far they
-have been successful it does not become the Board of Trustees to state; if
-the results have not, in all respects, been what might be desired, it has not
-arisen from want of earnest effort and honest intention on their part. As
-a further means of benefiting their profession, of keeping its members
-acquainted with the progress it is making at home and abroad, and of
-inspiring among them a spirit of scientific inquiry, they believe that the
-establishment of a Journal, devoted to the pursuits and the interests of
-Apothecaries, would be of the highest utility.</p></div><!--chapter-->
-
-<p>By far the wealthiest and most populous city in the Union, New York,
-with its environs, contains several hundred Apothecaries, among whom are
-many of great experience and eminent ability; it contains numerous Laboratories
-where chemicals are manufactured on a large scale, and where the
-appliances and refinements of modern science are compelled into the
-service of commerce; it contains within itself all the means of scientific
-progress, and yet these means lie, for the most part, waste and idle; the
-observations that are made and the processes that are invented profit only
-the observer and the inventor. Both they and their consequences—for
-even apparently trivial observations may contain in themselves the germ
-of important discoveries, and no man can tell what fruit they may produce
-in the minds of others—are lost to the world.</p>
-
-<p>New York is the commercial centre of the Union, the point to which
-our products are brought for exportation, and from
-which various goods, <span class="xxpn" id="p002">{2}</span>
-obtained from abroad, are distributed to the remainder of the United
-States. It is the chief drug mart of the Union; the source from which
-the largest part of our country draws its supplies of all medicines that
-are not the products of their own immediate vicinities. It is thus connected
-more intimately with the Druggists of a large portion of our country
-than any other city; many visit it annually or oftener; most have business
-relations with it. Is the spirit of trade incompatible with that of science?
-Is money-getting to absorb all our faculties to the exclusion of anything
-nobler or higher? Are we ever to remain merely the commercial metropolis
-of our Union, but to permit science and art to centre in more congenial
-and less busy abodes? Shall we not rather attempt to profit by our
-many advantages, to use the facilities thrown in our way by the channels
-of trade for the diffusion of scientific knowledge, and in return avail ourselves
-of the information which may flow into us from the interior?</p>
-
-<p>But it is not alone, we hope, by the information it would impart that a
-Journal such as is contemplated would be useful. A higher and no less
-useful object would be that it would excite a spirit of inquiry and emulation
-among the profession itself; it would encourage observation and experiment;
-it would train our young men to more exact habits of scientific
-inquiry. In diffusing information it would create it, and would be doubly
-happy in being the means of making discoveries it was intended to promulgate.</p>
-
-<p>Such are the views which have determined the Trustees of the College
-to publish a Journal of Pharmacy. It will appear on the first day of
-every month, each number containing thirty-two octavo pages. It will be
-devoted exclusively to the interests and pursuits of the Druggist and
-Apothecary. While it is hoped that its pages will present everything
-that is important relating to the scientific progress of Pharmacy, it is
-intended to be mainly practical in its character, subserving the daily wants
-of the Apothecary, and presenting, as far as possible, that kind of information
-which can be turned to immediate account, whether it relates to
-new drugs and formulæ, or improved processes, manipulations, and apparatus.
-Such are the aims and ends of the New York Journal of Pharmacy;
-and the Druggists of New York are more particularly appealed to to sustain
-it, not only by their subscriptions, but by contributions from their pens.
-This last, indeed, is urgently pressed upon them; for, unless it receives
-such aid, however successful otherwise, it will fail in one great object for
-which it was originated. When special information
-is wanted on any <span class="xxpn" id="p003">{3}</span>
-particular subject, the conductors of the Journal, if in their power, will
-always be happy to afford it.</p>
-
-<div class="dkeeptogether">
-<p>It is no part of the intention of the College to derive an income from
-the Journal. As soon as the state of the subscription list warrants it, it is
-intended to increase its size so that each number shall contain forty-eight
-instead of thirty-two pages.</p>
-
-<hr class="hr34" />
-</div>
-
-<div class="section">
-<h3>REPORT OF COMMITTEE OF COLLEGE OF
-PHARMACY AS AMENDED.</h3>
-</div><!--section-->
-
-<p>The Committee to whom was referred the subject of the establishment
-of a Journal of Pharmacy in the city of New York, have given their
-attention to the subject, and beg leave to report as follows:</p>
-
-<p>1. That in their opinion it is all important that a Journal of Pharmacy
-should be established in this city as soon as practicable, for reasons well
-known, and therefore unnecessary here to enumerate.</p>
-
-<p>2. They recommend that the first number of a Journal of thirty-two
-octavo pages be issued on the 1st day of January next, and one number
-each month thereafter, to be called the New York Journal of Pharmacy.</p>
-
-<p>3. The general control of the Journal shall be vested in a committee
-of five, which shall review every article intended for publication, four of
-whom shall be elected annually by the Board of Trustees at the first
-stated meeting succeeding the annual election of officers; and a committee
-of the same number shall be now elected, who shall act until the next
-annual election, to be denominated the Publishing Committee. The
-President of the College of Pharmacy shall be “ex officio” a member of
-this Committee, and the whole number of this Committee shall be five,
-two of whom may act.</p>
-
-<p>4. That an Editor be appointed by the Publishing Committee who
-shall attend to all the duties of its publication, and cause to be prepared
-all articles for the Journal, and to have the entire management of it under
-the control and direction of the Publishing Committee.</p>
-
-<p>5. The compensation for the services of the Editor, together with all
-financial matters connected with the Journal, shall be subject to the control
-of the Publishing Committee. <span class="xxpn" id="p004">{4}</span></p>
-
-<p>6. The matter to be published in the Journal shall be original communications,
-extracts from foreign and domestic journals, and editorials.
-No matter shall be published except what may relate directly
-or indirectly to the subject of Pharmacy, and the legitimate business of
-Druggists and Apothecaries. No advertisements of nostrums shall be
-admitted.</p>
-
-<div class="dkeeptogether">
-<p>7. The subscription list shall be kept in the hands of the Publishers,
-subject to the disposal of the Publishing Committee.</p>
-
-<div class="psignature">
-(Signed) T. B. <span class="smcap spadr2">M<b>ERRICK</b>,</span><br />
-<i>Chairman</i>.
-</div><!--psignature-->
-
-<p>The Board then balloted for members of the Publishing Committee,
-when the following were found to be elected.</p>
-
-<div class="psignature">
-<span class="smcap">M<b>ESSRS.</b></span>
-<span class="smcap">J<b>NO.</b></span> H.
-<span class="smcap spadr2">C<b>URRIE</b>,</span><br />
-<span class="smcap">T<b>HOS.</b></span> B.
-<span class="smcap spadr2">M<b>ERRICK</b>,</span><br />
-C. B. <span class="smcap spadr2">G<b>UTHRIE</b>,</span><br />
-<span class="smcap">E<b>UGENE</b></span>
-<span class="smcap spadr2">D<b>UPUY</b>,</span><br />
-with Ex Officio, <span class="smcap">G<b>EO.</b></span> D.
-<span class="smcap spadr2">C<b>OGGESHALL</b>,</span><br />
-<i>President of the College</i>.
-</div><!--psignature-->
-
-<hr class="hr34" />
-</div><!--pkeeptogether-->
-
-<div class="section">
-<h3>ON TWO VARIETIES OF FALSE JALAP.
-<span class="hsmall">BY JOHN H. CURRIE.</span></h3>
-</div><!--section-->
-
-<p>Two different roots have for some time back been brought to the New
-York market, for the purpose of adulterating or counterfeiting the various
-preparations of Jalap. They differ materially from the Mechoacan and
-other varieties of false Jalap which formerly existed in our markets, as
-described by Wood and Bache in the United States Dispensatory, while
-some of the pieces bear no slight resemblance to the true root. The
-specimens I have been able to procure are so imperfect, and so altered by
-the process of drying, that the botanists I have consulted are unable to give
-any information even as to the order to which they belong. I have not
-been able either to trace their commercial history, nor do I know how,
-under the present able ad­min­i­stra­tion of the law for the inspection of drugs,
-they have obtained admission to our port. The article
-or articles, since <span class="xxpn" id="p005">{5}</span>
-there are at least two of them, come done up in bales like those of the
-true Jalap, and are probably brought from the same port, Vera Cruz.</p>
-
-<p>No. 1 appears to be the rhizome or underground stem of an exogenous
-perennial herb, throwing up at one end each year one or more shoots,
-which after flowering die down to the ground. It comes in pieces varying
-in length from two to five inches, and in thickness from the third of an
-inch to three inches. In some of the pieces the root has apparently
-been split or cut lengthwise; in others, particularly in the large pieces,
-it has been sliced transversely like Colombo root. The pieces are somewhat
-twisted or contorted, corrugated longitudinally and externally, varying
-in color from a yellowish to a dark brown. The transverse sections
-appear as if the rhizome may have been broken in pieces at nodes from two
-to four inches distant from each other, and at which the stem was enlarged.
-Or the same appearance may have been caused by the rhizome having been
-cut into sections of various length; and the resinous juice exuding on
-the cut surfaces, has hindered them from contracting to the same extent
-as the intervening part of the root. On the cut or broken surfaces are seen
-concentric circles of woody fibres, the intervening parenchyma being contracted
-and depressed. The fresh broken surfaces of these pieces exhibit
-in a marked manner the concentric layers of woody fibres. The pieces
-that are cut longitudinally, on the other hand, are heavier than those just
-described, though their specific gravity is still not near so great as that of
-genuine Jalap. Their fracture is more uniform, of a greyish brown color,
-and highly resinous.</p>
-
-<p>This variety of false Jalap, when exhausted with alcohol, the tincture
-thus obtained evaporated, and the residuum washed with water, yielded from
-<span class="nowrap">9&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub></span>
-to <span class="nowrap">15&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub></span>
-per cent. of resin, the average of ten experiments being 13 per
-cent. Its appearance was strikingly like that of Jalap resin. It had a
-slightly sweetish mucilaginous taste, leaving a little acridity, and the odor
-was faintly jalapine. It resembled Jalap resin in being slowly soluble in
-concentrated sulphuric acid, but unlike Jalap resin it was wholly soluble in
-ether. In a dose of ten grains it proved feebly purgative, causing two or
-three moderate liquid stools. Its operation was unattended with griping
-or other unpleasant effect, except a slight feeling of nausea felt about half
-an hour after the extract had been swallowed, and continuing for some
-time.</p>
-
-<p>This variety of false Jalap is probably used, when ground, for the purpose
-of mixing with and adulterating the powder of true Jalap,
-or is sold <span class="xxpn" id="p006">{6}</span>
-for it, or for the purpose of obtaining from it its resin or extract, which is
-sold as genuine resin or extract of Jalap. The powder strikingly resembles
-that of true Jalap, has a faint odor of Jalap, but is destitute, to a great
-extent, of its flavor. The dust, too, arising from it, is much less irritating
-to the air passages.</p>
-
-<p>The second variety is a tuber possibly of an orchidate plant, a good
-deal resembling in shape, color and size, a butternut, (Juglans cinerea.)
-Externally it is black or nearly so, in some places shining as if varnished
-by some resinous exudation, but generally dull, marked by deep longitudinal
-cuts extending almost to the centre of the tubers; internally it is
-yellow or yellowish white, having a somewhat horny fracture, and marked
-in its transverse sections with dots as if from sparse, delicate fibres. When
-first imported the root is comparatively soft, but becomes dry and brittle
-by keeping. Its odor resembles that of Jalap, and its taste is nauseous,
-sweetish, and mucilaginous.</p>
-
-<p>This root contains no resin whatever. Treated with boiling water it
-yields a large amount (75 per cent.) of extract. This is soluble, to a great
-extent, likewise in alcohol. With iodine no blue color is produced.</p>
-
-<p>The extract obtained from this drug appears, in ordinary doses, perfectly
-inert, five or ten grains producing, when swallowed, no effect whatever.
-Is this root employed for the purpose of obtaining its extract, and
-is this latter sold as genuine extract of Jalap?</p>
-
-<p>Of the effect which frauds of this kind cannot fail to have on the practice
-of medicine it does not fall within my province to speak, but commercially
-its working is sufficiently obvious. One hundred pounds of
-Jalap at the market price, 60 cents per pound, will cost $60. In extracting
-this there will be employed about $5 worth of alcohol, making in all
-$65. There will be obtained forty pounds of extract, costing thus $1
-<span class="nowrap">62&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub></span>
-per pound.</p>
-
-<p>One hundred pounds of false Jalap, No. 1, may be obtained for $20;
-admitting the alcohol to cost $5, it will make in all $25. This will produce
-thirty-six pounds of extract, costing rather less than 70 cents per
-pound.</p>
-<div class="dkeeptogether">
-<p>One hundred pounds of variety No. 2 may be had for $20, and no
-alcohol is necessary in obtaining the extract. The yield being seventy-five
-pounds, the extract will cost rather less than twenty-seven
-cents per pound.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div><span class="xxpn" id="p007">{7}</span></div>
-<h3>VIRGIN SCAMMONY,
-<span class="hsmall">WITH SOME RE­MARKS UPON THE
-CHAR­AC­TER­IS­TICS OF
-SCAM­MO­NY RE­SIN.</span>
-<span class="hsmall">BY B. W. BULL.</span></h3>
-</div><!--section-->
-
-<p>The more extended use in medicine which this substance has acquired
-within a few years, and its consequent greater consumption, render the
-knowledge of its peculiarities and the modes of ascertaining its purity
-doubly important to the druggist and apothecary.</p>
-
-<p>An instance occurred a few weeks since, showing the necessity of careful
-and thorough examination of every parcel of this drug, and possessing
-some interest, from the fact that no description of any similar attempt at
-falsification has, I believe, been before published.</p>
-
-<p>The commercial house with which I am connected, purchased a parcel
-of what purported to be virgin scammony from the importer, who
-obtained it direct from Smyrna. A sample of it was examined and
-found to contain seventy per cent. of resinous matter, but when the whole
-lot was received, it was found to consist evidently of two different grades
-of the article.</p>
-
-<p>The whole of it was composed of amorphous pieces, possessing externally
-a similar appearance. Upon breaking them, however, a manifest
-difference was observable. Some of the pieces possessed the resinous
-fracture, and the other char­ac­ter­is­tics of virgin scammony, while the
-remainder, which constituted about five eighths of the whole, exposed a
-dull, non-resinous surface when freshly broken.</p>
-
-<p>I selected two samples, each possessing in the highest degree the char­ac­ter­is­tics
-of the two varieties, and subjected them to the action of sulphuric
-ether with the following results, designating the resinous or best
-No. 1, and the other specimen No. 2:―</p>
-
-<div class="dtablebox">
-<table summary="">
-<colgroup>
-<col width="50%" /><col width="25%" /><col width="25%" />
-</colgroup>
-<tr>
- <th></th>
- <th>No. 1.</th>
- <th>No. 2.</th></tr>
-<tr>
- <td class="pleft">Specific gravity</td>
- <td class="pright">1,143</td>
- <td class="pright">1,3935</td></tr>
-<tr>
- <th></th>
- <th>Per cent.</th>
- <th>Per cent.</th></tr>
-<tr>
- <td class="pleft">Resinous matter and water</td>
- <td class="pright">94.35&#x2007;</td>
- <td class="pright">49.86&#x2007;&#x2007;</td></tr>
-<tr>
- <td class="pleft">Vegetable substance insoluble in ether</td>
- <td class="pright">3.20&#x2007;</td>
- <td class="pright">45.16&#x2007;&#x2007;</td></tr>
-<tr>
- <td class="pleft">Inorganic matter</td>
- <td class="pright">2.45&#x2007;</td>
- <td class="pright">4.98&#x2007;&#x2007;</td></tr>
-<tr>
- <td></td>
- <td class="pright"><span class="tdsum">100.00</span>&#x2007;</td>
- <td class="pright"><span class="tdsum">100.00</span>&#x2007;&#x2007;</td></tr>
-</table>
-</div><!--dtablebox-->
-
-<div><span class="xxpn" id="p008">{8}</span></div>
-
-<p>The vegetable substance in No. 2 was principally, if not entirely, farinaceous
-or starchy matter, of which the other contained not a trace.
-The result shows that this parcel of scammony was composed partly of
-true virgin scammony mixed with that of an inferior quality; and also
-indicates the necessity of examining the whole of every parcel, and of not
-trusting to the favorable result of the examination of a mere sample.</p>
-
-<p>The powder in the two specimens was very similar in shade, and they
-possessed in about the same degree the odor peculiar to the substance,
-showing the fallacy of relying upon this as a means of judging of the
-comparative goodness of different samples. This fact may appear anomalous,
-but on different occasions the powder of No. 2 was selected as having
-the most decided scammony odor.</p>
-
-<p>Since examining the above, I have had an opportunity of experimenting
-upon a portion of scammony imported from Trieste as the true
-Aleppo scammony, of which there are exported from Aleppo not more
-than from two hundred and fifty to three hundred pounds annually.</p>
-
-<p>The parcel consisted of a sample of one pound only, which was
-obtained from a druggist of respectability in that place by one of my
-partners, who was assured that the sample in question was from the
-above source, and the kind above alluded to. This scammony was in
-somewhat flattish pieces, covered externally with a thin coating of chalk
-in which it had been rolled, the structure was uniformly compact, the
-color of the fracture greenish, and it possessed in a high degree the caseous
-odor.</p>
-
-<p>The fracture was unusually sensitive to the action of moisture. By
-merely breathing upon a freshly exposed surface, a film resembling the
-bloom upon fruit was at once perceived. Its specific gravity was 1,209,
-which, it will be observed, approximates with unusual accuracy to that
-given by Pereira as the specific gravity of true scammony, viz. 1,210. It
-contained―</p>
-
-<div class="dtablebox"><div class="nowrap">
-<table summary="">
-<tr>
- <td class="pleft">Resinous matter and water</td>
- <td class="pleft">89.53 per cent.</td></tr>
-<tr>
- <td class="pleft">Vegetable substance insoluble in ether</td>
- <td class="pleft">&#x2007;7.55 per cent.</td></tr>
-<tr>
- <td class="pleft">Inorganic matter</td>
- <td class="pleft">&#x2007;2.92 per cent.</td></tr>
-</table></div></div><!--dtablebox-->
-
-<p>There was no starchy matter present in the portion examined.</p>
-
-<p>The mode of deciding upon the value or goodness of different samples
-of scammony, by ascertaining the amount of matter soluble in sulphuric
-ether, has seemed to me productive of a negative
-result in showing <span class="xxpn" id="p009">{9}</span>
-how much non-resinous matter was present, rather than a certain
-method of ascertaining the actual amount of scammony resin present;
-but some experiments upon the resinous residuum lead to a more favorable
-conclusion.</p>
-
-<p>The results of the analyses made by Johnston, who seems to be the
-only chemist who has paid any attention to its ultimate composition, show
-that it varies in composition materially from many other resins.</p>
-
-<div class="dtablebox">
-<table summary="">
-<tr>
- <td class="pleft">According to his analyses, as contained in Löwig, it has the formula</td>
- <td class="pright">C<sub>40</sub>&#x202f;H<sub>33</sub>&#x202f;O<sub>8</sub></td></tr>
-<tr>
- <td class="pleft">While that of Guaiac resin is</td>
- <td class="pright">C<sub>40</sub>&#x202f;H<sub>23</sub>&#x202f;O<sub>10</sub></td></tr>
-<tr>
- <td class="pleft">Of Colophony</td>
- <td class="pright">C<sub>40</sub>&#x202f;H<sub>30</sub>&#x202f;O<sub>4</sub></td></tr>
-</table>
-
-<p class="pcontinue">Or expressed in per cents:―</p>
-
-<table summary="">
-<tr>
- <th></th>
- <th>Scammony.</th>
- <th>Guaiac.</th>
- <th>Colophony.</th></tr>
-<tr>
- <td class="pleft">Carbon</td>
- <td class="pright">56.08</td>
- <td class="pright">70.37</td>
- <td class="pright">79.81</td></tr>
-<tr>
- <td class="pleft">Hydrogen</td>
- <td class="pright">7.93</td>
- <td class="pright">6.60</td>
- <td class="pright">9.77</td></tr>
-<tr>
- <td class="pleft">Oxygen</td>
- <td class="pright">35.99</td>
- <td class="pright">23.03</td>
- <td class="pright">10.42</td></tr>
-<tr>
- <td class="pright"></td>
- <td class="pright"><span class="tdsum">100.00</span></td>
- <td class="pright"><span class="tdsum">100.00</span></td>
- <td class="pright"><span class="tdsum">100.00</span></td></tr>
-</table>
-</div><!--dtablebox-->
-
-<p>The resin analysed by Johnston was obtained by evaporating the
-alcoholic solution, and he describes it as opaque, pale yellow, hard, and
-brittle; when obtained, however, by evaporating the ethereal solution I
-have found it transparent.</p>
-
-<p>It might be inferred that, with a composition so different from that of
-the substances above adduced, its behavior with re-agents would be different
-from theirs; and its action with strong acids confirms the supposition,
-as may be seen by reference to the appended papers from a late number
-of the Paris Journal of Pharmacy.</p>
-
-<p>The Edinburgh Pharmacopœia has an extract of scammony among its
-officinal preparations, prepared by treating scammony with proof spirit,
-and evaporating the solution. It is described as of a dirty greenish
-brown color. This color, however, is not a necessary accompaniment, but
-is owing either to some coloring matter being dissolved in the menstruum
-or to the partial oxydation of the dissolved substance under the influence
-of the air and the heat of the operation.</p>
-
-<p>The ethereal solution of scammony resin, when gradually evaporated,
-and without exposure to heat, leaves a colorless or amber-colored resin,
-perfectly transparent and soluble in alcohol; when
-heated, however, <span class="xxpn" id="p010">{10}</span>
-during the operation, more or less insoluble matter of a dark color is found.
-Sometimes the ethereal solution, when spontaneously evaporated, leaves a
-dark residuum, but a second solution and evaporation leave it as above
-described.</p>
-
-<p>This product, obtained from several different parcels of virgin scammony,
-I have considered free from admixture with any of the substances
-with which scammony is said to be adulterated, and from the similarity of
-their behavior, and, as the circumstances under which the sample from
-Trieste above alluded to was obtained are such as to make its genuineness
-very certain, feel warranted in so doing.</p>
-
-<p>Sulphuric acid does not immediately decompose it, but produces the
-effect described by M. Thorel.</p>
-
-<p>Nitric acid produces no discoloration, nor does hydrochloric acid immediately.</p>
-
-<p>If scammony should be adulterated with colophony, sulphuric acid
-would be a very ready method of detection, though it would seem that
-this substance would hardly be resorted to, unless an entirely new mode
-of sophisticating the article should be adopted abroad.</p>
-
-<p>The introduction of farinaceous substances and chalk is effected while
-the scammony is in a soft condition, in which state it would be difficult to
-incorporate colophony completely with the mass.</p>
-
-<p>An admixture of resin of guaiac is also detected by the same agent, a
-fact which seems to have escaped observation.</p>
-
-<p>When brought in contact with sulphuric acid, resin of guaiac immediately
-assumes a deep crimson hue, and this reaction is so distinct that a
-proportion of not more than four or five per cent. is readily detected.</p>
-
-<p>The deep red mixture of sulphuric acid with resin of guaiac becomes
-green when diluted with water, a remarkable change, which adds to the
-efficacy of the test. Scammony resin, on the contrary, suffers no alteration
-by dilution.</p>
-
-<p>In addition, nitric acid affords a ready mode of ascertaining the presence
-of resin of guaiac. It is well known that nitric acid, when mixed with
-an alcoholic solution of guaiac, causes a deep green color, which soon
-passes into brown, or if the solution is dilute, into yellow.</p>
-
-<p>This reaction is manifest when scammony resin is mixed with guaiac
-resin in the proportion above mentioned, though the greenish blue tinge is
-then very transient, and sometimes not readily perceived.</p>
-
-<p>Chloride of soda is a delicate test for the presence
-of guaiac resin. <span class="xxpn" id="p011">{11}</span>
-Added to an alcoholic solution, a beautiful green color appears, while it
-produces no effect on scammony resin. This reaction is very evident, though
-transient, when a very small proportion of guaiac is present. Nitrate of
-silver causes a blue color in a solution of guaiac resin, as does also sesqui-chloride
-of iron, neither of which agents affects the color of a solution of
-scammony resin. In fact, the evidences of the presence of guaiac are so
-numerous and distinct that there can be no possibility of an undetected
-adulteration with this substance.</p>
-
-<p>The high price of resin of jalap would seem to be sufficient to prevent
-its being resorted to as a means of sophisticating scammony; but in case
-this substance should be made use of, the method proposed for detecting
-it by means of ether is defective, since, according to authorities, resin of
-jalap is partially soluble in that substance.</p>
-
-<p>It becomes of interest to know whether in the preparation of scammony
-the juice of the plant from which it is obtained is ever mixed with
-that of other plants of similar properties, or with that of plants destitute
-of efficacy. This information can, of course, only be furnished by those
-familiar with the localities and with the mode of its preparation.</p>
-
-<blockquote>
-
-<p><a class="aftntanc" href="#fn1" id="fnanch1">1</a>“In
-advancing the opinion that scammony should only be employed for
-therapeutic purposes in the state of resin, I mean that this resin should
-only be prepared by the apothecary himself. When, however, it is
-impossible for the apothecary to do so, and the commercial article is in consequence
-resorted to, there arises a liability to deception. We must then
-be enabled to recognise its purity.</p>
-
-<p>To avoid detection of the fraud, the admixture must either be in small
-quantity, or it must possess nearly the same action. In this latter case,
-resin of jalap would be employed as being less in price and nearly as
-active.</p>
-
-<p>The method I propose for detecting an adulteration of this nature, in
-case it should be attempted, is based on the one side upon the entire
-insolubility of resin of jalap in rectified sulphuric ether, and on the other,
-upon the solubility of scammony resin in this liquid. Nothing is easier
-than the detection of a mixture of these two resins, since eight grammes
-of ether dissolve completely ten centigrammes
-of scammony resin. <span class="xxpn" id="p012">{12}</span></p>
-
-<p>Thus by agitating for a short time a mixture of twenty centigrammes
-of suspected resin with sixteen grammes of sulphuric ether, we shall be
-certain of the presence of resin of jalap, provided there is no other admixture,
-if a portion remains undissolved. This undissolved portion, dried
-and weighed, gives the proportion of the two resins.</p>
-
-<p>Other more culpable sophistications may be attempted, either by the
-addition of resin of guaiac, or by that of colophony or other substances.</p>
-
-<p>The resin of guaiac may easily be detected by means of the solution of
-gum, which I have specified as one of the most certain re-agents (Repertoire
-du Pharmacien, vol. iv., 1848), or by the means of nitrous gas, or
-bichloride of mercury.</p>
-
-<p>Many re-agents disclose the presence of common resin or of pitch in
-the resin of scammony. First, spirits of turpentine, which dissolves the
-common resin at the ordinary temperature, and which leaves scammony
-resin almost untouched. The most certain re-agent, however, in my opinion,
-is sulphuric acid. This acid possesses the property of dissolving
-many resins—modifying their composition more or less.</p>
-
-<p>Thus, if a small quantity is poured on common resin, an intense red
-color is produced by contact; poured on scammony resin, on the contrary,
-it does not produce an immediate change; only after some minutes,
-and with exposure to the air, does it become colored, and then but feebly,
-with the production of a color resembling the lees of wine, while in the
-first case the color is a very deep scarlet.</p>
-
-<p>By this method one twentieth part of colophony may be detected in
-scammony resin. It is sufficient to pour upon twenty-five or thirty centigrammes
-of resin, placed in a glass or porcelain mortar, four or five
-grammes of commercial sulphuric acid, and to give one or two turns of
-the pestle; if colophony is present, the mixture will redden immediately
-upon contact; if, on the contrary, it is pure, the liquid will only become
-colored after the lapse of some time.</p>
-
-<p>Colophony being more soluble in sulphuric acid is acted upon with
-more rapidity.”</p></blockquote>
-
-<blockquote>
-
-<p><a class="aftntanc" href="#fn2" id="fnanch2">2</a>“Scammony
-resin obtained by alcohol of 86 degrees occurs in form of
-powder or in thin transparent scales, if the alcoholic solution has been
-evaporated on a stove upon plates, or upon
-sheets of tin. <span class="xxpn" id="p013">{13}</span></p>
-
-<p>It is characterized by the peculiar odor of the substance from which it is
-obtained, the <i>odeur de brioche</i>, or of rancid butter.</p>
-
-<p>If scammony resin has been mixed with one twentieth of common
-resin, trituration in a mortar developes the odor of the latter to a sufficient
-degree to cause detection of the fraud. Heated in a tube, a peculiar
-odor manifests itself with sufficient distinctness to indicate its purity.</p>
-
-<p>This pure resin is soluble in all proportions in ether of 56 degrees (·752).
-This property affords a means of purifying it, by means of which it is
-obtained in thin flakes, by exposure to the air on plates.</p>
-
-<p>Solution of ammonia at 24 degrees (·910) dissolves scammony resin
-completely. The solution has a more or less green color. These different
-properties, which the resin of scammony, obtained by alcohol, possesses,
-are sufficiently distinct to assist in distinguishing it from other resins or to
-establish its purity.”</p>
-
-<p><i>December, 1851.</i></p></blockquote>
-
-<div class="dkeeptogether">
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch1" id="fn1">1</a>
-Methods for detecting Resin of Jalap, Resin of Guaiac, and Colophony, in Resin of Scammony.
-By <span class="smcap">M<b>R.</b></span>
-<span class="smcap">T<b>HOREL.</b></span>—<i>From the Journal de Pharmacie et de Chimie,
-for Nov. 1851.</i></p></div>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch2" id="fn2">2</a>
-Note by <span class="smcap">M<b>R.</b></span>
-<span class="smcap">D<b>UBLANC.</b></span>—<i>From the Journal de Pharmacie et de
-Chimie, Nov. 1851.</i></p></div>
-
-<hr class="hr34" />
-</div>
-
-<div class="section">
-<h3>ON THE PREPARATION OF STRAMONIUM OINTMENT. <span class="hsmall">
-BY EUGENE DUPUY, PHARMACEUTIST, NEW YORK CITY.</span></h3>
-</div><!--section-->
-
-<p>The powerful narcotic and sedative properties of the Datura stramonium;
-added to the fact of its luxuriant growth in the vacant grounds of the
-inhabited districts of the United States, has made its use popular with
-most of our practising physicians. Besides its use smoked as tobacco in
-asthmatic cases, its properties analogous to those of hyosciamus and belladonna,
-have enabled practitioners to use it with success for producing dilatation
-of the pupil and in anodyne fomentations. In fact, the consequence
-of its demonstrated efficient activity as a remedial agent, has prompted
-its adoption in the United States Pharmacopœia, where the leaves and
-seeds are recognised, and the Tincture, Extract, and Ointment are officinal.
-According to our Pharmacopœia, last edition, to prepare the ointment, one
-drachm of the extract of stramonium is mixed to the proportion of one ounce
-of lard. Such a mixture, though possibly as effectual as need be, lacks the
-green color and homogeneity to which both patients and physicians have
-been accustomed. To remedy these objections, I have
-found the <span class="xxpn" id="p014">{14}</span>
-following process to give a good preparation both in quality and appearance.
-I am inclined to think that the objections which have been made to the
-former officinal ointment are chiefly ascribable to the difficulty of obtaining
-readily an ointment which would keep one year, that is free from
-water of vegetation or not impaired by a too protracted ebullition, and
-consequent decomposition, which deprives it of its properties, spoiling its
-appearance, and giving it an unpleasant pyrogenous odor, which shows
-the extent of the alteration it has undergone, making of it an irritating
-rather than a soothing unguent. In the process I now submit to the
-opinion of the profession, I had in view, 1st. To obtain at all seasons an
-ointment fulfilling the reasonable expectations of practitioners; 2d. Which
-could be easily prepared by competent Phar­ma­ceu­tists throughout the
-United States. It is as follows:</p>
-
-<div class="dtablebox"><div class="nowrap">
-<table summary="">
-<tr>
- <td class="pleft">Stramonium Leaves,</td>
- <td class="pleft">half a pound.</td></tr>
-<tr>
- <td class="pleft">Alcohol at 95°,</td>
- <td class="pleft">a sufficient quantity.</td></tr>
-<tr>
- <td class="pleft">Prepared lard,</td>
- <td class="pleft">fourteen ounces.</td></tr>
-</table></div></div>
-
-<div class="dkeeptogether">
-<p>Moisten the leaves, previously reduced to a coarse powder, with sufficient
-alcohol, in a tight vessel having a suitable cover; melt the lard in a
-pan three times in capacity to the bulk of the lard, and stir in it gradually
-the prepared stramonium; keep the mixture in a warm place for five
-hours, stirring occasionally, till the alcohol has disappeared from the ointment,
-which may be ascertained by placing a lighted match on the
-surface of the warm ointment just stirred. Filter the mixture through
-flannel, in an appropriate vessel. The stramonium ointment thus prepared
-is a reliable preparation, possessed of a handsome green color, a rather
-pleasant herbaceous odor, and forms a homogeneous mass containing all
-the valuable constituents of the Datura stramonium, if the leaves have
-been gathered while the plant is in bud, and properly preserved. For
-the warm days of summer the substitution of two ounces of beeswax for
-the same quantity of lard gives it the consistence which it has at the
-low temperature of the remaining seasons.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div><span class="xxpn" id="p015">{15}</span></div>
-<h3>COMPOUND FLUID EXTRACT OF SENNA AND
-DANDELION.
-<span class="hsmall">
-BY EUGENE DUPUY, PHARMACEUTIST, NEW YORK CITY.</span></h3>
-</div><!--section-->
-
-<div class="dtablebox"><div class="nowrap">
-<table summary="">
-<tr>
- <td class="pleft">Senna (officinal),</td>
- <td class="pleft">two pounds.</td></tr>
-<tr>
- <td class="pleft">Torrefied Dandelion Root,</td>
- <td class="pleft">one pound.</td></tr>
-<tr>
- <td class="pleft">Chamomile,</td>
- <td class="pleft">quarter of a pound.</td></tr>
-<tr>
- <td class="pleft">Sugar,</td>
- <td class="pleft">twenty ounces.</td></tr>
-<tr>
- <td class="pleft">Carbonate of Potash or Soda,</td>
- <td class="pleft">one ounce.</td></tr>
-<tr>
- <td class="pleft">Oil of Gaultheria,</td>
- <td class="pleft">half a drachm.</td></tr>
-<tr>
- <td class="pleft">Alcohol,</td>
- <td class="pleft">two ounces.</td></tr>
-<tr>
- <td class="pleft">Water,</td>
- <td class="pleft">half a gallon.</td></tr>
-</table></div></div>
-
-<p>Mix the dry plants, previously reduced to a coarse powder, with the
-water holding the alkaline carbonate in solution; let the mixture stand
-twelve hours; introduce it in a percolator, and gradually pour in water
-until a gallon of liquid shall have passed; evaporate it to twenty ounces
-by means of a water bath, then add the sugar, filter, and make the addition
-of the alcoholic solution of gaultheria when cold. By following this
-process, I believe that a kind of saponification takes place, which allows of
-the more ready solution of the active principle of the senna in the
-aqueous vehicle, probably because chlorophylle being united to a dried
-essential oil, participating in the properties of resins, is rendered soluble, and
-the extractive portion being denuded of its resinoid covering, is more
-readily extracted by the percolating liquid. I make use of a percolator
-possessed of a convenient hydraulic power; it has rendered readily, within
-thirty hours, a highly saturated liquid, containing in a gallon all the
-soluble principles of this extract. Ordinary percolators will answer also;
-but the ingredients needing to be more loosely packed, do not yield so
-fully or so readily. The addition of torrefied dandelion root is intended
-to give to this fluid extract some greater value on account of its peculiar
-action on the hepatic system. I employ in preference the German chamomile
-(Camomila vulgaris<a class="aftntanc" href="#fn3" id="fnanch3">3</a>),
-because of its pleasant aroma and its carminative
-properties, joined to a bitter principle, which seems to increase
-the purgative effect of the senna.</p>
-
-<div class="dkeeptogether">
-<p>This extract has become a favorite anti-bilious purgative
-with many of <span class="xxpn" id="p016">{16}</span>
-our practitioners, who, some of them at least, have used it with success
-with children, who can take it readily, as well as for adults, where an
-anti-bilious purgative is desirable, seldom producing pain or nausea, and
-not liable to induce constipation.</p>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch3" id="fn3">3</a>
-Matricaria.</p></div>
-
-<hr class="hr34" />
-</div>
-
-<div class="section">
-<h3>ACCIDENTS CAUSED BY A VERY SMALL DOSE OF
-SANTONINE GIVEN TO A CHILD.</h3>
-</div><!--section-->
-
-<p>Santonine, being a tasteless vermifuge, is easily given to children, consequently
-its employment becomes daily more and more frequent; we
-therefore think it useful to expose the accidents which may follow the use
-of this medicine, when given in too large a dose. We refer to a case
-given in the Bulletin de Thérapeutique, by Dr. Spengler (d’Herborn).
-The patient, a child of four years old, who had been suffering for several
-months from intestinal worms, had taken at different times, and with
-success, a dose of a grain and a half. One day they gave him three
-grains in two doses; after the first dose he became troubled with pains in
-the epigastrium, colic, and vomiting. He had frequent stools, in which
-were found a number of ascarides. Notwithstanding these numerous
-evacuations, the bad symptoms continued to increase; his body became
-cold, his face livid, his eyes had a blue circle round them, a cold sweat
-broke out, his respiration became embarrassed, and his extremities convulsed.
-Besides these symptoms, M. Spengler mentions that there were
-dilatation of the pupils and great pain in the abdomen (not, however,
-increased by pressure). He prescribed milk in abundance, and after
-several evacuations, the potion of Rivière in an oily emulsion. The little
-patient was placed in a very warm bed; during the night he was much
-disturbed; the following day he took some doses of calomel, after which
-several worms were evacuated, and from that time he became convalescent.
-We have related this fact as a caution against the accidents which
-may result from the use of santonine, although the severity of the symptoms
-and the smallness of the dose may make us doubt whether the
-santonine was pure, or whether some other cause might not have produced
-the terrible results attributed to it.—<i>Journal de Pharmacie et
-Chimie.</i></p>
-
-<hr class="hr34" />
-
-<div class="section">
-<div><span class="xxpn" id="p017">{17}</span></div>
-<h3>ON POISONING BY NICOTINE.
-<span class="hsmall">
-<i>Read before the National Academy of Medicine.</i></span>
-<span class="hsmall">
-BY M. ORFILA.</span></h3>
-</div><!--section-->
-
-<p><span class="smcap">G<b>ENTLEMEN,</b></span>—In laying before the Academy a memoir on Nicotine, on
-the 20th of last month, I stated that I did not think I ought to read it,
-fearing that it might exercise some influence on the proceedings which
-were to take place at Mons, eight days afterwards. My scruples are now
-entirely removed, because I was present at the three first sittings of the
-Court of Assizes at Hainault, and have heard the examination of the
-accused persons, and the depositions of some of the witnesses. My memoir,
-supposing it to be published to-morrow, and consequently much
-before the sentence will have been pronounced, will not aggravate the
-situation of the accused, nor increase the power of the ministers of justice.
-You will see, in fact, that after describing nicotine, I came to the conclusion,
-that it may be easily detected in the digestive canal, the liver, the
-lungs, and all those organs into which it has been carried after its absorption.
-Now, M. de Bocarmé confesses that he prepared some nicotine, that
-Gustave Fougnies took an appreciable dose of it, and died very shortly
-afterwards. Consequently, he cannot dispute the fact of M. Stas having
-found this alkaloid in the body of his brother-in-law. It is of little importance
-to us that Madame de Bocarmé accuses her husband of being
-the author of the crime, whilst he, on the other hand, attributes the death
-of Gustave to a mistake of his wife’s, who might inadvertently have poured
-the nicotine into a glass instead of wine. It will be for the jury to decide
-what truth there is in these assertions; as scientific men, we ought to
-confine ourselves in this case to the solution of the chemical and medical
-problems relating to this subject.</p>
-
-<p>I think I ought to read to the Academy the textual memoir, without
-the preamble, which I composed a fortnight ago, when the principal circumstances,
-which have since been developed, were but imperfectly known.</p>
-
-<p>The principal object of this paper is to show:―</p>
-
-<p>1. That we may characterize pure nicotine as easily as we can a poison
-derived from the mineral kingdom.</p>
-
-<p>2. That we may detect this alkali in the digestive canal, and assert its
-existence there, although it is present only to the extent of
-a few drops. <span class="xxpn" id="p018">{18}</span></p>
-
-<p>3. That it is sufficiently easy to prove its presence in the liver and the
-other organs, after it has been absorbed.</p>
-
-<p>1. <i>Pure Nicotine may be characterised as easily as a Poison derived
-from the Mineral Kingdom.</i>—Nicotine, discovered in 1809 by the illustrious
-Vauquelin, was studied in 1828 by Messrs. Posselt and Reimann,
-who found it in different species of nicotiana, in macrophylla rustica, and
-glutinosa. Messrs. Boutron, Charlard, and Henry described some of its
-properties in 1836. Havanna tobacco contains two per cent., that of
-Maryland 2·3, that of Virginia 6·9, that of Alsace 3·2, that of Pas-de-Calais
-4·9, that of the Nord 6·6, and that of Lot 8. It is classed among
-the <i>natural volatile</i> vegetable alkalies, which are only three in number,
-namely, <i>conicine</i>, <i>theobromine</i>, and <i>nicotine</i>. This last is entirely composed
-of hydrogen, carbon, and nitrogen. It may be represented as a compound
-of one equivalent of ammonia (H<sub>3</sub>N), and of one of a hydro-carbon containing
-four equivalents of hydrogen and ten of carbon (H<sub>4</sub>C<sub>10</sub>). It is now
-obtained by a much more simple process than was formerly adopted,
-which consists in passing the vapor of tobacco into water acidulated with
-sulphuric acid. Sulphate of nicotine is thus speedily produced, and this
-has to be decomposed by a strong alkali. It is then only necessary to
-apply sufficient heat to volatilize the nicotine. This mode of preparation
-indicates that smokers in respiring the smoke of tobacco introduce into
-their bodies a certain quantity of the vapor of nicotine.</p>
-
-<p><i>Characters of pure Nicotine.</i>—It is in the form of an oleaginous,
-transparent, colorless, tolerably fluid, anhydrous liquid, of the density of
-1·048, becoming slightly yellow with keeping, and tending to become
-brown and thick from contact with the air from which it absorbs oxygen;
-its acrid odor resembles but slightly that of tobacco; its taste is very
-burning. It volatilizes at 77° F., and leaves a carbonaceous residue.
-The vapor which rises presents such a powerful smell of tobacco, and is
-so irritating, that it is difficult to breathe in a room in which one drop of
-it has been spilt. If this vapor be approached with a lighted taper, it
-burns with a white smoky flame, and leaves a carbonaceous residue as an
-essential oil would do. It <i>strongly blues</i> reddened litmus paper. <i>It is
-very soluble in water</i>, in alcohols, and in fat oils, as also in <i>ether</i>, which
-easily separates it from an aqueous solution. The great solubility of
-nicotine in both water and ether forms an important fact in its chemical
-history, as the greater number of vegetable alkalies, not to say all, if they
-dissolve easily in one of these liquids, are not readily soluble
-in the other. <span class="xxpn" id="p019">{19}</span></p>
-
-<p>Nicotine combines directly with acids, disengaging heat. Concentrated
-pure sulphuric acid, without heat, produces with it a wine-red color; on
-the application of heat to this it becomes thick, and acquires the color of
-the dregs of wine; if it be boiled it blackens and disengages sulphurous
-acid. With cold hydrochloric acid it disengages white vapors as ammonia
-does; if the mixture be heated it acquires a violet color, the intensity
-of which increases with prolonged ebullition. Nitric acid, aided with a
-little heat, imparts to it an orange-yellow color, and white vapors of
-nitric acid are first given off, then red vapors of hyponitrous acid. If it
-be further heated the liquor becomes yellow, and by ebullition it acquires
-a red color resembling that of chloride of platinum. Prolonged ebullition
-gives a black mass. Heated with stearic acid it dissolves and forms a
-soap, which congeals on cooling, and is slightly soluble in water, and very
-soluble in heated ether. The simple salts of nicotine are deliquescent,
-and difficultly crystallizable. The double salts which it yields with the
-different metallic oxides crystallize better.</p>
-
-<p>The aqueous solution of nicotine is colorless, transparent, and strongly
-alkaline. It acts like ammonia on several reagents; thus, it gives a white
-precipitate with bichloride of mercury, acetate of lead, protochloride and
-bichloride of tin; a canary yellow precipitate with chloride of platinum,
-which precipitate is soluble in water; a white precipitate with salts of zinc,
-which is soluble in excess of nicotine; a blue precipitate with acetate of copper.
-This precipitate is gelatinous and soluble in excess of nicotine, forming
-a blue double acetate, similar to that formed by ammonia with the same
-salt. It gives an ochre-yellow precipitate with salts of the sesqui-oxide of
-iron, insoluble in excess of nicotine. With sulphate of protoxide of manganese
-it gives a white precipitate of oxide, which speedily becomes brown
-by contact with the oxygen of the air. It separates the green sesqui-oxide
-from the salts of chromium. The red permanganate of potash is
-instantly decolorized by nicotine, as by ammonia, although this latter
-alkali acts more slowly and must be used in larger proportion.</p>
-
-<p>The following reactions may serve to distinguish the aqueous solutions
-of nicotine from ammonia. Chloride of gold yields a reddish-yellow precipitate,
-<i>very soluble in an excess of nicotine</i>. Chloride of cobalt yields a
-blue precipitate, which changes to green; the oxide thus formed does not
-readily dissolve in excess of nicotine, whilst ammonia dissolves the green
-precipitate and forms a red solution. Aqueous solution of iodine gives a
-yellow precipitate with solution of nicotine, as chloride
-of platinum would <span class="xxpn" id="p020">{20}</span>
-do; with an excess of nicotine it acquires a straw color, and it is decolorized
-by the action of heat. Ammonia, on the contrary, immediately
-decolorizes the aqueous solution of iodine without rendering it turbid.
-Pure tannic acid gives with nicotine an abundant white precipitate.
-Ammonia gives no precipitate, but imparts a red
-color.<a class="aftntanc" href="#fn4" id="fnanch4">4</a></p>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch4" id="fn4">4</a>
-It is interesting to compare the physical and chemical properties of nicotine with
-those of conicine.</p>
-
-<p>Conicine is yellow; <i>its smell resembles that of the urine of the mouse</i>, and differs
-entirely from that of nicotine; it strongly blues reddened litmus paper. Added to
-water and shaken with it, it floats on the surface and is not readily dissolved. Ether
-dissolves it easily. When heated in a capsule it forms white vapors, <i>having a strong
-smell of celery mixed with that of the urine of the mouse</i>. Weak tincture of
-the iodine yields a white precipitate, which acquires an olive color with excess of
-the tincture. Pure and concentrated sulphuric acid <i>does not alter it</i>; when the mixture
-is heated it acquires a greenish brown color, and if the heat be continued it
-becomes blood-red and afterwards black. Nitric acid imparts to it a <i>topaz color</i>,
-which is not changed by the action of heat. Hydrochloric acid yields white vapors
-as ammonia does, and renders it violet, especially when heated. Tannic acid gives
-a white precipitate, and chloride of platinum a yellow precipitate. The red permanganate
-of potash is immediately decolorized. Corrosive sublimate yields a
-white precipitate. Acetate of copper gives a gelatinous blue precipitate, less soluble
-in an excess of conicine than is that formed with nicotine. Chloride of cobalt behaves
-with it as it does with nicotine. Chloride of gold gives a light yellow precipitate.
-<i>Neutral acetate of lead does not give any precipitate</i>; neither does the subacetate.
-Chloride of zinc gives a white gelatinous precipitate soluble in excess of the conicine.
-Sulphate of sesquioxide of iron gives a yellow precipitate. The words in italics
-indicate the means of distinguishing
-conicine from nicotine.</p></div>
-
-<p>If to these chemical characters which permit one so easily to distinguish
-nicotine, we add those resulting from the action which it exercises on the
-animal economy, it will no longer be possible to confound it with any other
-body. The following are the results of the experiments I undertook in
-1842 on this alkali, and which I published in 1843. (See the 4th edition
-of my work on Toxicology.)</p>
-
-<p><i>First Experiment.</i>—I applied three drops of nicotine on the tongue of
-a small but sufficiently robust dog; immediately afterwards, the animal
-became giddy, and voided urine; at the end of a minute, its breathing
-was quick and panting. This state lasted for forty seconds, and then the
-animal fell on its right side, and appeared intoxicated. Far from showing
-any stiffness or convulsions, it was feeble and flabby, although the fore
-paws slightly trembled. Five minutes after the
-ad­min­i­stra­tion of the <span class="xxpn" id="p021">{21}</span>
-poison, he uttered plaintive cries, and slightly stiffened his neck, carrying
-his head slightly backwards. The pupils were excessively dilated; the
-respiration was calm, and in no way accelerated. This state lasted ten
-minutes, during which the animal was not able to stand. From this time
-the effects appeared to diminish, and soon after it might have been predicted
-that they would speedily disappear entirely. Next day, the animal was
-quite well. The nicotine I used was evidently not anhydrous.</p>
-
-<p><i>Second Experiment.</i>—I repeated the experiment with five drops of
-nicotine on a dog of the same description. The animal showed the same
-effects, and died at the end of ten minutes, although during four minutes
-he showed slight convulsive movements.</p>
-
-<p><i>Opening of the Body the day following.</i>—The membranes of the brain
-were slightly injected, and the superficial vessels were gorged with blood;
-this injection was especially observed on the left side, and in the lower
-part of the brain. The brain itself of the ordinary consistence, had the
-two substances of which it is composed, slightly disintegrated, the striated
-substance was much injected, as well as the <i>pons varolii</i>. The membranes
-which envelope the cerebellum were still more injected than the other
-parts. Between the first and second cervical vertebræ on the right side,
-that is, on the side on which the animal fell, there was a rather considerable
-effusion of blood. The lungs appeared to be in their natural state.
-The heart, the vessels of which were gorged with blood, was greatly distended,
-especially on the right side, with clots of blood; the auricles and
-the right ventricle containing much, and the left ventricle none. The
-superior and inferior <i>vena cava</i>, and the aorta, were equally distended with
-clots of semi-fluid blood. The tongue was corroded along the middle line,
-and towards the posterior part, where the epithelium separated with
-facility. In the interior of the stomach there were found a black pitchy
-matter and a bloody liquid, which appeared to have resulted from an
-exudation of blood. The duodenum was inflamed in patches; the rest of
-the intestinal canal appeared in a healthy state.</p>
-
-<p>Since the above period I have made the following experiments, which I
-have frequently repeated with the same results, only that in some cases I
-have found the blood contained in the cavities of the heart in a fluid state,
-even when proceeding to dissection immediately after death; nevertheless
-the blood speedily coagulated.</p>
-
-<p><i>Third Experiment.</i>—At eleven o’clock I administered, to a dog of
-moderate size, twelve drops of nicotine. A few
-instants afterwards <span class="xxpn" id="p022">{22}</span>
-giddiness came on, and <i>he fell on the right side</i>; he soon manifested convulsive
-movements, slightly at first, then sufficiently strong to constitute a tetanic
-fit with opisthotonos; he was in a remarkable state of drowsiness, and
-uttered no cry. His pupils were dilated; there was no action of the
-bowels, nor vomiting. He died at two minutes after eleven. The body
-was immediately opened. The abdomen and thorax, on being cut open,
-<i>sometimes</i> emitted a very decided smell of tobacco. The heart contained
-a considerable quantity of <i>black coagulated</i> blood. There was more in the
-right auricle and ventricle than in the left. The lungs appeared in a normal
-state. The stomach contained about forty grammes of a thick, yellow,
-slimy liquid; and here and there parts of the mucous membrane were
-inflamed. The œsophagus, the intestines, the liver, the spleen, and the
-kidneys, were in a normal state. The epithelium was easily detached from
-the tongue; the base of this organ was red and slightly excoriated. The
-brain was more injected than its enveloping membranes; the <i>pons varolii</i>
-was the same as in the second experiment.</p>
-
-<p><i>Fourth Experiment.</i>—I applied on the eye of a dog of moderate size
-one drop of nicotine; the animal instantly became giddy and weak in its
-limbs; a minute afterwards he fell on his right side and manifested convulsive
-fits, which became more and more powerful; the head was thrown
-back. At the end of two minutes the convulsions ceased, and extreme
-weakness ensued. Five minutes afterwards the animal could stand, but
-was unable to walk. Ten minutes later he was in the same state without
-having vomited or had any action of the bowels. Urged to walk, he made
-a few undecided steps, then vomited about one hundred grammes of a
-greyish alimentary paste. At the end of half an hour he was in the same
-state. It was evident that he was recovering. The conjunctiva was
-sensibly inflamed, and the transparent cornea was, to a great extent,
-opaque.</p>
-
-<p>2. <i>We may detect nicotine in the digestive canal, and affirm its existence
-there, although it may be only present to the extent of a few drops.</i> I
-would call the particular attention of the Academy to this paragraph; I
-have never, in the course of my numerous experiments, seen animals whose
-death has been almost instantaneous, either vomit or have any action of
-the bowels.<a class="aftntanc" href="#fn5" id="fnanch5">5</a>
-If it be the same with man, as everything tends to prove
-it is, the Chemist will, under such circumstances, be in
-the most favorable <span class="xxpn" id="p023">{23}</span>
-condition for detecting the poison, as there will most frequently be a sufficient
-quantity in the canal to determine its presence.</p>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch5" id="fn5">5</a>
-If life is prolonged
-the animals vomit.</p></div>
-
-<p>Before describing the two processes to which I had recourse for the
-determining the existence of nicotine in the stomach and intestines, as well
-as in the œsophagus, it may be observed that I acted separately on the
-liquid and solid matters contained in these organs, and on the organs themselves.</p>
-
-<p><i>First Process.</i>—The contents of the stomach and intestines, or the
-organs themselves, are placed in a considerable proportion of sulphuric
-ether; after twelve hours of maceration, it is to be filtered; the ether
-passes through, holding nicotine in solution; most frequently when the
-matters on which the ether has acted are fatty, the ether holds in solution
-a soap composed of nicotine and one or several fatty acids; it may also
-happen that it contains non-saponified nicotine. The ethereal liquid is
-evaporated almost to dryness by very gentle heat. The greasy and soapy
-product obtained rarely shows any alkaline reaction. It is to be agitated,
-without heat, with caustic soda dissolved in water, to decompose the soap
-and set free the nicotine. The whole is then to be put into a retort
-furnished with a receiver plunged in cold water, and heat applied to the
-retort until no more liquid remains in it. The liquid condensed in the
-receiver contains either all, or at least a large proportion of the nicotine.
-It is well to know that, 1st, when heat is applied to the retort, the matter
-froths, augments in volume, and would certainly pass into the receiver, if
-the retort was not very large in relation to the quantity of liquid operated
-upon; 2ndly, even at a temperature of 212° Fahr., the vapor of water
-carries with it a certain quantity of nicotine, therefore the operation should
-be carried on as much as possible in close vessels. If these precautions be
-observed, the distilled liquid will be limpid and colorless; it suffices then
-to concentrate it over a water-bath, to about a sixth of its volume, to
-obtain with it all the reactions of nicotine.</p>
-
-<p><i>Second Process.</i>—The method of which I am now going to speak is
-evidently superior to the preceding. The matters contained in the stomach
-and intestines, or the organs themselves, as well as the œsophagus, are
-macerated in water acidulated by pure and concentrated sulphuric acid,
-taking, for instance, four or five drops of acid to one hundred and fifty or
-two hundred grammes of water. At the end of twelve hours it is to be
-filtered; the liquid, which is generally of a yellow color, contains sulphate
-of nicotine and a certain quantity of organic matter. It is
-then to be <span class="xxpn" id="p024">{24}</span>
-evaporated almost to dryness in close vessels over a water-bath; then
-treated with a few grammes of distilled water which dissolves the sulphate
-of nicotine, leaving the greater part of the organic matter undissolved; it
-is now to be filtered; the filtered liquor is to be saturated with a little pure
-hydrate of soda or potash, in order to take the sulphuric acid, and set
-free the nicotine. The mixture of nicotine and of sulphate of soda or
-potash is to be put into a retort, and heated as described in the first process;
-the distilled liquid is to be evaporated over a water-bath in order to
-concentrate the solution of nicotine.</p>
-
-<p>Instead of distilling the liquor by heat, I have often treated it with ether;
-this latter decanted and submitted to spontaneous evaporation leaves the
-nicotine.</p>
-
-<p>Everything tends to show that nicotine may be detected by other processes.
-Thus by treating the digestive canal with absolute alcohol, with
-the addition of a little soda, it would be dissolved, and by the reaction of
-the soda, a soap would be formed with the fatty matter, which would set
-free the nicotine; it would then only remain to distil it by heat, after having
-evaporated to dryness. Perhaps, also, it might be separated by acting
-on the tissues with pure soda or potash, then evaporating to dryness and
-heating it in closed vessels.</p>
-
-<p>3. <i>It is sufficiently easy to prove the presence of nicotine in the
-liver and other organs after it has been absorbed.</i>—In 1839 when I had
-shown that poisons after having been absorbed might be extracted from
-the organs where they had been carried with the blood, I insisted so
-strongly on the necessity of examining these organs with a view to the
-detection of poisons, that it has now become the custom to proceed in this
-way. How often does it happen, that, in consequence of repeated vomiting
-and action of the bowels, and also from complete absorption having
-taken place, there remains no trace of the poison in the digestive canal?
-Moreover, it is evident, that, in getting the poison from the organs to which
-it has been carried by absorption, we obtain, in reality, that portion of the
-poison which has been the cause of death, unless it be shown that it was
-carried to those organs after death by absorption. M. Stas has conformed,
-most wisely, to this precept. For my part, I could not, in my researches,
-neglect this important branch of the investigation. The livers of those
-animals which I had poisoned with twelve or fifteen drops of nicotine,
-when submitted to one or other of the processes I have described, furnished
-me with appreciable quantities of this alkali. I scarcely
-obtained any from <span class="xxpn" id="p025">{25}</span>
-the blood contained in the heart, but I had only operated upon a few
-grammes. Moreover, experience teaches that a great number of poisons
-absorbed rapidly pass from the blood into the organs, and most especially
-into the liver.</p>
-
-<p>It may be readily conceived that the research for absorbed nicotine might
-be fruitless in those cases where death was occasioned by only a few drops
-of this body; but then the presence of the alkali may be detected in the
-digestive canal.</p>
-
-<p>Gentlemen, after results such as those obtained by M. Stas and myself,
-society may feel satisfied. Without doubt intelligent and skilful criminals,
-intent on puzzling the Chemists, will sometimes have recourse to very
-active poisons, but little known to the community at large, and difficult to
-detect; but science is on the alert to surmount all difficulties. Penetrating
-to the recesses of our organs, she extracts evidence of the crime, and
-furnishes one of the great elements of conviction against the guilty. Do
-we not know that at the present time poisonings by morphine, brucine,
-strychnine, nicotine, conicine, hydrocyanic acid, and many other vegetable
-substances which were formerly believed to be inaccessible to our means
-of investigation, may be discovered and recognised in a manner to be perfectly
-char­ac­ter­is­tic?</p>
-
-<p>During my stay at Mons, and consequently since the deposit of this
-memoir, I have had at my disposal the complete and remarkable Report
-of M. Stas, and I have satisfied myself:―</p>
-
-<p>1st. That this Chemist has obtained nicotine from the tongue, from the
-stomach, and liquids contained in it, and also from the liver and lungs of
-Gustave Fougnies.</p>
-
-<div class="dkeeptogether">
-<p>2ndly. That he also obtained nicotine by properly treating the boards
-of the dining-room where Gustave died, although these boards had been
-washed with warm water, with oil, and with soap.—<i>Repertoire de Pharmacie.</i></p>
-
-<p>The Count Hippolyte Visarte de Bocarmé confessed his guilt, and was
-executed at Mons.</p>
-
-<hr class="hr34" />
-</div>
-
-<div class="section">
-<div><span class="xxpn" id="p026">{26}</span></div>
-<h3>ON THE ESTIMATION OF THE STRENGTH OF
-MEDICINAL HYDROCYANIC ACID, OF BITTER
-ALMOND WATER, AND OF CHERRY LAUREL
-WATER.
-<span class="hsmall">
-BY J. LIEBIG.</span></h3>
-</div><!--section-->
-
-<p>Liquids which contain prussic acid, and are mixed with caustic potash ley
-until they have a strong alkaline reaction, yield, on the gradual addition
-of a diluted solution of nitrate of silver, a precipitate, which, on being
-shaken, disappears to a certain extent. Alkaline liquids containing prussic
-acid, may also be mixed with a few drops of a solution of common salt
-without the production of any permanent precipitate, until at last, on an
-increased addition, chloride of silver falls down.</p>
-
-<p>This phenomenon depends on the fact that oxide of silver and chloride
-of silver are soluble in the generated cyanide of potassium, until there is
-found a double salt, composed of equal equivalents of cyanide of potassium
-and cyanide of silver, which is not decomposed by an excess of alkali.
-Liebig’s method of estimating the prussic acid consists in determining the
-quantity of silver which must be added to an alkaline liquid, containing
-prussic acid, until a precipitate appears. Each equivalent of silver corresponds
-to two equivalents of prussic acid. Having caused several experiments
-to be made, which prove the efficacy of this method; and having
-carefully observed that the presence of formic acid and muriatic acid in the
-prussic acid, does not interfere with the correctness of this method, the
-author gives the following directions for examining different liquids containing
-prussic acid:—The <i>aqua amygdalarum amarum</i> being turbid,
-must be clarified by the addition of a known quantity of water: 63 grs. of
-fused nitrate of silver are dissolved in 5937 grs. of water; 300 grs. of this
-liquid corresponds to 1 gr. of anhydrous prussic acid. Before applying
-the test, the vessel with the solution of silver is to be weighed, and of the
-latter so much is added to a weighed quantity (<i>e.g.</i> 60 grs.) of prussic
-acid, mixed with a small portion of potash ley and a few drops of a solution
-of common salt, shaking it in a common white medicine glass until a
-perceptible turbidness takes place, and does not disappear on shaking.
-The solution of silver is now again to be weighed; and supposing 360 grs.
-are found to have been employed for the test, the 60 grs. of the tested
-prussic acid contain 1,20 grs. anhydrous prussic acid, or 100 grs. contain
-two grains. <span class="xxpn" id="p027">{27}</span></p>
-
-<div class="dkeeptogether">
-<p><i>Aqua laurocerasi</i>, which the author examined, contained in one litre, one
-decigram, and the same quantity of <i>aqua amygdal. amar.</i> 7·5 decigrammes
-of anhydrous prussic acid.—(In Phar­ma­ceu­ti­cal Journal, from <i>Ann. de
-Chem. U. Pharm. Bd.</i> lxxvii.)</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div class="divhhang2"><h3 class="h3runin">
-<span class="smcap">T<b>HE</b></span>
-<span class="smcap">P<b>HARMACOPŒIA</b></span>
-<span class="smmaj">OF</span>
-<span class="smmaj">THE</span>
-<span class="smcap">U<b>NITED</b></span>
-<span class="smcap">S<b>TATES</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">A<b>MERICA.</b></span></h3>
-By authority of the National Convention, held at Washington A. D.
-1850. Philadelphia: Lippincott, Grambo &amp; Co. 1851.</div>
-</div><!--section-->
-
-<p>The appearance of a new edition of the Pharmacopœia is to the apothecary
-always a matter of high interest; to it he looks for the recognized
-improvements in the various processes which he has constantly to
-perform; by it essentially he is to be guided in all the officinal preparations
-which he makes; and from it he learns what new articles, by their
-intrinsic merits and through the vogue they have obtained, are deemed of
-sufficient importance to be recognized officinally as additions to the
-materia medica. The general arrangement of the new Pharmacopœia is
-the same as that of 1840. Owing to the wise principles which governed
-the earlier framers of the Pharmacopœia—though, from the progress of
-botanical science, the scientific names of the plants to which many of the
-articles of the vegetable materia medics are referred, have been changed,
-and with improvements in chemistry, the nomenclature of several salts
-has been altered—this has led to little alteration in the designations
-employed in the Pharmacopœia. Assafœtida is now referred to Narthex
-Assafetida, instead of Ferula A.; Diosma is, after the Edinburgh Pharmacopœia,
-termed Barosma; Camphor to Camphora officinarum; Cardamom
-to Elettaria Cardamomum; Cinchona flava to C. calisaya; Cinchona pallida
-to C. condaminea and C. micrantha, while the source of Cinchona
-rubra is not yet indicated. Colocynth is now termed the fruit of Citrullus
-colocynthis; kino is said to be the inspissated juice of Pterocarpus marsupium,
-and of other plants; quassia is referred to Simaruba excelsa, and
-uva ursi to Artostaphylos uva-ursi.</p>
-
-<p>Of the names of the articles of the materia medica, as was before
-stated, very few are changed. Myroxylon, of the old Pharmacopœia, is
-now Balsamum Peruvianum, Tolutanum,
-Balsamum Tolutanum; Diosma, <span class="xxpn" id="p028">{28}</span>
-after the Edinburgh Pharmacopœia, is now Buchu; Zinci carbonas is
-changed to the old name, calamina; iodinum, following the British Pharmacopœias,
-is iodinium, and brominum, brominium. Port wine has been
-introduced, and consequently, instead of the Vinum of 1840, we have
-now Vinum Album, Sherry, and Vinum Rubrum, Port Wine.</p>
-
-<p>The secondary list of the materia medica, a peculiarity of our national
-pharmacopœia, is still retained, to what good purpose it is hard to understand.
-The framers of the book state that “it has the advantage of permitting
-a discrimination between medicines of acknowledged value and
-others of less estimation, which, however, may still have claims to
-notice.” The advantage is not a very evident one. The distinction that
-is attempted is very difficult to make satisfactorily; it will vary with individuals,
-and, we fancy, too, with the place at which it is made. Certainly
-few in New York would put Angostura bark with Horsemint (Monarda), and
-Queen’s root (Stillingia) in the primary list; while Apocynum cannabinum,
-one of the most active of our diuretics, and Malefern, in tape-worm, one
-of the most certain anthelmintics, are exiled to the secondary. If popular,
-instead of professional reputation, is to be the criterion, are not
-Arnica, and Matricaria, and Benne leaves, and horehound, quite as well
-entitled to a place in the primary list as many of the articles that now
-figure there? And are there not twenty simples in use among the old
-women of the country that deserve a place in the national Pharmacopœia
-as well as may weed, and frost wort, and fever root? Though, too, new
-articles should not readily be admitted until time has fixed their value, we
-should like to have seen some notice of Matico and of the salts of
-Valerianic acid. We are sorry, too, to see the old definition of rhubarb still
-adhered to; “the root of Rheum palmatum and of other species of
-Rheum;” that of the Edinburgh Pharmacopœia, “the root of an unknown
-species of Rheum,” thus rendering the Russian or Chinese rhubarb alone
-officinal, is very much preferable.</p>
-
-<p>Of the substances introduced into the Materia Medica, the chief are
-Aconite root (aconiti radix), Extractum cannabis (extract of hemp), Oleum
-morrhuæ (cod liver oil), Oleum amygdalæ amaræ (oil of bitter almonds),
-and Potassæ chloras (chlorate of potassa). By Arnica in the last Pharmacopœia
-was understood the root and herb of Arnica montana; for these, in
-the present—the name remaining unchanged—the flowers are substituted.
-The additions to the Materia Medica have been made with judgment, and certainly
-nothing has been admitted with the exception
-perhaps of <span class="xxpn" id="p029">{29}</span>
-Helianthemum (Frostwort), of doubtful utility, or that has not for some time been
-submitted to the test of experience.</p>
-
-<p>The preparations introduced are all familiar to the pharmaceutist, and
-have for a long time been kept in most good shops. It is singular that
-in the last Pharmacopœia, by nitrate of silver was understood the fused
-nitrate. This oversight has been corrected, and by Argenti nitras now is
-understood the salt in crystals, while the common lunar caustic is Argenti
-nitras fusa. Among the new preparations are the active principles of
-Aconitum Napellus (Aconitia), Oxide of Silver, Iodide of Arsenic, Chloroform,
-Collodion, a number of fluid extracts, Citrate of Iron, Glycerine,
-Solution of Citrate of Magnesia, the oils of Copaiba, Tobacco, and Valerian,
-Iodide of Lead, Potassa cum calce, Bromide of Potassium, Syrup of
-Wild Cherry bark—of gum—and Tinctures of Aconite root, Kino, and
-Nux Vomica, and compound tincture of Cardamom.</p>
-
-<p>The Iron by hydrogen, as it has been sometimes rather awkwardly
-termed, the Fer réduit of the French, after the British Pharmacopœias, is
-termed Ferri pulvis, powder of iron. Soubeiran’s formula for the preparation
-of Donovan’s Liquor (Liquor Arsenici et Hydrargyri Iodidi) is
-given as much simpler and of easier preparation than the original formula of
-Donovan; there is, too, a good formula for the extemporaneous preparations
-of pills of iodide of iron. The solution of the Persesquinitrate of
-Iron, as it has been sometimes termed, appears as solution of Nitrate of
-Iron; it is a preparation that soon becomes altered by keeping. Tincture
-of Aconite root is directed to be made by macerating a pound of bruised
-Aconite root for fourteen days with two pints of alcohol, expressing and
-filtering. A process by percolation is also given. This is weaker than
-the tincture of either of the British Pharmacopœias, and weaker, we
-believe, than the tincture ordinarily employed here. As an external
-application, for which it is chiefly used, this is a great disadvantage, and
-when administered internally, the varying strength of a medicine so powerful
-will be attended with serious evils.</p>
-
-<p>The old formulæ for the preparation of the alcoholic extract of aconite
-and of the extractum aconiti (expressed juice), are retained, both being
-made from the leaves. The extracts when thus made, even when properly
-prepared, are for the most part inert. No formula is given for the
-preparation of an alcoholic extract from the root.</p>
-
-<p>There are three new preparations among the ointments:—Unguentum
-Belladonnæ, Potassii Iodidi, and Sulphuris Iodidi. The
-ointment of Iodide <span class="xxpn" id="p030">{30}</span>
-of Potassium is directed to be made by dissolving a drachm of the iodide in
-a drachm of boiling water, and afterwards incorporating the solution
-with the lard.</p>
-
-<div class="dkeeptogether">
-<p>On the whole, there is much more to praise than to find fault with in
-the Pharmacopœia. Upon some of the preparations we will hereafter
-find further occasion perhaps to comment.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>PHARMACEUTICAL CONVENTION.</h3>
-</div><!--section-->
-
-<p>In pursuance of a call issued by the College of Pharmacy of the City of New
-York, a Committee of Delegates from the different Colleges of Pharmacy in the
-United States assembled at the College Rooms in New York at 5 o’clock P. M. on
-Wednesday, the 15th of October.</p>
-
-<p>Delegates from Philadelphia and Boston were in attendance. The Maryland
-College (at Baltimore) and the Cincinnati College were not represented, although
-Delegates from each had been previously reported to the Committee of Arrangements
-in New York. A communication of some length was received from the
-Cincinnati Delegation.</p>
-
-<p>The Convention was organized by the appointment of Mr. Charles Ellis of Philadelphia
-as Chairman, and Dr. Samuel R. Philbrick of Boston as Secretary, pro tem.
-A Committee was then appointed by the nomination of each delegation, consisting
-of Messrs. Samuel M. Colcord of Boston, Alfred B. Taylor of Philadelphia, and
-George D. Coggeshall of New York, to examine credentials and nominate officers
-for the Convention. The Committee retired, and on their return reported the credentials
-satisfactory, and proposed Dr. B. Guthrie of New York as President, and
-Mr. Alfred B. Taylor of Philadelphia as Secretary, who were unanimously confirmed.</p>
-
-<p>Dr. Guthrie, on taking the chair, made a few remarks expressive of his sense of
-the honor conferred by appointing him presiding officer of the first Convention of the
-kind ever held in the United States, and explanatory of the objects of the Convention,
-which were in accordance with the growing feeling amongst druggists and phar­ma­ceu­tists
-of its necessity to establish standards of the qualities of imported Drugs
-and Medicines for the government of the United States Inspectors at the different
-ports, and in addition to act upon such matters of general interest to the Profession
-as may be presented to the consideration of the Convention.</p>
-
-<p>Reports were presented by the majority (Messrs. Guthrie and Coggeshall) and the
-minority (Mr. Merrick) of the New York delegates, embodying their views upon the
-subject of standards, and also in regard to false drugs which should be excluded.</p>
-
-<p>A communication from the Cincinnati Delegates was read, and Mr. Restieaux of
-Boston read an interesting statement of the working of the Drug Law in that
-city. <span class="xxpn" id="p031">{31}</span></p>
-
-<p>A general discussion ensued upon various topics connected with the business of the
-Convention, and resulted in the appointment of a committee, consisting of Messrs.
-Proctor of Philadelphia, Restieaux of Boston, and Coggeshall of New York, to
-consider the several communications, and to arrange the general plan of business,
-and report at the next sitting.</p>
-
-<p>The Convention then adjourned to Thursday, at 12 o’clock.</p>
-
-<p class="padtopc"><i>Second sitting, Oct. 16th.</i>—The Convention met at 12 o’clock. The Committee
-appointed yesterday made a report, reviewing the numerous propositions presented
-by the different Colleges, and submitting a general system for regulating standards,
-which, in their judgment, should prevail uniformly at the ports of entry, with
-numerous specifications of prominent articles to which their attention was called by
-their importance, and the difficulty that has been sometimes found in deciding upon
-them.</p>
-
-<p>The report was considered in sections in a lengthy and very interesting discussion,
-in which the members generally participated. With some amendments it was
-adopted.</p>
-
-<p>The Committee also offered the following preamble and resolutions, which were
-adopted, viz.</p>
-
-<p><span class="smcap">W<b>HEREAS,</b></span> The advancement of the true interests of the great body of Phar­ma­ceu­ti­cal
-practitioners in all sections of our country is a subject worthy earnest consideration;
-and whereas Phar­ma­ceu­tists, in their intercourse among themselves, with
-physicians and the public, should be governed by a code of ethics calculated to elevate
-the standard and improve the practice of their art; and whereas, the means of a
-regular phar­ma­ceu­ti­cal education should be offered to the rising Phar­ma­ceu­tists by
-the establishment of Schools of Pharmacy in suitable locations; and whereas, it is
-greatly to be desired that the united action of the profession should be directed to the
-accomplishment of these objects; therefore,</p>
-
-<p><i>Resolved</i>, That, in the opinion of this Convention, much good will result from a
-more extended intercourse between the Phar­ma­ceu­tists of the several sections of the
-Union, by which their customs and practice may be assimilated; that Phar­ma­ceu­tists
-would promote their individual interests and advance their professional standing
-by forming associations for mutual protection, and the education of their assistants,
-when such associations have become sufficiently matured; and that, in view of these
-important ends, it is further</p>
-
-<p><i>Resolved</i>, That a Convention be called, consisting of three delegates each from
-incorporated and unincorporated Phar­ma­ceu­ti­cal Societies, to meet at Philadelphia
-on the first Wednesday in October, 1852, when all the important questions bearing
-on the profession may be considered, and measures adopted for the organization of
-a National Association, to meet every year.</p>
-
-<p>On motion, it was resolved that the New York Delegation be appointed a Committee
-to lay the proceedings of this Convention before the Secretary of the Treasury
-of the United States, and afterwards have them published in pamphlet form.</p>
-
-<p>Dr. Philbrick of Boston offered the following preamble and resolution, which were
-adopted:― <span class="xxpn" id="p032">{32}</span></p>
-
-<p><span class="smcap">W<b>HEREAS,</b></span> To secure the full benefits of the prohibition of sophisticated drugs and
-chemicals from abroad, it is necessary to prevent home adulteration; therefore,</p>
-
-<p><i>Resolved</i>, That this Convention recommend to the several Colleges to adopt such
-measures as in their respective states may be best calculated to secure that object.</p>
-
-<p>On motion of Mr. Colcord of Boston, it was</p>
-
-<p><i>Resolved</i>, That a committee of three be appointed by this Convention to act as a
-Standing Committee to collect and receive such information as may be valuable, and
-memorials and suggestions from any Medical and Phar­ma­ceu­ti­cal Association, to be
-presented at the next Convention.</p>
-
-<p>The President appointed G. D. Coggeshall of New York, S. M. Colcord of Boston,
-and W. Proctor, Jr., of Philadelphia, as the Committee.</p>
-
-<p>A vote of thanks to the officers was passed, and then the Convention adjourned,
-to meet in Philadelphia on the first Wednesday in October, 1852.</p>
-
-<p>The following circular letter has since been issued by the President of the Convention,
-and addressed to the leading Phar­ma­ceu­tists throughout the Union:―</p>
-
-<blockquote>
-<p class="psignature"><span class="smcap">N<b>EW</b></span>
-<span class="smcap">Y<b>ORK,</b></span> November 25, 1851.</p>
-
-<p><span class="smcap">S<b>IR:</b></span>—At a meeting of Delegates from the Colleges of Pharmacy of the United
-States, held in this city on the 15th of October, 1851, the following preamble and
-resolutions, explanatory of themselves, was offered, and, after a free and full discussion,
-unanimously adopted:―</p>
-
-<p>[Here follow the preamble and resolutions introduced by Messrs. Proctor,
-Restieaux, and Coggeshall.]</p>
-
-<p>The objects set forth in the above, I trust, will meet the hearty approbation of
-yourself and the apothecaries of your place, and lead to the formation (if not already
-in existence) of such an Association as will co-operate in the furtherance of the
-proposed association.</p>
-
-<p>Our medical brethren have, as you are doubtless aware, an organization, similar in
-character, holding its sessions annually, in which all matters pertaining to their profession
-are fully discussed—the beneficial effects of which are already apparent,
-though the association has been in existence but a few years.</p>
-
-<p>They cannot give to the subject of Pharmacy the attention it requires and deserves,
-neither is it a matter legitimately falling under their cognizance, but belongs to Phar­ma­ceu­tists
-themselves.</p>
-
-<p>The medical profession and the community at large rightfully look to us for the
-correction of any existing abuses, the advancement of the science, and the elevation
-of the business of an apothecary to the dignity and standing of a profession.</p>
-
-<p>To this end we invite you to the formation of such Associations, in view of the
-Convention, to be held in Philadelphia, on the first Wednesday of October, 1852.</p>
-
-<div class="dkeeptogether">
-<p>Communications intended for said Convention may be addressed to William Proctor,
-Jr., Philadelphia, George D. Coggeshall, New York, or S. M. Colcord, Boston.</p>
-
-<p>Any communication touching the subject of the above letter will be cheerfully
-responded to by the President of the Convention.</p>
-
-<div class="psignature">
-C. B. <span class="smcap">G<b>UTHRIE,</b></span> M.
-<span class="spadr2">D.,</span><br />
-President Convention of Colleges of Pharmacy.</div>
-</div></blockquote>
-
-<div class="chapter">
-<div><span class="xxpn" id="p033">{33}</span></div>
-<h2 class="h2nobreak"><span class="hsmall">NEW YORK</span>
-JOURNAL OF PHARMACY.
-<span class="hsmall"><span class="hdate">
-FEBRUARY, 1852.</span></span></h2>
-
-<h3>ON THE PREPARATION OF PURE HYDRATE OF
-POTASH AND CARBONATE OF POTASH.
-<span class="hsmall">
-BY HENRY WURTZ, A. M.</span></h3>
-
-<p>In preparing pure potash compounds, it is highly necessary,
-especially in order to avoid the possibility of the presence of
-soda, to select, as a starting point, some compound of potash
-which differs considerably in solubility from the corresponding
-soda compound. Either the bitartrate or the sulphate, therefore,
-is usually preferred.</p></div><!--chapter-->
-
-<p>The bitartrate is ignited; the carbonaceous mass, washed with
-water, and the solution of carbonate of potash, thus obtained,
-diluted and boiled with slack lime, in the usual way, in an iron
-kettle; the solution of hydrate of potash, thus obtained, is boiled
-to dryness, and the alcoholic solution of the residue evaporated
-in silver dishes, to obtain what is denominated <i>alcoholic
-potash</i>. This product should be, and most usually is, entirely
-free from sulphate of potash and chloride of potassium, since
-it is easy to crystallize the bitartrate free from these salts.</p>
-
-<p>But an almost invariable accompaniment of this alcoholic
-potash is a trace of silicate of potash. The solution may assume
-no cloudiness on the addition of solution of chlorohydrate
-of ammonia, or upon addition of an excess of chlorohydric acid,
-and afterwards an excess of ammonia; but on adding excess of
-chlorohydric acid, and evaporation to dryness in
-a platinum <span class="xxpn" id="p034">{34}</span>
-capsule, the aqueous solution of the residue will be found to have
-flakes of silica floating in it. Very few specimens that I have
-met with have stood this test. It is to be inferred that the soluble
-silicates of potash are not wholly insoluble in alcohol; but a
-question arises concerning the source from whence the silica is
-so frequently derived. It may be from the lime used, in some
-cases, or from silicium contained in the iron of the kettles employed.
-I am enabled to state, in addition, that of many specimens
-of commercial <i>carbonate of potash</i> which I have examined,
-some of which purported to have been prepared from cream
-of tartar by the method above alluded to, none have been
-found entirely free from silica. I have even found traces of
-this impurity in crystals of commercial <i>bicarbonate of potash</i>.</p>
-
-<p>This constant contamination of potash, and carbonate of potash
-with silica, being a very important matter in consideration
-of the frequent use of these two substances in chemical analysis,
-I have been induced to devise a means of separating the silica
-from the carbonate. This I have accomplished by the use of
-carbonate of ammonia.</p>
-
-<p>An aqueous solution of the carbonate which is to be freed
-from silica is evaporated to dryness on the sand bath (best in a
-sheet iron dish), adding from time to time lumps of carbonate
-of ammonia. The silicate is thus converted into carbonate, and
-on dissolving the residue of the evaporation in water, the silica
-appears in the form of flakes floating in the liquid, and may be
-separated by filtration. This solution of carbonate of potash,
-free from silica, may now be used for the preparation of pure
-hydrate of potash, taking care to use lime which is also free
-from silica.</p>
-
-<p>I may here introduce a few words with regard to the preservation
-of hydrate of potash for use in analysis. Its preservation
-in the solid form is evidently no difficult matter; but when
-we attempt to keep the solution in glass bottles for the sake of
-convenience in using it as a re-agent, we generally find that it
-very soon takes up silica from the glass. I have found, however,
-that flint glass bottles will preserve such
-a solution much <span class="xxpn" id="p035">{35}</span>
-longer than any other, lead glass not being easily acted upon,
-probably because it contains very much less silica. It might
-not be useless to make a trial of bottles made of thin soft iron,
-or sheet iron, for this purpose; but it is probable that pure <i>silver</i>
-is the true material for bottles, in which solution of potash
-is to be preserved. A very thin shell of silver might first be
-made, and afterwards strengthened by coating it thickly with
-galvanic copper.</p>
-
-<p>The ease with which sulphate of potash can be obtained, in a
-state of purity, has long ago suggested its use as a material
-from which to prepare pure potash. Schubert<a class="aftntanc" href="#fn6" id="fnanch6">6</a>
-proposed to
-treat pulverized pure sulphate of potash with a concentrated solution
-of pure baryta, the latter somewhat in excess, and during
-the evaporation of the solution of hydrate of potash, thus obtained,
-the excess of the baryta is precipitated by the carbonic acid
-of the air. This, however, appears to be very expensive process.
-I have devised another method of treating pure sulphate
-of potash so as to obtain pure hydrate of potash therefrom; it
-consists merely in operating upon the sulphate of potash in a
-manner similar to that in which sulphate of baryta is operated
-upon to procure hydrate of baryta, that is in converting the
-sulphate into sulphide by the conjoined application of a reducing
-agent and a red heat, and to decompose the aqueous solution
-of the sulphide by the action of an oxide of a metal whose
-sulphide is insoluble, such as oxide of iron (?), oxide of copper
-or deutoxide of manganese. I use as a reducing agent, instead
-of charcoal, oil, rosin, etc., <i>coal gas</i>. This application of coal
-gas was proposed by Dr. Wolcott Gibbs. If it is found that
-the decomposition is not perfect, and that the solution of sulphide
-of potassium contains some sulphate of potash, or if a
-little sulphate is formed in the solution by oxidation, it is removed
-by the introduction of a little solution of baryta, according
-to the method of Schubert. I am not yet prepared, however,
-to give the details of this method.</p>
-
-<div class="dkeeptogether">
-<div class="dftnt">
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch6" id="fn6">6</a>
-Erd. und Mar. Jour. 26, 117.</p></div>
-
-<hr class="hr34" />
-</div>
-
-<div class="section">
-<div><span class="xxpn" id="p036">{36}</span></div>
-<h3>ON THE PREPARATION OF CHEMICALLY PURE
-HYDRATE AND CARBONATE OF SODA.
-<span class="hsmall">
-BY HENRY WURTZ, A. M.</span></h3>
-</div><!--section-->
-
-<p>The remarks made in the last article with reference to the
-presence of silica in alcoholic potash, apply also, though not so
-generally, to commercial alcoholic soda. Few specimens of this
-product are met with which are so free from silica that it cannot
-be detected by saturation with chlorohydric acid, evaporation
-to dryness in a platinum vessel, and redissolution in water.
-Whatever may be the origin of the silica in this case, it is very
-often present.</p>
-
-<p>I have selected, as the most convenient substance from which
-to prepare pure hydrate and carbonate of soda, a product which
-occurs very abundantly in commerce under the name of “carbonate
-of soda.” It is in the form of a very fine white powder,
-and on examination turns out to be the ordinary monohydrated
-<i>bicarbonate</i> of soda.</p>
-
-<div>NaO, 2 C.O<sup>2</sup> + H.O.</div>
-
-<p>For, upon ignition, 7.756 grns. lost, 2.7595 grns. of carbonic
-acid and water, which is equal to 35.60 per cent.; bicarbonate
-of soda should lose 36.88 per cent. It may be mentioned, in this
-connection, that a preparation sent over here by Button, a
-London Pharmaceutist, under the appellation of “Chemically
-Pure Carbonate of Soda,” upon examination turned out to be
-also <i>bicarbonate</i>. 2.324 grns. lost by ignition; 0.845 grn.
-= 36.45 per cent.</p>
-
-<p>The commercial bicarbonate above mentioned, contains, of
-course, all the impurities of the carbonate from which it is
-made, this being an inevitable consequence of the method by
-which it is manufactured, which, as described in Knapp’s
-Chemical Technology, is simply to expose commercial crystals
-of carbonate of soda to the action of carbonic acid gas, which it
-takes up to the extent of one equivalent, falling into a fine powder,
-with evolution of heat and loss of water of cry­stal­li­za­tion.
-These impurities, in the case of the specimen
-operated upon by <span class="xxpn" id="p037">{37}</span>
-me, were, besides considerable silica, sulphate of soda, chloride
-of sodium, a trace of phosphoric acid detected by monohydrate
-of ammonia, and a little organic matter which imparted to the
-mass a soapy smell.</p>
-
-<p>The sulphate, phosphate and chloride are easily removed by
-washing with water by decantation, with a loss, however, of at
-least one half of the material. When the washings, after addition
-of excess of nitric acid, no longer react with nitrate of silver,
-or with chloride of barium, the mass is introduced into porcelain
-dishes, and dried on the sand bath; when dry it is exposed to a
-high sand bath heat, though not to a red heat, for two or three
-hours. By this treatment, not only are one equivalent of carbonic
-acid, and one equivalent of water expelled, but the
-greater part or the whole of the silicate is decomposed and converted
-into carbonate, so that a solution of the mass in water
-will now be found full of flakes of silica.</p>
-
-<div class="dkeeptogether">
-<p>The filtered solution should now be tested for silica, and if not
-yet entirely free from it, must be evaporated again to dryness,
-with addition of lumps of carbonate of ammonia, exactly as
-proposed by me, in the last article, to separate silica from carbonate
-of potash. The residue of this last evaporation, on solution
-in water, filtration and evaporation in platinum, silver, or
-even clean sheet iron (never in glass or porcelain) dishes, will
-give pure carbonate of soda, from which may be prepared the
-pure hydrate of soda, observing the precaution of using lime
-which is free from silica.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div><span class="xxpn" id="p038">{38}</span></div>
-<h3>REMARKS UPON SOME OF THE PRE­PAR­A­TIONS
-OF THE PHAR­MA­CO­PŒIA OF THE UNIT­ED
-STATES, 1851.
-<span class="hsmall">
-BY GEORGE D. COGGESHALL.</span></h3>
-</div><!--section-->
-
-<p>The Pharmacopœia of the United States is, or should be,
-to the Pharmaceutist of the United States, his text book and
-standard. In making its preparations he should not vary from
-the letter of its directions, unless a change of process effects a
-quicker, more uniform, or more elegant result; in regard to
-strength he should not vary at all, except upon distinct understanding
-with the physician prescribing, or with his customer.
-It is much to be regretted that perfect conformity throughout
-the United States, with our National Pharmacopœia should
-not prevail, so that our citizens, traveling or removing with prescriptions,
-or copies of them, might not be subjected to inconvenient,
-and even in some cases to dangerous alterations, impairing
-confidence in the medicine relied upon, or involving
-the safety of the patient in using it. With these important
-considerations in view, the apothecary should, as far as circumstances
-permit, conform strictly to the acknowledged standard,
-giving up his own opinions, if need be, for the general good.
-But strict adherence to the formulæ of our Pharmacopœia seems
-not to be practicable in all cases, in all localities. When there
-is such diversity of practice in the City of Philadelphia and in
-New York, within five hours of each other, with intercommunication
-five times a day, in each of which the formation and
-subsequent revisions of the Pharmacopœia have been of such
-especial interest and attention, how can it be expected that
-in our widely extended country, in communities diversified
-almost as much as those of different nations, with many local
-habits, set by time and many prejudices, a full and uniform
-compliance with the official standard should prevail.</p>
-
-<p>In New York it would disappoint the physician to put
-<span class="nowrap"><img class="iglyph-a" src="images/u0292.ezh.jpg"
- width="37" height="84" alt="ʒ" />ss</span> of
-the officinal Solution of Sulphate of Morphia
-into a <span class="xxpn" id="p039">{39}</span>
-prescription of
-<img class="iglyph-a" src="images/u2125.ounce.jpg"
- width="40" height="84" alt="℥" />iv
-cough mixture, as much, if not as unpleasantly, as
-it would the Philadelphia physician for one of our brethren in
-that city to put <img class="iglyph-a" src="images/u2125.ounce.jpg"
- width="40" height="84" alt="℥" />j of Majendie’s strength into a mixture of the
-same bulk. In New York the original strength of this solution
-has ever been preserved, not­with­stand­ing the change made
-officinal in three editions of our Pharmacopœia, and it is generally
-understood and used accordingly. With us the change has
-been remonstrated against, as unnecessary, because the dose can
-be as easily regulated as that of Fowler’s, or Donovan’s, or
-Lugol’s solution, the tinctures of aconite root, belladonna,
-iodine, and many other potent preparations; it may just as
-easily be preserved from doing mischief, and has often the advantage
-in mixtures of not displacing desirable adjuncts with
-superfluous water. It is true, that owing to the great difference
-in strength of the solution commonly understood here, and
-that of the Pharmacopœia, our College has felt it incumbent to
-request physicians to designate the intended one, by affixing
-a term (in brackets or otherwise) as “Maj,” or “Ph. U.S,” to
-avoid the possibility of misconstruction, except in clear cases as
-that of the mixture above mentioned; and that we should not
-feel justified in dispensing an ounce of Majendie’s solution
-alone, (especially if the prescription was for “Liquor Morphiæ,
-Sulphatis”—the officinal term) unless with an understanding of
-the strength wanted, or of the use to be made of it. This great
-discrepancy between what is of original and continued use and
-what is officinal, requires watchfulness, on our part, against
-occasional exceptions to the general prescription of our physicians,
-and in putting up prescriptions written in other places,
-Philadelphia particularly. We must judge of the solution required,
-from the context.</p>
-
-<p>Our Pharmacopœia, in most of its formulæ, is undoubtedly
-entitled to our full respect and adherence, exhibiting on the
-part of the Revising Committee, laborious research and patient
-adjustment of details. But some of them, I think, are fairly
-open to criticism and susceptible of improvement. The formula
-given for preparing “<span class="smcap">C<b>ARBONIC</b></span>
-<span class="smcap">A<b>CID</b></span>
-<span class="smcap">W<b>ATER,</b>”</span> is one
-by which it <span class="xxpn" id="p040">{40}</span>
-may safely be said, no practical man ever has made, or ever can
-make, the article commonly known as mineral, or soda water, the
-latter name given to it in its early manufacture; when a portion
-of carbonate of soda entered into its composition, which is now
-generally omitted, though the name is retained in many places.
-In the first United States Pharmacopœia, 1820, the formula
-given is as follows:―</p>
-
-<blockquote>
-
-<p>“Take of water any quantity.</p>
-
-<p>Impregnate it with about ten times its volume of carbonic
-acid gas by means of a forcing pump.”</p></blockquote>
-
-<p>That was, probably, about the strength it was usually made
-at that time. It is now, generally made about one fifth or one
-fourth stronger. In the revision of 1830, the formula was changed
-as follows:―</p>
-
-<blockquote>
-
-<p>“By means of a forcing pump, throw into a suitable receiver,
-nearly filled with Water, a quantity of Carbonic Acid equal to
-five times the bulk of the Water.”</p>
-
-<p>“Carbonic Acid is obtained from the Hard Carbonate of
-Lime by means of dilute Sulphuric Acid.”</p></blockquote>
-
-<p>The latter formula is repeated in the revisions of 1840 and
-1850, substituting the term “Marble,” for “Hard Carbonate
-of Lime.” The strength was altered from “ten times” of the
-first edition to “five times,” in 1830, and reiterated in 1840
-and 1850. Why? “Ten times” was, perhaps, sufficient in the
-early use of this beverage, but was hardly considered strong
-enough in 1830, certainly was not in 1840, and has not been
-since. It is difficult to conceive a reason for such change.
-Surely, it could not have been recommended by practical men;
-on the contrary it was supposed to have been made by mistake
-or inadvertance. It is still more difficult to find a good reason
-for repeating this formula in the revisions of 1840 and 1850.
-Upon each of the latter occasions the College of Pharmacy, in
-New York, remonstrated against it and pointed out fully its absurdity.
-Carbonic Acid Water of that strength, it was stated,
-would not be acceptable as a drink to any one
-familiar with it, <span class="xxpn" id="p041">{41}</span>
-nor refreshing to the sick. The formula was also shown to be
-defective in several essential particulars, and where it was not
-defective it was wrong. But our remonstrance seems not to
-have been vouchsafed “even the cold respect of a passing
-glance.”</p>
-
-<p>The formula is defective in not describing the vessel in which
-the preparation is to be made. In other processes, not so much
-involving the safety of those engaged in them, the vessels are
-specified, as “glass,” “earthen,” “iron,” &amp;c. In this case it
-is indispensable that the vessel should be expressly and well
-adapted to the purpose. It should be of undoubted strength to
-sustain the pressure, and it should be of material not acted upon
-by the acid or water. These requisites should not be neglected.
-We need not concern ourselves much, to be sure, about “five
-times the bulk,” but to make carbonic acid water of good
-quality, the “receiver” should be of sufficient strength to ensure
-safety, and of internal material to avoid unpleasant or injurious
-contamination. Copper fountains, lined with tin, are
-mostly used. Cast iron, lined with tin, is also used, to some extent.
-So far the formula is defective,—in the proportion both of
-water and carbonic acid it is wrong. The “suitable receiver”
-should not be “nearly filled with water.” How near full that
-is, is left to the chance of different judgment in different persons;
-but if “nearly filled” should be understood to mean within
-a pint, and force enough could be applied, “the receiver”
-would burst before the “five times” could be got into it,
-though the breaking in this case would not, probably, be attended
-with danger to the operator, because it would be merely a
-dead strain without much expansive force.</p>
-
-<p>I do not propose to detail the process of making soda or
-mineral water, “Carbonic Acid Water,” as it is properly called
-in the Pharmacopœia. The minutiæ of its preparation may well
-be left to the experience and practice of the operator. But the
-formula given in our standard book should not be defective or
-wrong in prominent principles, it should accord with experience
-and the improvement of the times. There does
-not appear to <span class="xxpn" id="p042">{42}</span>
-be any good reason for altering the formula of 1820, which was
-comparatively “well enough” to that of 1830, ’40 and ’50, which
-is of no value. After designating the description of fountain
-required, so far, at least, as regards strength (which ought to
-be equal to the pressure of twenty atmospheres), and material,
-it should direct it to be supplied with water to the extent of about
-five sevenths of its capacity, in order to allow of due admixture
-of gas and water, and of agitation which greatly facilitates
-it, and the forcing carbonic acid into it to the extent of at least
-twelve times the bulk of the water. Thirteen or fourteen times
-is often employed for draught, and seventeen or eighteen times
-for bottling. It may be, as it has been, said that “a formula
-for this preparation is not of great moment.” It may be so; it
-may, perhaps, as safely be left to the skill of the manufacturer
-and the taste of the consumer, as “Mistura Spiritus Vini Gallici;”
-but “if it be worth doing at all, it is worth doing well;”
-if placed in the Pharmacopœia, it should be in accordance with
-knowledge, and the experience of practical men.</p>
-
-<p><span class="smcap">T<b>HE</b></span>
-<span class="smcap">S<b>OLUTION</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">A<b>RSENITE</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">P<b>OTASSA</b></span>
-has been made by
-some Apothecaries, with myself, for several years, by substituting
-92 grs. of bicarbonate of potassa, as the equivalent of 64 grs.
-of the carbonate, by which we feel more confident of obtaining a
-definite compound than by the employment of the Carbonate,
-as generally procured, which mostly contains silica and other
-contaminations. The resulting compound is quite satisfactory,
-and keeps well. We also omit the compound spirit of lavender,
-making up the measure of a pint with water. Our object in this
-is two-fold. The solution is more permanent, according to our
-observation, and the compound spirit of lavender only renders
-it (if anything) more attractive in taste and smell, to children
-and ignorant persons.</p>
-
-<p>In making <span class="smcap">M<b>ISTURA</b></span>
-<span class="smcap">F<b>ERRI</b></span>
-<span class="smcap">C<b>OMPOSITA,</b></span> it is peculiarly
-necessary to proceed exactly according to rule, both in the order
-of its components and in the method of adding them, to
-produce a correct result. In the Pharmacopœia the six ingredients
-are set down thus:― <span class="xxpn" id="p043">{43}</span></p>
-
-<div class="dpoembox"><ul class="ulstnz">
-<li class="livs">
- <span class="spquote">“</span>Take of Myrrh a drachm.</li>
-<li class="livs">
- <span class="spquotenada">Carbonate</span> of Potassa twenty-five grains.</li>
-<li class="livs">
- <span class="spquotenada">Sulphate</span> of Iron, in powder, a scruple.</li>
-<li class="livs">
- <span class="spquotenada">Spirit</span> of Lavender half a fluid ounce.</li>
-<li class="livs">
- <span class="spquotenada">Sugar</span> a drachm.</li>
-<li class="livs">
- <span class="spquotenada">Rose</span> Water seven fluid ounces and a half.”</li>
-</ul>
-</div><!--dpoembox-->
-
-<p>We are directed to rub the first with the last, “and then
-mix with these” the fourth, the fifth, the second, and “lastly,”
-the third.</p>
-
-<p>In the written process for making a mixture, which more
-than most others, requires exact method, and the adding of
-each of its numerous components in its right order, it would
-seem to be desirable, for the sake of perspicuity, to set them
-down in the order in which they are to be used. Here we have to
-chase about, forwards and backwards, for the one wanted next,
-and to read over and over the directions, to make sure of getting
-them right; for few of us make this mixture so often as to be perfectly
-familiar with the process, without referring to the text. It
-is not less awkward in this case from the directions chancing to
-be over leaf. But the formula is otherwise defective, I think, not
-being quite equal to that of 1830, in which the rose water and
-spirit of lavender are directed to be added together. Not only
-should these be mixed before using, but the myrrh, carbonate
-of potassa and sugar should be triturated well together, and
-rubbed with successive portions of the mixed liquids, effecting
-thereby a better solution of the myrrh. The mixture, then
-complete, except the sulphate of iron, should be put into the
-vial, and the salt should, by all means, be directed to be selected
-in clear crystals, to avoid any per salt of iron; it should be
-quickly powdered in a clean mortar, and added to the contents
-of the vial. The result is a bluish colored mixture, soon
-changing to olive green. If the sulphate of iron be not properly
-selected, or if it be rubbed in the mortar, as inferred from the
-formula, the mixture is more or less brown and proportionably
-deteriorated. Of course, we should not “take sulphate of iron
-in powder.” <span class="xxpn" id="p044">{44}</span></p>
-
-<p>In giving directions for making a compound, something,
-certainly, is to be expected from the knowledge and skill of the
-manipulator. But essential points should not be left to him,
-and a formula for a mixture, probably not very often made by
-Apothecaries throughout our country towns, should be set down
-so clearly, that a person competent to put up mixtures generally,
-could make this one the first time he was called upon for it, without
-needless perplexity, and with sufficient detail of essentials to
-ensure its being made correctly. I have been frequently told by
-physicians that, even here, this mixture, requiring so much nicety
-of manipulation, does not appear to be made right one time in ten.
-This may not be so much the fault of the Apothecary as of his
-guide. He makes the mixture but seldom, and if he make it by
-his Pharmacopœia he does not make it as well as it can be made.
-For convenient use in the shop, I have the following process written
-out:―</p>
-
-<div class="dpoembox"><ul class="ulin2">
-<li class="livs">
- <span class="spquote">“</span>Take of Myrrh,</li>
-<li class="livs">
- <span class="spquotenada">Sugar</span> each one drachm,</li>
-<li class="livs">
- <span class="spquotenada">Carbonate</span> of Potassa twenty-five grains,</li>
-</ul>
-
-<p><i>Triturate together, and add gradually</i>:</p>
-
-<ul class="ulin2">
-<li class="livs">
- <span class="spquotenada">Rose</span> Water seven ounces and a half,</li>
-<li class="livs">
- <span class="spquotenada">Spirit</span> of Lavender half an ounce, mixed.</li>
-</ul>
-
-<p><i>Rub each portion well together, pour into the vial and add</i>:</p>
-
-<ul class="ulin2">
-<li class="livs"><span class="spquotenada">Sulphate</span> of Iron one scruple,</li></ul>
-
-<p><i>To be selected in clear crystals, powdered in a clean dry
-mortar, and thrown in powder into the vial; then cork,
-shake well, and cover the vial with buff colored paper.</i>”</p>
-
-</div><!--dpoembox-->
-
-<p>I have often thought that if our formulæ, especially
-those that are complicated, were given in proper rotation,
-placing the component first to be used, first in the list, the
-second next, and so on, with intermediate lines of direction, which
-might be in smaller type or italics, it would derogate nothing
-from the dignity of the book, while it would facilitate the process,
-and might sometimes obviate misconstruction, or neglect
-of particulars essential to the best result.</p>
-
-<div class="dkeeptogether">
-<p>The consideration of some few other preparations, I must
-defer to another number.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div><span class="xxpn" id="p045">{45}</span></div>
-<h3>LETTER ON OPIUM, &amp;c.</h3>
-</div><!--section-->
-
-<p class="fsz6">[<span class="smcap">T<b>HE</b></span> following letter, addressed to a Commercial House in this City, will be
-found to communicate some interesting information. We print it as it is written.
-Perhaps our readers may derive some information from the prices given; we can
-make nothing of them.]</p>
-
-<p class="psignature padtopc"><span class="smcap">C<b>ONSTANTINOPLE,</b></span>
-May 10, 1851.</p>
-
-<p class="pfirst">To ———— <span class="smcap">T<b>RIESTE,</b></span></p>
-
-<p>We received your honored letter, dated Messina, with great
-pleasure, and hasten to give you the information you desire,
-hoping and wishing that both an agreeable and useful connection
-may arise from it, for which purpose we shall not fail to
-give your House direct information, respecting the articles
-you mention. Opium is found here in different qualities, the
-goodness of which chiefly depends on the cons­cien­tious­ness of
-those who prepare it. The best quality coming from some districts
-of Asia consists of the pure juice, which flows spontaneously
-from the incisions made in the poppy heads, is inspissated
-and formed into little balls. It has eminently all the
-qualities which are requisite in good opium, and contains from
-8 to 10 per cent, and more, of morphia. This sort is the most
-in request among the druggists in Germany and France, to be
-sold by retail to the apothecaries, but scarcely forms the 8th or
-10th part of all the Turkish opium which comes to the market.
-Next to this is the ordinary quality, coming from the other
-provinces of Asia Minor; where in preparing it, they are less
-cautious, partly pressing the poppy heads, in order to get as
-much juice as possible, partly scraping the juice that has oozed
-out too hard, by which certain mucilaginous parts of the plant,
-and shavings of the rind get mixed up with it; in this way that
-kind of opium is produced, which is so often sold, and at Trieste
-bears the name of Tarense opium.</p>
-
-<p>By this proceeding, of course, the morphia is lessened, and
-often in a great degree; but in the Chinese market, in proportion
-to which, the consumption of the article in all other countries
-is scarcely to be reckoned, little or no regard
-is paid to <span class="xxpn" id="p046">{46}</span>
-this, which explains why the latter inferior article always brings
-nearly as high a price as the former pure quality. Besides
-these, several sorts of adulterated opium are sold, some of which
-are prepared, (principally for the North American market,) by
-mixing in the juice of the whole plant, or other substances.—The
-difference of the qualities would be best perceived by a
-collection of samples, which we should be glad to send you, if
-you would tell us where to direct them. The price of the aforementioned
-prime quality, which we call “Gúeve,” from the district
-which chiefly produces it, is now
-<span class="nowrap">10&#xfeff;<sup>2</sup>&#xfeff;&#x2044;&#xfeff;<sub>3</sub>&#xfeff;c.</span> for the English
-pound, free on board. The current second quality,
-<span class="nowrap">10&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>3</sub>&#xfeff;c.</span> The
-price of the adulterated is much lower, in proportion to the
-amount of the adulteration; which, however, in most cases, is
-not discernible by the exterior. The prices are, of course, principally
-regulated by the Chinese market; yet the more or less
-considerable crop produced is not without influence. So especially
-now, the growers show little inclination to sell, as the new
-plantations are endangered by a continual want of rain.—Nevertheless,
-probably after two months, when the new crop
-begins to come to market, we may be able to buy cheaper than
-now, if the news from China should not cause the price to rise.</p>
-
-<p>As regards scammony, almost everything that has been said
-respecting opium is literally applicable. The difference in
-quality depends upon the way of preparing it, while the plant
-from which it is taken is always the same. The best sort is the
-pure dried juice, which spontaneously flows from the incisions
-made in the root of the plant; the next quality is produced by
-a strong pressure of the root. These two qualities go in commerce
-by the name of the 1st and 2nd scammony d’Aleppo,
-which name, however, is wrong, as Aleppo produces the 1st
-quality, but only in a very small quantity, whilst the greater
-part comes from several districts of Asia Minor. Then follows
-the so called quality of Skilip, a district that produces much,
-but where they have the bad habit of trying to gain in the
-weight, by adulterating the pure substance. The adulteration
-is made in several ways; the least injurious of
-which perhaps is, <span class="xxpn" id="p047">{47}</span>
-that they add (as in opium), the pressed or boiled out juice of the
-whole plant; the not inconsiderable quantities of this sort, which
-are yearly brought from the interior, find a good sale in Europe,
-which would hardly last, if a sufficient quantity of the before
-mentioned finer qualities were to be had. Besides these, a
-number of other sorts are sold in Europe, under the name of
-Smyrna scammony, which consist of a hard and heavy mass,
-but contain only a very small part of the real scammony.</p>
-
-<p>With this article it would also be necessary, as we said with
-the opium, to explain our statements by sending you samples,
-which we will do if you desire it. The finest prime sort is seldom
-found, and is now entirely wanting. It would sell readily
-at the rate of
-<span class="nowrap">21&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub>c.</span> per pound, English. The good second
-quality brings according to the sort, from 18c. to
-<span class="nowrap">15&#xfeff;<sup>3</sup>&#xfeff;&#x2044;&#xfeff;<sub>4</sub>c.</span> a
-pound, free on board, but is also now very scarce, and will, in
-the course of two or three months, be more abundant in fresh
-quality. Of the Skilip sort, there are several quantities in the
-market, according to the quality, at the price of 13 to 10s.
-10d. an English pound, free on board.</p>
-
-<p>Of the oil of roses, there is, properly speaking, only one
-genuine quality, with only little difference in odor, but with
-remarkable variation in the facility with which it congeals, which
-property is almost generally considered an essential proof of
-its being genuine, but without reason; as we have ascertained by
-much experience, during a long sojourn in the country where
-it is produced. Several reasons may contribute to this difference
-in congealing, but the chief one may be considered,
-the difference of soil, and method of preparation. We give
-our principal attention to the article, and have founded an establishment
-at Kissanlik, where it is chiefly produced, through
-which alone we make our purchases, and must do so, in order
-to have the attar genuine, as we have experienced, that all
-the essence without exception that is sold here, second hand,
-is far from pure.</p>
-
-<div class="dkeeptogether">
-<p>The common method and the one now almost exclusively
-adopted of adulterating it, with geranium essence,
-may be known <span class="xxpn" id="p048">{48}</span>
-to you, and that it really is the most in use, you may conclude,
-from the price of the genuine article having been for a long time
-much higher at the places of production, than the price of that
-which is sold as prime in Europe. This fact has only lately
-been noticed in Europe, therefore in the price current of Trieste,
-for instance, you will find the genuine article noted, beside the
-prime article, with a considerable difference of price. What
-at London is designated as prime quality, is only a mixture of
-60 to 70 per cent. essence of rose, with 30 to 40 per cent. essence
-of geranium. Samples will also prove this to you, more clearly.
-The price of the genuine attar is, to-day,
-<span class="nowrap">22&#xfeff;<sup>3</sup>&#xfeff;&#x2044;&#xfeff;<sub>4</sub>&#xfeff;c.</span>
-for an ounce, at
-10 drachms, according to which the English price current may
-be understood; in six or eight weeks after the preparation of
-the new crop, we hope to buy cheaper, but at what rate we
-cannot yet judge, as this depends on the produce of the crop.
-There is some cheaper and adulterated, and which is only
-bought by ignorant persons. This oil comes by caravans from
-the interior of Asia, and in spite of all our inquiries, we could
-not succeed in getting any sure information, about the plant
-which produces it, or the method of preparation.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON CHLOROFORM AS A SOLVENT.
-<span class="hsmall">BY M. P. H. LEPAGE, OF GISORS.</span></h3>
-</div><!--section-->
-
-<p>Hitherto, attention has been mainly directed to the manufacture
-of chloroform, and the study of its anesthetic properties.
-Many chemists, however, have casually noticed the power it
-possesses of dissolving essential oils, fixed fatty matters, camphor
-resins, (even those which dissolve with difficulty in alcohol and
-ether, such as copal resin, for example,) iodine, bromine, vegetable
-alkalies, india rubber insoluble in alcohol, and but slightly
-soluble in ether, and, finally, gutta percha, insoluble according
-to M. Vogel, in both these menstrua. <span class="xxpn" id="p049">{49}</span></p>
-
-<p>Having lately had occasion to experiment with chloroform,
-upon a variety of substances, I have thought it might be useful,
-with a view to its further application, to make known the results
-obtained.</p>
-
-<ul>
-<li><p>1. Resinous substances, gum mastic, colophony, elemi, balsam
-of tolu, benzoin, are very soluble cold, in all proportions
-of chloroform and their solutions in this liquid form
-varnishes, some of which might, I think, be usefully applied,
-when the price of chloroform shall be diminished.</p>
-
-<p>Gum copal and caoutchouc dissolve equally and almost entirely
-in this liquid, but more easily hot than cold.</p>
-
-<p>Amber, sandarac, and shellac, are only partially soluble in
-chloroform, whether hot or cold. The mixture of sandarac and
-chloroform separates into two layers; the lower one which
-holds in solution a certain quantity of resin, is fluid, whilst the
-upper one is of a gelatinous consistence.</p>
-
-<p>Olibanum dissolves with difficulty in it, either hot or cold.</p>
-
-<p>Gum guaiac and scammony resin, dissolve very easily in
-it; whilst on the contrary, pure jalap resin is insoluble; it
-becomes soft by contact with the liquid, and then floats on
-the top, as a pitch like mass. When the resin is very pure,
-the lower layer of chloroform has an amber color.</p>
-
-<p>Gamboge and gum dragon’s blood, also yield some of their
-substance to chloroform. The solution of gamboge being of
-a magnificent golden yellow, and that of the dragon’s blood
-of a beautiful red, these two substances might be advantageously
-used as varnishes.</p></li>
-
-<li><p>2. Fixed Fats. Oils of olive, œillettes, almond, ricinus,
-cod, rape, euphorbia, lathyris, croton tiglium, lard, tallow,
-the concrete oils of palm and cocoa, spermaceti, and probably
-all the fixed fats, dissolve remarkably and in all proportions
-in chloroform. As to wax, according to M. Vogel,
-six or eight parts of chloroform added to one part of this substance
-when pure, dissolve only .25, whence this chemist supposes,
-that whenever wax treated with this liquid
-in the above <span class="xxpn" id="p050">{50}</span>
-named proportions, leaves less than .75, it may be considered as
-having been mixed with tallow or stearic acid.</p>
-
-<p>I placed in a small tube, seven grammes of chloroform,
-and one gramme of <i>pure</i> white wax, shaking the mixture
-violently, at the end of six or eight hours the piece of wax had
-entirely disappeared, and the contents of the tube resembled
-an emulsion. The whole was passed through a filter of the
-weight of one gramme. A transparent liquid passed, which,
-exposed to spontaneous evaporation, left a residuum of pillular
-consistence weighing twenty-five centigrammes; whilst the filter
-which retained the portion of undissolved wax, left to the action
-of the air, until it no longer lost weight, was found to weigh
-one gramme, seventy-five centigrammes. The result of this
-experiment therefore, confirms the statement of the learned
-chemist of Munich.</p></li>
-
-<li><p>3. Volatile oils. All are soluble in chloroform.</p></li>
-
-<li><p>4. Simple metalloid bodies. We already know that iodine
-and bromine are soluble in chloroform, I have further ascertained
-that phosphorus and sulphur are slightly so.</p></li>
-
-<li><p>5. Immediate neutral principles. Stryacine, piperine, naphtaline,
-cholesterine, are very soluble in chloroform. Pricrotoxine,
-slightly so. Parafine will only dissolve when warm, and on
-cooling, again floats on the top of the liquid. Amygdaline,
-phloridzine, salicine, digitaline, cynisin, urea, hematin, gluten,
-sugar, &amp;c., are insoluble in it.</p></li>
-
-<li><p>6. Organic acids. Benzoic and hippuric acids are very
-soluble in chloroform. Tannin is but slightly soluble, tartaric,
-citric, oxalic and gallic acids are insoluble in it.</p></li>
-
-<li><p>7. Organic alkalies. Quinine, pure veratrine, emetine and
-narcotine are easily soluble in chloroform. Strychnine dissolves
-pretty well in it, and the solution, even when not saturated
-(one décigramme to two grammes of chloroform, for instance,)
-deposits, in twenty-four hours, a number of little tuberculiform
-crystals, which may perhaps be a modification of this
-alkaloid (an isomeric state), for their solution in dilute acids has
-appeared to me less bitter, and less easily
-precipitable by <span class="xxpn" id="p051">{51}</span>
-ammonia than that of ordinary strychnine. Brucine is also quite
-soluble in chloroform. Morphine and cinchonine are insoluble.</p></li>
-
-<li><p>8. Salts of organic acids. Tartar emetic, the acetates of
-potash and soda, lactate of iron, citrate of iron, valerianate of
-zinc, and acetate of lead do not dissolve in chloroform.</p></li>
-
-<li><p>9. Salts with organic bases. Sulphate and hydrochlorate of
-strychnine, are tolerably soluble in chloroform, whilst sulphate
-of quinine, hydrochlorate and sulphate of morphine are
-insoluble.</p></li>
-
-<li><p>10. Haloid salts. Iodide and bromide of potassium, the
-chlorides of sodium, potassium and ammonia, the iodides of
-mercury and lead, the yellow prussiate of potash, the cyanides
-of mercury and potassium do not dissolve in chloroform. Chloride
-of mercury is very soluble.</p></li>
-
-<li><p>11. Oxysalts. The iodates, chlorates, nitrates, phosphates,
-sulphates, chromates, borates, arseniates and alkaline hyposulphates
-are completely insoluble in chloroform. The same
-may be said of nitrate of silver, sulphate of copper, and probably
-of all the metallic oxysalts.</p></li></ul>
-
-<p>The above facts prove: 1st That chloroform dissolves, with
-a very few exceptions, all bodies soluble in ether; but as it dissolves
-copal, caoutchouc, &amp;c., much better than this latter substance,
-this property will become serviceable when the price of
-chloroform shall be lowered.</p>
-
-<p>2nd. That contrary to what was formerly believed, it dissolves
-shellac much less easily than alcohol.</p>
-
-<p>3rd. That it may be employed instead of ether, to separate
-quinine from cinchonine, narcotine from morphine, guaiac resin
-from jalap resin, which substances are often found mixed together
-in commerce.</p>
-
-<p>4th. That it dissolves in large proportions strychnine, brucine,
-and emetine, alkaloids, which are almost insoluble in ether.</p>
-
-<p>5th. Finally, that it does not dissolve tartaric, citric, oxalic
-and gallic acids, amygdaline, phloridzine, salicine, digitaline,
-hematine, gluten, &amp;c., all which bodies are
-soluble in alcohol, <span class="xxpn" id="p052">{52}</span>
-nor the chlorides, bromides, iodides, or nitrates, salts, all soluble
-in the same vehicle.</p>
-
-<p>I think it right also to add the following observation, because
-it tends to corroborate a fact recently stated in the <i>Journal de
-Chimie Médicale</i>, by my friend and former colleague, M.
-Aujendre, assayer at the mint of Constantinople, namely that
-chloroform possesses antiseptic properties. Having accidentally
-left in a half filled, but corked bottle, during a month (from
-April 10, to May 12), in my laboratory, where the variations of
-temperature are very frequent, some milk mixed with about
-a hundredth part of chloroform, I was rather surprised, on examining
-the milk, to find that it had preserved the fluidity and
-homogeneity of the liquid when freshly drawn, and that it could
-even be boiled without turning.—<i>Journal de Chimie Médicale
-in L’Abeille Médicale.</i></p>
-
-<div class="dkeeptogether">
-<p class="fsz6 padtopc">[<span class="smcap">N<b>OTE.</b></span>—Chloroform
-will preserve Anatomical and Pathological Specimens
-without changing their color, or apparently their
-texture.]—<span class="smcap">E<b>D.</b></span> N. Y. <span
-class="smcap">J<b>OURNAL</b></span>
-<span class="smmaj">OF</span> <span
-class="smcap">P<b>HARMACY.</b></span></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div class="divhhang2"><h3 class="h3runin">
-REPORT OF A JOINT COM­MIT­TEE
-OF THE PHIL­A­DEL­PHIA
-COUN­TY MED­I­CAL SO­CI­E­TY AND THE
-PHIL­A­DEL­PHIA COL­LEGE OF PHAR­MA­CY, REL­A­TIVE
-TO PHY­SIC­IANS’ PRE­SCRIP­TIONS.
-<span class="hsmall">
-(<i>Published by order of the Board of Trus­tees
-of the Phil­a­del­phia Coll. of Pharm.</i>)</span></h3></div>
-</div><!--section-->
-
-<p>The joint Committees of the Philadelphia County Medical
-Society, and of the Philadelphia College of Pharmacy, appointed
-for the purpose of considering the means best adapted
-to prevent the occurrence of mistakes in the compounding of
-the prescriptions of Physicians by Apothecaries, beg leave to
-report that they have given to the subject all the attention that
-its importance demands, and present the following hints as the
-results of their joint deliberations. They have taken the liberty
-of adding, also, a few general hints on the relations that should
-exist between physicians and phar­ma­ceu­tists.</p>
-
-<div class="dkeeptogether">
-<div><span class="xxpn" id="p053">{53}</span></div>
-
-<h4>A. <i>In Respect to Physicians.</i></h4>
-
-<p>1. Physicians should write their prescriptions carefully and
-legibly, making use of good paper, and, whenever possible, of
-pen and ink. When obliged to write with a pencil, they should
-take the precaution to fold the prescription twice, so as to prevent
-its being defaced.</p></div>
-
-<p>2. The nomenclature of the United States Pharmacopœia is
-becoming annually more in favor with phar­ma­ceu­tists; a statement
-attested by the fact that 1500 copies of the book of Latin
-Labels for shop furniture, published by the Philadelphia College
-of Pharmacy, have been disposed of within three years.
-Physicians are also becoming more alive to the merits of our
-national Codex, and they are respectfully urged to familiarize
-themselves with its nomenclature, and to adhere to it strictly
-in their prescriptions.</p>
-
-<p>3. The numerous treatises on Materia Medica, Pharmacy
-and the Practice of Medicine, of English origin, that are reprinted
-in this country, not­with­stand­ing they are generally interlarded
-with the formulæ of our own Pharmacopœia, tend,
-nevertheless, very much to confuse the physician and apothecary,
-in the use and exact meaning of terms in prescriptions.
-To obviate the difficulties thus occasioned, the physician
-should, when he prescribes a medicine, which is not officinal,
-nor in common use, state on his prescription, either in a note
-at the bottom, or within parenthesis, following the article, the
-authority or work from whence it is derived, as “Griffith’s
-Formulary,”—“Ellis’ Formulary,”—“Braithwaite’s Retrospect,”
-etc.</p>
-
-<p>4. Physicians would lessen the risk of errors in their prescriptions,
-and increase the chances of their detection should
-they be made, by observing the following hints.</p>
-
-<p>1st. Write the name of the patient at the top of the prescription,
-unless a good reason prevents this being done; in which
-case, it should be expressed as for Mr. G—, Mrs. R—, or Mrs.
-S.’s child, or for Master T—, so as to convey to the apothecary
-some idea of the age
-of the patient. <span class="xxpn" id="p054">{54}</span></p>
-
-<p>2d. The date and name of the physician or his initials, should
-always be appended, and, whenever practical, the dose and
-mode of administering the medicine directed.</p>
-
-<p>3d. When an unusually large dose of an active medicine is
-prescribed, as opium, morphia, elaterium, strychnia, etc., let
-such names be put in <i>italics</i>, and the quantity or quantities repeated
-in writing enclosed within a parenthesis; thus:—R
-Morphiæ Sulphatis grs. vj. (six grains.) Div. in chart. vj.</p>
-
-<p>4th. When an active substance is to be used externally, it
-should be so stated on the prescription; thus, “For external
-application”—“To be applied to the part as directed,” etc.</p>
-
-<p>5th. The quantities of each article should be placed in a line
-with the name, and not below it and in using the Roman
-numerals, the <i>i</i>’s should be dotted correctly.</p>
-
-<p>6th. The occasional practice of writing the directions intended
-for the patient in <i>latin</i>, and especially in abbreviated latin,
-is uncalled for, and attended with some risk; it is far safer to
-write them in English, and without abbreviation or the use of
-figures, unless these are well and distinctly formed.</p>
-
-<div class="dkeeptogether">
-<h4>B. <i>In Respect to the Apothecary.</i></h4>
-
-<p>1st. The apothecary should hesitate to dispense a prescription,
-the handwriting of which is so imperfect as to render the
-writer’s meaning doubtful—especially if it involves agents of a
-poisonous or irritating character—unless he is able, from collateral
-circumstances, to satisfy himself of the intent of the prescriber.
-In such a case he should delay the delivery of the
-medicine to the patient until he can see the physician, and in
-doing so he should avoid committing the latter, by agreeing to
-send the medicine when it is ready.</p></div>
-
-<p>2d. The apothecary is justified in the same means of delay,
-if he, after deliberate consideration, believes that the physician
-has inadvertently made a mistake in the quantity or dose of the
-article or articles prescribed; always keeping in view the physician’s
-reputation as well as his own. Every respectful application,
-in such cases, to a physician, should be met
-in good faith <span class="xxpn" id="p055">{55}</span>
-and with kind feeling, even though no error should prove to
-exist.</p>
-
-<p>3d. In his demeanor and language, the apothecary should
-cautiously avoid compromising the physician, unless it be unavoidable,
-in which case honesty is the best policy, and the
-patient or his messenger should be told that it will be necessary
-to have an interview with the physician previously to compounding
-his prescription.</p>
-
-<p>4th. The apothecary is not justifiable in making inquiries relative
-to the patient or his disease, or remarks relative to the
-character or properties of the medicines prescribed, that are
-uncalled for, or likely to convey a wrong impression, through
-an ignorant messenger, to the patient, excepting it be done in
-a case where he has doubts in regard to the prescription, and
-wishes to satisfy himself, and here he should act with great
-discreetness.</p>
-
-<p>5th. When an apothecary is asked his opinion of a physician’s
-prescription in a manner that indicates want of faith in
-the prescriber, he should waive the question, unless by a direct
-answer he should be able to restore that confidence. When
-asked the nature of the ingredients, he should be guided in his
-answer by circumstances, avoiding to give the desired information,
-when he believes it would be contrary to the wish of the
-physician, or attended with injurious consequences. In other
-cases he should use his own judgment.</p>
-
-<p>6th. Physicians being often unacquainted with practical
-pharmacy, pay little attention to the order in which the several
-articles entering into a prescription are arranged, with the view
-to facilitate the operations of dispensing. It hence becomes
-the first duty of the apothecary carefully to read the prescription
-and fix the proper order in his mind. He should, at the
-same time, acquire the habit of considering the quantities
-ordered in relation to the usual doses, and, also, the general
-bearing of the prescription; and a constant resort to this practice,
-based on due knowledge, must almost inevitably detect
-mistakes, if any have been made. <span class="xxpn" id="p056">{56}</span></p>
-
-<p>7th. Apothecaries should accustom their assistants to study
-prescriptions in this light, and to acquire such a knowledge of
-the doses and therapeutical uses of medicines as shall serve to
-guide them in avoiding errors.</p>
-
-<p>8th. The apothecary, when engaged in dispensing a prescription,
-should, as far as possible, avoid mental preoccupation, and
-give his attention fully to his task. He should acquire the
-habit of <i>always</i> examining the label of the bottle before using
-its contents, and he should satisfy himself that he has read the
-prescribed quantity correctly, by referring to the prescription
-anew before weighing out each article. It is also, a useful
-precaution to have bottles containing mineral or vegetable
-poisons, distinguished by some prominent mark.</p>
-
-<p>9th. As the conscientious discharge of his duty should be
-the aim of every apothecary, seeing that on his correct action
-depends, in no slight degree, the usefulness of the physician,
-no pains should be spared to secure the efficiency of the medicines
-dispensed, whether they be drugs or preparations. The
-latter should always be prepared of full strength, and according
-to the formulæ recognized by the United States Pharmacopœia,
-unless when otherwise specially ordered.</p>
-
-<p>10th. The apothecary should always label, and number correctly,
-all medicine dispensed by him on the prescription of a
-physician; he should, also, invariably, transcribe on the label,
-in a plain legible hand writing, the name of the patient, the
-date of the prescription, the directions intended for the patient,
-and the name or the initials of the prescriber.</p>
-
-<p>11th. The original prescription should always be retained
-by the apothecary, whose warrantee it is, in case of error on
-the part of the prescriber. When a copy is requested, if, as in
-many instances, no objection can be urged, it should be a <i>fac
-simile</i> in language and symbols, and not a translation.</p>
-
-<p>12th. In no instance is an apothecary justifiable in leaving
-his business in charge of boys, or incompetent assistants—or
-in allowing such to compound prescriptions, excepting under
-his immediate and careful supervision. <span class="xxpn" id="p057">{57}</span></p>
-
-<p>13th. In justice to his sense of the proper limits of his vocation,
-to the medical profession, and to his customers, the apothecary
-should abstain from prescribing for diseases, excepting
-in those emergencies, which occasionally occur, demanding immediate
-action, or, in those every day unimportant cases where
-to refuse council would be construed as a confession of ignorance,
-calculated to injure the reputation of the apothecary,
-and would be attended with no advantage to either physician
-or patient.</p>
-
-<p>14th. The sale of quack or secret medicines, properly so
-called, constitutes a considerable item in the business of some
-apothecaries. Many of the people are favorably impressed towards
-that class of medicines, and naturally go to their apothecaries
-for them. It is this which has caused many apothecaries
-to keep certain of these nostrums, who are ready and willing
-to relinquish the traffic in them, but for the offence that a refusal
-to supply them to their customers would create. At present
-all that the best disposed apothecary can be expected to
-do, is to refrain from the manufacture himself, of quack and
-secret medicines; to abstain from recommending them, either
-verbally or by exhibiting show bills, announcing them for sale,
-in his shop or windows; and to discourage their use, when
-appealed to.</p>
-
-<p>15th. Having in view the welfare of the community and the
-advancement of pharmaceutic science and interest, it is all important
-that the offices of prescribing and compounding medicines
-should be kept distinct, in this city and surrounding districts.
-All connection with, or moneyed interest in apothecary
-stores, on the part of physicians, should, therefore, be discountenanced.
-With respect to the pecuniary understanding said
-to exist, in some instances, between apothecaries and physicians,
-we hold, that no well disposed apothecary or physician
-would be a party to such contract, and consider the code of
-Ethics of the College of Pharmacy and the Constitution of the
-Philadelphia County Medical Society as sufficiently explicit on
-this subject. <span class="xxpn" id="p058">{58}</span></p>
-
-<p>16th. In reference to the patronage on the part of Physicians
-of particular apothecaries, we are of opinion, as a general rule,
-that Graduates in Pharmacy should be encouraged in preference
-to others of the same date of business, and whilst admitting
-the abstract right of the physician to send his prescription
-where he pleases, we think that justice should dictate the propriety
-of his encouraging the nearest apothecary deserving of
-his confidence and that of the patient.</p>
-
-<div class="psignature">
-<ul class="ulstnz">
-<li><i>Committee of County Medical Society:</i>
-<ul class="ulin1">
-<li>D. <span class="smcap">F<b>RANCES</b></span>
-<span class="smcap">C<b>ONDIE,</b></span></li>
-<li><span class="smcap">W<b>M.</b></span>
-<span class="smcap">M<b>AYBURY,</b></span></li>
-<li>G. <span class="smcap">E<b>MERSON</b>.</span></li></ul></li>
-
-<li><i>Committee of Phila. College of Pharmacy:</i>
-<ul class="ulin1">
-<li><span class="smcap">W<b>ILLIAM</b></span>
-<span class="smcap">P<b>ROCTER,</b></span>
-<span class="smcap">J<b>R.,</b></span></li>
-<li>H. C. <span class="smcap">B<b>LAIR,</b></span></li>
-<li><span class="smcap">J<b>OHN</b></span> H.
-<span class="smcap">E<b>CKY</b>.</span></li></ul></li></ul>
-</div><!--psignature-->
-
-<div class="dkeeptogether">
-<p class="fsz6">[We republish the above Report from the American Journal of Pharmacy,
-as its “hints” are, in the main, practical and judicious. On one or two
-points, however, we differ from the author of the report. We do not
-think (B. Article 4th,) that the apothecary is ever justified in making
-inquiries relative to the disease of a patient. If his very inquiries
-may “convey a wrong impression to the patient, through an ignorant
-messenger,” how can that ignorant messenger give information regarding
-the disease of a patient, which can guide the apothecary, himself not
-supposed to be versed in therapeutics, in judging of the correctness
-of a prescription? The apothecary, where he is in doubt, may inquire
-the dose and the age of the patient, and then, if he deems necessary,
-may have recourse to the physician himself. And in regard to the next
-article, when the apothecary is asked the “nature of the ingredients”
-in a prescription, it is wisest to refer the patient, <i>as a rule</i>, to
-the prescriber.]—<span class="smcap">E<b>D.</b></span>
-<span class="smcap">J<b>OURNAL</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">P<b>HARMACY.</b></span></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div class="divhhang2"><h3 class="h3runin">
-NOTE ON THE DIVISION OF GUM RESINS IN
-POTIONS, AND IN DIACHYLON PLAISTER.</h3></div>
-</div><!--section-->
-
-<p>At a recent meeting of the Society of Pharmacy, M. Poulenc,
-submitted a method which he has employed for eight years in
-his laboratory, for suspending gum resins in medical prescriptions.
-It is well known how much difficulty there is in suspending
-either in a mixture, or lotion, one or more grammes of
-gum ammoniac, assafœtida, myrrh, &amp;c. In
-dividing the <span class="xxpn" id="p059">{59}</span>
-assafœtida with yolk of egg alone, the manipulation is long; but if
-instead of the egg, we employ 6 or 8 drops of oil of sweet
-almonds per gramme, the gum resin, even when entire, is
-easily reduced; when the oil is well mixed, and the paste as
-homogeneous as possible, a little water is first added, then gradually
-the quantity of the prescribed vehicle, as for the mucilage
-of a linctus; the product of this operation will be a speedy and
-very perfect emulsion. One of the advantages of this <i>modus
-faciendi</i>, is, that the product can be warmed without danger of
-coagulation, besides which, it is generally more easy to obtain
-a few drops of oil of sweet almonds, or any other kind of oil
-than the yolk of an egg.</p>
-
-<p>M. Poulenc has recently applied the same method to the
-manufacture of diachylon plaister, in the following manner: take
-some entire pieces of gum resin, and triturate them briskly in
-an iron mortar, after which in a marble, or porcelain mortar,
-mix in the oil, and add a sufficient quantity of water to obtain
-an emulsion about as thick as liquid honey; strain this through
-a coarse cloth; there will be hardly anything left on the cloth,
-and the strained substance will be perfectly homogeneous.
-Evaporate in an earthen vessel, by the water-bath, the water
-which had been mixed in, and when the mass presents the appearance
-of a soft extract, the other ingredients of the plaister
-may be mixed in with the greatest ease. This plaister presents
-a very beautiful appearance, and exhales a very decided odour
-of the gum resins employed in its composition. Should it be
-feared that the small quantity of oil, might weaken the consistence
-of the plaister, M. Poulenc thinks that the quantity of
-turpentine might, without inconvenience, be slightly diminished.</p>
-
-<div class="dkeeptogether">
-<p>We have tried with success the method of M. Poulenc for
-emulsions with gum resins; as to its further use in the preparation
-of diachylon plaister, we cannot speak with certainty.—There
-is a chemical question, which, in all cases governs the preparation
-of phar­ma­ceu­ti­cal agents.—<i>Stan. Martin, L’Abeille
-Medicale.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div><span class="xxpn" id="p060">{60}</span></div>
-<h3>ESSENCE OF JARGONELLE PEAR.
-<span class="hsmall">
-BY THE EDITOR OF THE PHARMACEUTICAL JOURNAL.</span></h3>
-</div><!--section-->
-
-<p>The liquid sold under this name, and which has been for some
-time in use by confectioners, is the <i>acetate of the oxide of amyle</i>.</p>
-
-<p>It is prepared with great facility by submitting to distillation
-a mixture of one part of amylic alcohol (better known by the
-name of oil of grain,) two parts of acetate of potash, and one
-part of oil of vitriol. The distilled liquid is to be washed with
-alkaline water, dehydrated by chloride of calcium, and afterwards
-rectified by distillation from protoxide of lead.</p>
-
-<p>Its properties are thus stated by Dumas:—In the state of
-purity it is a colorless, very limpid, volatile liquor, which boils
-at 257° F. It possesses an ethereal aromatic odor, somewhat
-resembling acetic ether; its sp. gr. is less than that of water.
-It is insoluble in water, but soluble in alcohol, ether, oil of
-grain, &amp;c. Concentrated sulphuric acid does not color it in the
-cold; but by heating the mixture, it becomes reddish-yellow,
-and when the temperature is elevated, destructive reaction
-takes place, the mixture blackens and evolves sulphurous acid.
-Placed in contact with a watery solution of potash it is very
-slowly altered; but an alcoholic solution of this base rapidly
-decomposes, an alkaline acetate is formed, and the oil of grain
-regenerated. Its ultimate composition is</p>
-
-<div class="dtablebox">
-<div class="ulin2 pleft">
-<table summary="">
-<tr>
- <td class="pleft">14 equivalents of carbon,</td>
- <td class="pright">84</td></tr>
-<tr>
- <td class="pleft">14 equivalents of hydrogen,</td>
- <td class="pright">14</td></tr>
-<tr>
- <td class="pleft">&#x2007;4 equivalents of oxygen,</td>
- <td class="pright">32</td></tr>
-<tr>
- <td></td>
- <td class="pright"><span class="tdsum">130</span></td></tr>
-</table></div></div>
-
-<p>But its proximate composition is amyle, (an hypothetical
-radical) oxygen, and acetic acid.</p>
-
-<div class="dtablebox">
-<div class="ulin2 pleft">
-<table summary="">
-<tr>
- <td class="pleft">1 equivalent amyle (C<sub>10</sub>&#x202f;H<sub>11</sub>)</td>
- <td class="pright">71</td></tr>
-<tr>
- <td class="pleft">1 equivalent oxygen,</td>
- <td class="pright">8</td></tr>
-<tr>
- <td class="pleft">1 equivalent acetic acid, (C<sub>4</sub>&#x202f;H<sub>3</sub>&#x202f;O<sub>3</sub>)</td>
- <td class="pright">51</td></tr>
-<tr>
- <td></td>
- <td class="pright"><span class="tdsum">130</span></td></tr>
-</table></div></div>
-
-<p>Its formula is thus stated by Brande, AylO, AcO<sub>3</sub>; by
-Fownes, AylO,&#x202f;C<sub>4</sub>&#x202f;H<sub>3</sub>&#x202f;O<sub>3</sub>.</p>
-
-<p><i>Amylic alcohol</i>, or <i>oil of grain</i>, called by the Germans
-<i>fuselol</i>; is the hydrated oxide of amyle, AylO,
-HO. It is <span class="xxpn" id="p061">{61}</span>
-largely produced in the distillation of spirit from corn. It is
-officinal in the Dublin Pharmacopœia, where it is termed
-“<i>Alcohol amylicum—Fusel oil</i>,” and is employed to yield
-valerianic acid in the process for making “Sodæ Valerianas.”</p>
-
-<div class="dkeeptogether">
-<p>From information which we have received, we have reason
-to believe that the use, by very young children, of articles of
-confectionery, flavored with essence of pear, is not without
-danger. A child on two occasions became partially comatose,
-with livid lips and feeble pulse, after eating some confectionery
-which it was calculated contained about one drop of the essence.—<i>London
-Phar­ma­ceu­ti­cal Journal, November, ’51.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="divh3ord">
-<h3 class="h3runin"><i>On the Growth of Plants in Various Gases, Especially substituting
-Carbonic Oxide, Hydrogen, and light Carburetted
-Hydrogen for the Nitrogen of the Air.</i></h3>
-By <span class="smcap">M<b>ESSRS.</b></span>
-<span class="smcap">G<b>LADSTONES.</b></span>
-<span class="smcap">D<b>R.</b></span>
-<span class="smcap">G<b>LADSTONE</b></span> gave the results of experiments made
-and still in progress, with his brother, Mr. G. Gladstone. After
-describing the effect on some flowers, as the pansy, the crocus,
-&amp;c.—a discussion ensued—Mr. R. Warrington suggesting that
-in such experiments the plants be allowed to take root well before
-immersing them in the gases; next, that the combined atmospheres
-were too much saturated with moisture, often causing
-rapid growth and decay; and that these flowers and roots should
-be compared with others grown in similar volumes of confined
-common air. Prof. Dumas spoke of the great, and, indeed,
-almost unsuspected influence of carbonic oxide gas. The judicial
-investigations in France had disclosed the fatal effects of
-this gas as being so much greater than carbonic acid gas. In
-the atmosphere produced by the burning of charcoal, 1-200th
-part of carbonic oxide was fatal, while with one-third the volume
-of carbonic acid the animal was asphyxiated, but afterwards revived.
-The Chairman said that he had reason to believe that
-in the combustion of anthracite, much carbonic oxide gas is
-produced.—<i>Pharmaceutic Journal, from Report of British
-Association in the Athenæum.</i></div>
-
-<div class="section dedtrl">
-<div><span class="xxpn" id="p062">{62}</span></div>
-<h3>EDITORIAL.</h3>
-<hr class="hr12" />
-
-<div class="divh4ord"><h4 class="h4runin">“<span
-class="smcap">A<b>N</b></span>
-<span class="smcap">A<b>CT</b></span>
-<span class="smmaj">RELATING</span> <span
-class="smmaj">TO</span>
-<span class="smmaj">THE</span> <span
-class="smmaj">SALE</span>
-<span class="smmaj">OF</span> <span
-class="smcap">D<b>RUGS</b></span>
-<span class="smmaj">AND</span>
-<span class="smcap">M<b>EDICINES.”</b></span></h4>—We would call the
-attention of our readers to the following strange bill, which has been
-introduced into the Legislature of this State:</div>
-
-<blockquote>
-
-<p class="pleft phanga">“<i>The People of the State of New York, represented in Senate and Assembly, do
-enact as follows</i>:</p>
-
-<p><span class="smcap">S<b>ECTION</b></span> 1st. It shall not be lawful for any Physician, Druggist, Apothecary,
-or any person or persons dealing in Drugs or Medicines, or engaged in preparing
-any compound to be given or administered as a medicine, to offer the same for
-sale without first affixing or attaching thereto, in a conspicuous manner, a written
-or printed recipe in the English language, stating the drug or drugs, medicine
-or medicines, or ingredients of which it is composed, together with the proportions
-of each.</p>
-
-<p><span class="smcap">S<b>ECTION</b></span> 2. Any person or persons violating the preceding section of this Act,
-shall be considered guilty of a misdemeanor, and on conviction thereof shall be
-fined for each offence in a sum not less than ten dollars, nor exceeding one hundred
-dollars, or be imprisoned for a term not exceeding six months.</p>
-
-<p><span class="smcap">S<b>ECTION</b></span> 3. This Act shall not take effect until the first day of July, 1852.</p>
-
-<p class="psignature">Albany, February 6th, 1852.”</p></blockquote>
-
-<p>On reading this bill, carelessly, we thought that it was intended to be levelled
-at nostroms and quack medicines. If it were so, however laudable the motives
-of its originators, its policy is much to be doubted. The public are not prepared
-for it; it would, at once, raise a clamour about selfish motives and private interests;
-it would never be enforced: and would tend to bring more moderate
-and judicious legislation into contempt. But a careful perusal of the bill shows
-that it applies to Apothecaries and venders of medicines in the ordinary prosecution
-of their business. Should it become a law, no Apothecary could sell six
-cents worth of paregoric, or an ounce of spiced syrup of rhubarb, unless he accompanies
-the article sold with a detailed enumeration of the substances composing
-it, with the proportions of each “written or printed in the English language,”
-without rendering himself liable to fine and imprisonment! It is not
-necessary to characterize such a law to Druggists. It is worthy of notice, however,
-as an instance of that spirit of pseudo reform which is at present so rampant.
-As a general rule, we believe, Physicians have no objection to their
-patients knowing the remedies they prescribe, particularly when the patients
-themselves are people of sense and information, but in many instances, of what
-use would it be to the sick man and his conclave of friends to be
-able to spell <span class="xxpn" id="p063">{63}</span>
-out the ingredients of a prescription? Would it help them to a knowledge of its
-effects? Are they the best judges of its propriety? And if so, had not the law
-better proscribe educated Physicians altogether?</p>
-
-<div class="dkeeptogether">
-<p>And then “written or printed in the English language”! The framers of such
-a law could not be expected to recognize a National or any other Pharmacopœia;
-which of the twenty trivial names, that in different times and different places
-have been bestowed upon the same article, should we choose? Should we follow
-strictly the modern chemical nomenclature, or should we take that of a few
-years back or should we go to the fountain head and return to the names of the
-old Alchemists? The whole matter is unworthy serious comment.</p>
-
-<hr class="hr34" /></div>
-
-<div class="dkeeptogether">
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">C<b>OFFINISM.</b></span></h4>—England
-for a long time supplied the United States to a great extent
-with quacks and quack medicines. We now begin to produce these articles
-not only in quantity sufficient to supply the home market, but are enabled to
-spare some of our surplus for the mother country. Thomsonianism has been
-transplanted to Great Britain, where it flourishes under the auspices of a man
-named Coffin, and is thence termed Coffinism. Coffin has already numerous
-disciples among the illiterate classes of the community. He gives instruction in
-his physic made easy, and furnishes his followers with certificates of their acquaintance
-with the mysteries of steam, hot drops and lobelia. Each of his
-graduates, too, pays a certain sum into a fund created to defend those of the
-associates, who may fall within the grasp of the law. Already several of them
-have been tried for manslaughter, but the “Anglo Saxon race,” among its other
-peculiarities, is determined to be quacked when it chooses, and the Coffinites
-hitherto have got off scot free.</div>
-
-<hr class="hr34" /></div>
-
-<div class="dkeeptogether">
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">C<b>AMPHOR</b></span>
-<span class="smmaj">AS</span>
-<span class="smmaj">A</span>
-<span class="smcap">S<b>TIMULANT.</b></span></h4>—A
-lady who for a long time had suffered from occasional
-attacks of hemoptysis, and other signs of consumption, and who likewise
-from reduced circumstances, was subject to great moral depression, applied for
-advice concerning an epileptic seizure from which she had suffered for the first
-time on the preceding night. On inquiry it came out that she had for a long time
-been in the habit of taking large quantities of Camphor. She had begun the
-practice a number of years previously, by taking the camphor mixture which had
-been ordered for her invalid husband. Gradually she acquired a fondness for it,
-and constantly increasing the dose, she, at the time of her seizure, took daily
-from two drachms to half an ounce. She was in the habit of taking it crude,
-gradually nibbling her allowance in the course of the day. She described its effects
-as exceedingly agreeable, renovating her strength, inspiring her with hope
-and confidence, and enabling her to get through with the fatigues of the day.—When
-not under its influence she was languid, feeble and depressed. Taking
-into account the condition of her lungs, her general health did not seem to have
-been affected by the habit.</div>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div><span class="xxpn" id="p064">{64}</span></div>
-
-<div class="divh4ord"><h4 class="h4runin"> <span
-class="smcap">C<b>AVENDISH</b></span> <span
-class="smcap">S<b>OCIETY.</b></span></h4>—We give place willingly to the
-following circular of Mr. Procter, convinced that in so doing we are
-subserving the best interests of our readers. The names of the officers
-and council of the society, give ample assurance of the value of the
-works selected for publication.</div>
-
-<blockquote>
-
-<p>CAVENDISH SOCIETY, LONDON.—<span class="smcap">P<b>RESIDENT</b></span>—Prof. Thomas Graham.</p>
-
-<p><span class="smcap">V<b>ICE</b></span>
-<span class="smcap">P<b>RESIDENTS</b></span>—Dr. Faraday, Prof. Brande, Sir Robert Kane, Arthur Aiken,
-and others.</p>
-
-<p><span class="smcap">C<b>OUNCIL</b></span>—Jabob Bell, Dr. Pereira, Dr. Golding Bird, Robert Warrington,
-Alfred S. Taylor, and others.</p>
-
-<p><span class="smcap">T<b>REASURER</b></span>—Dr. Henry Beaumont Leeson.</p>
-
-<p><span class="smcap">S<b>ECRETARY</b></span>—Theophilus Redwood.</p>
-
-<p>The Cavendish Society was instituted for the promotion of Chemistry, and its
-allied sciences, by the diffusion of the literature of these subjects. The society
-effects its object by the translation of recent works and papers of merit; by the
-publication of valuable original works which would not otherwise be printed,
-from the slender chance of their meeting with a remunerative sale, and by the
-occasional republication or translation of such ancient or earlier modern works,
-as may be considered interesting or useful to the members of the Society.</p>
-
-<p>Heretofore persons in this country were admitted to membership on application
-to Mr. Redwood the general Secretary of the Society, at London. To facilitate
-communication between the Society and its American members, the undersigned
-has been appointed <i>Local Secretary</i>, at Philadelphia, and to whom application
-should be made. The payment of five dollars U. S. Currency or its equivalent,
-annually, entitles each member to a copy of every work published by the
-Society for the period during which their membership continues. No member
-shall be entitled to the Society’s publications unless his annual subscription shall
-have been duly paid, and it is to be understood that the charges for duty and
-freight on the books arising from their shipment to this country are to be paid
-to the Secretary on delivery.</p>
-
-<p>The number of Works published will necessarily depend on the number of
-annual subscribers; hence it is of great importance to the individual interest of
-the members that their aggregate number should be large. The Society now
-issue two or three volumes yearly. The books are handsomely printed on a uniform
-plan, for members only, their publication being conducted by the Council
-who are elected annually by Ballot from among the members; every member
-having a vote.</p>
-
-<p>Members by subscribing for all or any of the past years, may get the works
-issued during those years except the first volume, published by the Society in
-1848, entitled “Chemical reports and Memoirs by Thomas Graham, F. R. S.”
-which is now out of print. The other volume of that year which is the 1st
-volume of Gmelin’s Handbook of Chemistry, can be obtained by paying half
-the subscription.</p>
-
-<p>The subscribers for 1849 are entitled to the 2d and 3d volumes of Gmelin’s
-Chemistry—and the Life of Cavendish by Dr. George Wilson of Edinburgh. The
-subscribers for 1850 receive the 4th and 5th volumes of Gmelin’s work, and those
-of the Current year will receive the 1st volume of Lehmann’s Physiological
-Chemistry translated by Dr. Day, and the 6th volume of Gmelin.</p>
-
-<div class="dkeeptogether">
-<p>As the sole object of the Cavendish Society is the encouragement of an important
-branch of scientific literature, all who feel interested in Chemistry should
-assist in that object by subscribing, or using their influence with others to extend
-the list of members, which now amounts to more than 850. All those who may
-desire to become members, to examine the works already issued, or to gain further
-information regarding the Society, are requested to apply to the undersigned.</p>
-
-<p class="psignature">WILLIAM PROCTER, <span class="smcap">J<b>R.</b></span></p>
-
-<p><span class="dright">166 South 9th Street, Philadelphia.</span>
-October, 1851.</p>
-</div><!--dkeeptogether--></blockquote>
-
-</div><!--section--></div><!--section dedtrl-->
-
-<div class="chapter">
-<div><span class="xxpn" id="p065">{65}</span></div>
-<h2 class="h2nobreak"><span class="hsmall">NEW YORK</span>
-JOURNAL OF PHARMACY.
-<span class="hsmall"><span class="hdate">
-MARCH, 1852.</span></span></h2>
-
-<h3>ON THE HEAVY OIL OF WINE.
-<span class="hsmall">
-BY EDWARD N. KENT.</span></h3>
-
-<p>Having occasion to use a little of the officinal oil of wine, I
-applied to one of our wholesale Druggists, who furnished me
-with an article, which I found to be useless. On testing a
-sample, it <i>mixed with water</i> and produced a slight milkiness.
-It was evidently alcohol, containing a trace only of oil. The
-price of this was $4 per pound.</p>
-</div><!--chapter-->
-
-<p>Samples were then obtained from all of the wholesale Druggists
-from whom it could be procured, and each of these was
-proved to be equally worthless, as the results of the following
-tests will show.</p>
-
-<p>The second sample, when agitated with water, separated into
-two portions, one of which was aqueous and the other ethereal.
-The latter exposed to the air, to separate the ether by spontaneous
-evaporation, left a residue which was completely <i>soluble</i>
-in water, and proved to be alcohol. The price of this mixture
-of alcohol and ether was $4,50 per pound.</p>
-
-<p>The third sample when agitated with water, became slightly
-turbid, and was dissolved. It had a pale yellow color, ethereal
-odor, and the sp. gr. was .909. A portion of it, exposed twelve
-hours to spontaneous evaporation in a graduated measure, lost
-one-eighth of its bulk, and on the application of a taper, burned
-with a <i>blue</i> flame. It is quite evident that this also was alcohol
-with a small portion of ether, and a trace of
-oil. The price <span class="xxpn" id="p066">{66}</span>
-of this was $4,50 per pound, and it was labelled “Ol. Aetherii.”
-It bore also the name of the <i>importers</i>.</p>
-
-<p>The fourth sample, when agitated with water, became slightly
-turbid, and dissolved. It was colorless, had an ethereal odor,
-and the sp. gr. was .844. This also burned with a <i>blue</i> flame.
-The price of this worthless article was $6,50 per pound. It
-was labelled “Ol. Vini Pur,” and bore also the name of the
-<i>London</i> manufacturer.</p>
-
-<p>It may be well to remark, that the officinal oil of wine, when
-agitated with water, separates and falls to the bottom, being
-heavier than water, whence its name. The sp. gr. of the pure
-oil is not less than 1.05, and it has a yellow color.</p>
-
-<p>The labels on the third and fourth samples above mentioned,
-are alone not sufficient evidence to prove that they were <i>imported</i>,
-but, in addition to the label, I was informed that one of
-them <i>was recently imported</i>, and also that the manufacturing
-Chemists in this country do not make or sell the oil of wine.—In
-view of this statement (if true) the question naturally arises:
-How did the above worthless articles pass the Custom House
-under the existing law for “the prevention of the importation
-of spurious and adulterated drugs?”</p>
-
-<p>I have examined another sample which is not offered for sale
-as oil of wine, but as it has properties resembling more nearly
-the officinal oil than either of the four samples above mentioned,
-it might possibly be confounded with the oil of wine. This
-sample had an agreeable <i>vinous odor</i>, and a <i>yellow</i> color.—When
-agitated with water a considerable quantity of oil separated,
-which was <i>lighter</i> than water. A portion of the original
-oil, distilled in a glass retort with a thermometer passed through
-a cork, inserted into the tubulare, gave about half its bulk of a
-colorless liquid below 180º F., which proved to be alcohol containing
-a small quantity of acetic ether and œnanthic ether.—The
-residue left in the retort had the properties of a mixture of
-œnanthic ether and œnanthic acid. The above article has been,
-extensively used (in connection with acetic ether)
-for the <span class="xxpn" id="p067">{67}</span>
-manufacture of factitious brandy, and is sold for about $1,50 per
-ounce.</p>
-
-<p>After having tested samples of all the different articles offered
-for sale under the name of “oil of wine” by the wholesale
-Druggists in New York, without being able to find either
-of them worthy of the name, I prepared a little for my own
-use, by the following process, which is that of the London
-Pharmacopœia:</p>
-
-<p><span class="nowrap">2 lbs.</span>
-oil of vitriol were carefully mixed with <span class="nowrap">1 lb.</span>
-commercial
-alcohol, and distilled very slowly in a glass retort. The
-product consisted of two portions, the lightest of which was an
-ethereal solution of oil of wine measuring <span class="nowrap">6 oz.</span>
-This was exposed
-to the air for twenty-four hours to remove the ether by
-spontaneous evaporation. The residue, washed with a little
-dilute solution of potash and dried, was pure “Heavy Oil of
-Wine,” and weighed half an ounce. The quantity obtained,
-though small, corresponds exactly with the proportion obtained
-by Hennell at the Apothecaries’ Hall, London, viz: <span class="nowrap">17 oz.</span>
-oil of
-wine from <span class="nowrap">34 lbs.</span>
-alcohol, and <span class="nowrap">68 lbs.</span>
-oil of vitriol.</p>
-
-<p>By a simple calculation of the cost of manufacture, and expense
-of importation, it will be seen that pure oil of wine could
-not be imported and sold at the prices asked for the samples
-above mentioned. In making this calculation it will be necessary
-to observe that under the existing excise law, the price
-of alcohol in England is much higher than in the United States,
-and is now, I am informed, from 17 to 18 shillings sterling per
-gallon. The following calculation (based on the results of Hennell’s
-process) gives the cost of <i>pure</i> oil of wine, manufactured
-in England and imported into this country, at $35 per pound;
-but the spurious articles now sold for oil of wine, are offered at
-prices varying from $4 to $6,50 per pound.</p>
-
-<div class="dtablebox">
-<table summary="">
-<tr>
- <td class="pleft"><p class="pleft phanga">34 lbs. alcohol (about 5 gallons)
- at 17 shillings sterling per gallon,</p></td>
- <td class="pright">$18&#160;70</td></tr>
-<tr>
- <td class="pleft"><p class="pleft phanga">68 lbs. oil of vitriol,
- at 2&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub>
- cents per pound,</p></td>
- <td class="pright">1&#160;70</td></tr>
-<tr>
- <td class="pleft"><p class="pleft phanga">Labor, fire, packing, bottle, &amp;c.</p></td>
- <td class="pright">1&#160;50</td></tr>
-<tr>
- <td class="pleft" id="p068"><p class="pleft phanga">Cost
- of 17 oz. oil, to the English manufacturer,</p></td>
- <td class="pright"><span class="tdsum">$21&#160;90</span></td></tr>
-<tr>
- <td class="pright">Or per pound,</td></tr>
-<tr>
- <td class="pleft"><p class="pleft phanga">Cost
- of making 1 lb. pure oil in England,</p></td>
- <td class="pright">$20&#160;61</td></tr>
-<tr>
- <td class="pleft"><p class="pleft phanga">Manufacturer’s
- profit, say 10 per cent.,</p></td>
- <td class="pright">2&#160;06</td></tr>
-<tr>
- <td class="pleft"><p class="pleft phanga">Wholesale
- price in England,</p></td>
- <td class="pright"><span class="tdsum">$22&#160;67</span></td></tr>
-<tr>
- <td class="pleft"><p class="pleft phanga">Duties
- paid by importer, 30 per cent.</p></td>
- <td class="pright">6&#160;80</td></tr>
-<tr>
- <td class="pleft"><p class="pleft phanga">Charges
- paid by importer, 10 per cent.</p></td>
- <td class="pright">2&#160;26</td></tr>
-<tr>
- <td class="pleft"><p class="pleft phanga">Cost of importation,</p></td>
- <td class="pright"><span class="tdsum">$31&#160;73</span></td></tr>
-<tr>
- <td class="pleft"><p class="pleft phanga">Profit on importation,</p></td>
- <td class="pright">3&#160;27</td></tr>
-<tr>
- <td class="pleft"><p class="pleft phanga">Wholesale
- price of the imported oil,</p></td>
- <td class="pright"><span class="tdsum">$35&#160;00</span></td></tr>
-</table>
-</div><!--dtablebox-->
-
-<p>I regret that I have been unable to find the price of pure oil
-of wine quoted in the lists of any of the manufacturing chemists,
-but think it fair to infer that if the article is offered for
-sale, of English manufacture, at less than $2 per ounce, that impurity
-or adulteration may be suspected, and in this case, I
-would recommend the following process for testing its purity.</p>
-
-<p>Agitate a small portion of the oil in a test tube, with an
-equal measure of water. If it dissolves, reject the sample as
-impure, but if the mixture separates into two portions, after
-standing at rest for a few moments, put it on a paper filter,
-previously well moistened with water. The water in the mixture
-will pass through the moistened filter, leaving ether or oil
-upon it. If this is colorless or very pale yellow, it should be
-exposed a few hours to spontaneous evaporation, to ascertain
-if it contains oil. But if it is yellow and heavier than water,
-this portion may consist of oil of wine; this, however, should be
-verified by observing the odor and sp. gr. of the oil. By carefully
-operating upon a <i>known</i> quantity in the above manner,
-the <i>proportion</i> of alcohol or ether (if present) may be easily
-determined.</p>
-
-<p>As the efficacy of Hoffman’s Anodyne is due to the heavy
-oil of wine contained in it, and as the proportion of this oil to
-the other constituents is small, it is
-particularly necessary that <span class="xxpn" id="p069">{69}</span>
-the oil should be pure. The high price of alcohol in England,
-and a defect in the directions formerly given for its preparation
-in the United States Dispensatory, are the probable causes
-of the absence of pure oil of wine in New York. In recent editions
-of the above work, the defective proportions have been
-substituted by those of the London college, and there is now
-no reason why pure oil of wine should not be made in the United
-States, where alcohol is cheaper, probably, than in any
-other part of the world. I hope that our manufacturing chemists
-will turn their attention to this subject, and displace all
-worthless chemical and phar­ma­ceu­ti­cal preparations by such
-as will be useful to the public, and creditable to the manufacturers.</p>
-
-<div class="dkeeptogether">
-<p class="fsz6">[The United States Pharmacopœia directs two pints of
-alcohol (sp. gr. .835) to be mixed with three pints of sulphuric acid
-(sp. gr. 1.845); by weight rather better than 3.3 of the acid, to one
-part of alcohol, and gives 1.096 as the sp. gr. of the oil.]—<span
-class="smcap">E<b>D.</b></span></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>PRACTICAL HINTS,
-<span class="hsmall">
-BY A WHOLESALE DRUGGIST.</span></h3>
-</div><!--section-->
-
-<p>The prosecution of the business of preparing and vending
-medicines, has been and still is too exclusively confined to the
-dollar and cent department.</p>
-
-<p>Buyers take too much for granted. Ipecac is Ipecac all the
-world over, and he who can sell Ipecac at the lowest price is
-likely to sell the most and make the most money. To the credit
-of the craft, in part however, a manifest improvement in this
-respect, has taken place within the last few years, to their
-credit in part, I say, because the demand for good medicines
-has of late increased, <i>compelling</i> some druggists to furnish
-better qualities than they otherwise would.</p>
-
-<p>It is a common remark that the late law, passed by Congress,
-relating to the introduction or importation of adulterated and
-inferior drugs, has produced a more desirable state
-of things in <span class="xxpn" id="p070">{70}</span>
-our community, by opening the eyes of consumers to the fact that
-inferior drugs are imported and are consumed. This is only in
-part true. An improved state of public opinion first caused
-the law to be passed; this, in connection with the law when
-passed, caused a further progress. The stone, thus set in motion,
-will no doubt roll on till an entire revolution takes place
-both with venders and consumers.</p>
-
-<p>It is not to be supposed that the person who swallows a dose of
-medicine dreams that it is not of good quality, or that he would
-hesitate in the value of six cents when purchasing his dose, between
-the best of its kind and that which is comparatively inert.
-The root of this great evil, viz: the purchasing, selling,
-and administering inferior medicines is <i>ignorance</i>. The patient
-can have little or no knowledge of the efficacy of what is given
-to him to take, and to the shame of a large portion of the medical
-profession be it spoken, the doctor knows but little more.
-I speak with confidence when I say that the knowledge of the
-sensible properties of drugs is almost exclusively confined to
-the druggist and apothecary. Hence in the purchase of his supplies
-of medicines of the apothecary, the only guide the physician
-has, is the price and the word of the seller,—this ought
-not so to be. At this time I do not profess to offer a remedy.
-The object of the present communication is to offer a few practical
-hints to the druggist, connected with the purchase of his
-stock; many, if not all, desire to purchase reliable medicines,
-but from want of knowledge between good and bad have only
-the price, and the reputation of the seller to guide them.</p>
-
-<p>I now propose to take up articles of general use, and suggest
-a few simple tests of their quality and condition, which any one
-can apply with such means as an ordinary drug store furnishes.</p>
-
-<p>Before proceeding with this subject, however, I beg leave to
-urge upon every druggist and apothecary, the great importance
-of having, at his disposal, a set of reliable hydrometers
-for liquids heavier and lighter than water, and a properly
-constructed thermometer for determining the temperature of
-liquids. He will find them his right hand helps,
-not only for <span class="xxpn" id="p071">{71}</span>
-detecting adulterations, but for determining the strength or
-quality of nearly all the liquids which come under his inspection.</p>
-
-<p>Certain arbitrary terms have been applied to solutions of
-ammonia and ethers, such as F.; F.&#160;F.; F.&#160;F.&#160;F.; and so on.
-These terms were originally intended to indicate the exact
-strength of those liquids to which they were applied; but, unfortunately,
-every manufacturer has a standard of his own, indicating
-the value of an F, or in other words these terms mean
-nothing, and should be banished from the books of every intelligent
-dealer. The hydrometer will determine the strength
-accurately and beyond all question, the dealer therefore should
-make his purchases, estimating the strength by the specific
-gravity either in decimals or degrees.</p>
-
-<p>In detecting adulterations of essential oils, the Hydrometer
-is invaluable. If the specific gravity of an oil does not accord
-with the standard, it is proof positive that the oil is not pure;
-the reverse, however, is not so clear. If the specific gravity
-does accord with the standard, it is not a positive proof that
-it is pure, for the reason that the adulteration may be of the
-same specific gravity as the oil itself.</p>
-
-<p>The strength of acids such as muriatic, nitric, sulphuric,
-aqua fortis, and the like, is accurately determined by this
-means.</p>
-
-<p>A set of these instruments, on which dependence may be
-placed, can be obtained at a price varying from $5 to $12.</p>
-
-<p>Let the dealer apply these instruments (where applicable) to
-all his purchases, and he will soon find out what he sells and
-who deals honestly by him.</p>
-
-<p><span class="smcap">M<b>AGNESIA</b></span>
-<span class="smcap">(C<b>ALCINED</b>).</span>
-Nearly all that is used in this country
-is imported from England. The quality, not­with­stand­ing
-the drug law, is usually quite inferior. The impurities generally
-are carb. magnesia, lime, alumina and silica.</p>
-
-<p>To detect carb. magnesia, put into a vial a small portion, and
-add two or three times its bulk of water; after mixing them
-well, add a small portion of sulphuric acid—effervesence will
-indicate the presence of a carbonate. On the addition
-of an <span class="xxpn" id="p072">{72}</span>
-excess of acid, the solution should be perfectly clear; whatever is
-deposited is impurity of some kind; if lime is present an insoluble
-sulphate is formed.</p>
-<div class="dkeeptogether">
-<p>The presence of moisture is indicated by the magnesia being
-lumpy, and when shaken, the particles do not flow among
-themselves easily. Good magnesia has a light, lively appearance,
-and is pearly
-white.—<span class="nowrap">(<span class="smmaj">TO BE CONTINUED.</span>)</span></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON BLISTERING CERATE.
-<span class="hsmall">
-BY EUGENE DUPUY, PARMACEUTIST, NEW YORK.</span></h3>
-</div><!--section-->
-
-<p>The successful researches of Robiquet in his labors on the
-Cantharis Vesicatoria, have demonstrated that the cristallisable
-neutral substance to which he gave the name of <i>Cantharidine</i>,
-is the proximate epispastic principle of the blistering cerate
-on which the physician depends in most cases, where an extended
-and yet deep revulsive action is necessary, whether it is derived
-from the cantharis vesicatoria or from other members of the
-trachelid family. The experiments of Mess. Lavini &amp; Sobrero
-of Turin, have confirmed the supposition made by analogy, of
-the indentity which exists in the vesicating principle of all these
-coleopters, and there is a strong presumption that our commerce
-will soon be enriched with the beautiful cantharis, (C.
-nutalli,) abounding in the midst of our rising South Western
-States, and that it will eventually supersede the cantharis vesicatoria
-we obtain from abroad. If adulteration would not
-destroy, by its baneful influence, the advantageous form of complex
-extracts, we could obtain a desirable amelioration of our
-officinal cerate, by substituting for the powdered cantharides
-an equivalent proportion of the oleaginous liquid, with which
-they are saturated in the fresh state, and which is possessed of
-all the vesicating properties of the insect. That liquid is prepared
-in various parts of the Sardinian kingdom, especially at
-Verceil, where it is extensively used by veterinary surgeons in
-preference to the preparations from the
-powdered insect, it <span class="xxpn" id="p073">{73}</span>
-producing deeper revulsion. It is also used, diluted in bland
-oleaginous substances for stimulating the activity of feeble
-serous exudations. As for the present we have not generally
-access to that natural product of the cantharis, we must select
-those insects in the best possible conditions, and endeavor to
-fix their active principle in such a manner as will diminish the
-liability to spontaneous volatilisation of which it is susceptible,
-even at ordinary temperature.</p>
-
-<p>I have been for many years in the habit of preparing a blistering
-plaster which, I think, has some advantages over our
-officinal cerate, because it fixes the volatilisable principle, and
-at the same time rather increases than diminishes its energy.</p>
-<div class="dkeeptogether">
-<p>To the officinal plastic mixture in which the powdered
-cantharides have been gradually incorporated, I add about 5
-per cent of a mixture containing equal parts of strong acetic
-acid (prepared by distillation of the acetates of copper or lead),
-and pulverised camphor. The acetic acid transforms the cantharidine
-into an acetate of the same which is not volatilized at
-ordinary temperatures, and the camphor diminishes the symptoms
-of strangury which some patients have to endure when
-the application of a blistering plaster is resorted to. I also
-usually spread the blister on adhesive plaster on account of the
-convenient adhesion of that material.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON THE ADULTERATION OF CERTAIN DRUGS
-AND THE METHODS OF DETECTING SAID
-ADULTERATIONS.
-<span class="hsmall">
-BY C. TOWNSEND HARRIS,</span>
-<span class="htiny">
-<i>Demonstrator of Chemistry in the New York Medical College</i>.</span></h3>
-</div><!--section-->
-
-<p>Since the establishment of the Office of Inspector of drugs
-in the United States custom houses, a vast amount of spurious
-and adulterated articles has been prevented from finding its
-way into our market. By reference to the report
-of the <span class="xxpn" id="p074">{74}</span>
-inspector of drugs for the port of New York, through which is
-received the great bulk of medicinals imported into this country,
-some idea may be formed of the enormous quantity of
-spurious opium, jalap root, scammony, iodine, iodide of
-potassium, etc. annually introduced from abroad. We find
-that in ten months, from July 1848 to April 1849, inclusive,
-90,000 pounds of adulterated drugs were rejected at the above
-named office. During the years 1848 and ’50, numerous specimens
-of adulterated articles were submitted to me for examination
-by Dr. Baily the inspector of drugs. From a long list I
-may select one as an instance of the impudence exhibited by
-foreign manufacturers, in attempting to thrust upon us their
-villainous compounds, “as standard articles.” I found a specimen
-of iodine, purporting to be pure, to contain 2 per cent. of
-non-volatile matter and <i>40 per cent. of water</i>. The solid materials
-may be passed over as accidental, but the water is undoubtedly
-a fraudulent addition.</p>
-
-<p>Beneficial as the establishment of this office may be in preventing
-the admission of any but genuine articles from abroad,
-in the present state of phar­ma­ceu­ti­cal regulations, it merely
-serves as a stimulus to the exercise of ingenuity at <i>home</i>, for
-producing those adulterations no longer supplied from the other
-side of the water. It is hardly necessary to say that rogues
-are to be found in every nation and in every clime, but I am
-justified (as I believe) in asserting that the spurious articles, at
-present met with in our market, are manufactured by foreigners
-whose métier has been destroyed by the passage of the drug
-bill. It is positively certain that parties who some years since
-conducted a factory in Brussels, from which spurious sulphate of
-quinine, sulphate of morphine, narcotine, &amp;c., were palmed
-upon the citizens of the United States as genuine, are now at
-work in a city not one hundred miles distant.</p>
-
-<p>How is this home adulteration to be met? The appointment
-of a home inspector of drugs, whose duty it should be to visit,
-from time to time, our apothecaries’ establishments, and to inspect
-the quality of the drugs therein, would
-be at variance <span class="xxpn" id="p075">{75}</span>
-with republican ideas; too much like the excise law of England
-so obnoxious to the semi-republican inhabitants of Great Brittain.
-This question, however, has been sufficiently discussed
-by others more able than myself. The remedy for these abuses
-rests with the druggists themselves. Legislative enactments
-are useless. The present college of pharmacy which includes
-in its list of trustees, some of the leading phar­ma­ceu­tists of
-the country, has done much towards elevating the profession.
-It is to be hoped that the laws under which they act will be
-extended to other states, and that no apothecary, unless duly
-licensed by the society, shall have any right to pursue his profession
-without the diploma of the college.</p>
-
-<p>It is a matter of congratulation that some houses in this city,
-and those doing an extensive business, and of the highest reputation,
-have associated with themselves partners possessing a
-competent knowledge of chemistry. From these houses nothing
-can be obtained which is not up to the standard. Our
-apothecaries will find it to their advantage in the end, to employ
-persons possessing sufficient knowledge to enable them to
-detect adulterations in drugs, and not only that, but to be able
-to prepare the most difficult articles.</p>
-
-<p>I shall relate in this paper some instances of <i>home adulterations</i>
-which have recently come under my notice. I have been
-furnished by retail druggists in the city with several specimens
-of the bitartrate of potassa. The results of the examination of
-five different specimens are here given:</p>
-
-<div class="dtablebox">
-<table summary="">
-<tr>
- <td class="pleft">No. 1.</td>
- <td class="pleft">Bitartrate of Potassa,</td>
- <td class="pleft">&#x2007;50&#160;per&#160;cent.</td></tr>
-<tr>
- <td></td>
- <td class="pleft">Sulphate of Lime,</td>
- <td class="pleft">&#x2007;50 per cent.</td></tr>
-<tr>
- <td class="pleft" colspan="2"></td>
- <td class="pleft"><span class="tdsum">100</span></td></tr>
-<tr>
- <td class="pleft">No. 2.</td>
- <td class="pleft">Bitartrate of Potassa,</td>
- <td class="pleft">&#x2007;65 per cent.</td></tr>
-<tr>
- <td></td>
- <td class="pleft">Sulphate of Lime,</td>
- <td class="pleft">&#x2007;35&#160;per&#160;cent.</td></tr>
-<tr>
- <td class="pleft" colspan="2"></td>
- <td class="pleft"><span class="tdsum">100</span></td></tr>
-<tr>
- <td class="pleft">No. 3.</td>
- <td class="pleft">Bitartrate of Potassa,</td>
- <td class="pleft">&#x2007;70 per cent.</td></tr>
-<tr>
- <td></td>
- <td class="pleft">Sulphate of Lime,</td>
- <td class="pleft">&#x2007;30 per cent.</td></tr>
-<tr>
- <td class="pleft" colspan="2"></td>
- <td class="pleft"><span class="tdsum">100</span></td></tr>
-<tr>
- <td class="pleft" id="p076">No. 4.</td>
- <td class="pleft">Bitartrate of Potassa,</td>
- <td class="pleft">&#x2007;75 per cent.</td></tr>
-<tr>
- <td></td>
- <td class="pleft">Sulphate of Lime,</td>
- <td class="pleft">&#x2007;25 per cent.</td></tr>
-<tr>
- <td class="pleft" colspan="2"></td>
- <td class="pleft"><span class="tdsum">100</span></td></tr>
-</table>
-</div><!--dtablebox-->
-
-<p>No. 5 contains a small per centage of carbonate of potassa
-and a considerable amount of carbonate of lime. No weighings
-were made, but the amount of adulteration was apparently
-much less than in the other cases.</p>
-
-<p>I have also had occasion to examine some specimens of
-iodide of potassium, procured from some of the first druggists
-in the city.</p>
-
-<div class="dtablebox">
-<table summary="">
-<tr>
- <td class="pleft" colspan="3">Specimen No. 1, contained:</td></tr>
-<tr>
- <td></td>
- <td class="pleft">Iodide of Potassium,</td>
- <td class="pleft">&#x2007;64&#160;per&#160;cent.</td></tr>
-<tr>
- <td></td>
- <td class="pleft">Chloride of Potassium,</td>
- <td class="pleft">&#x2007;36&#160;per&#160;cent.</td></tr>
-<tr>
- <td class="pleft" colspan="2"></td>
- <td class="pleft"><span class="tdsum">100</span></td></tr>
-<tr>
- <td class="pleft">No.&#160;2.</td>
- <td class="pleft">Iodide of Potassium,</td>
- <td class="pleft">&#x2007;70&#160;per&#160;cent.</td></tr>
-<tr>
- <td></td>
- <td class="pleft">Chloride of Potassium and Carbonate of Potassium,</td>
- <td class="pleft">&#x2007;30 per cent.</td></tr>
-<tr>
- <td class="pleft" colspan="2"></td>
- <td class="pleft"><span class="tdsum">100</span></td></tr>
-<tr>
- <td class="pleft">No.&#160;3.</td>
- <td class="pleft">Iodide of Potassium,</td>
- <td class="pleft">&#x2007;35 per cent.</td></tr>
-<tr>
- <td></td>
- <td class="pleft">Chloride of Potassium and Chloride of Sodium,</td>
- <td class="pleft">&#x2007;65 per cent.</td></tr>
-<tr>
- <td class="pleft" colspan="2"></td>
- <td class="pleft"><span class="tdsum">100</span></td></tr>
-</table>
-</div><!--dtablebox-->
-
-<p>In numerous examinations made of the bitartrate of potassa
-and of the iodide of potassium from foreign sources, I have
-never detected in the iodide of potassium more than 15 per cent
-of impurities, nor in the bitrate of potassa, as imported from
-France, more than 8 per cent. Of course the crude commercial
-argol always contains a small amount of tartrate of lime.</p>
-
-<p>In a sample of so called “cod liver oil,” submitted to me
-for examination by Professor Davis, of the New York Medical
-College, I am unable to detect a single trace
-of iodine. The <span class="xxpn" id="p077">{77}</span>
-oil is rank, <i>almost black</i>, and is evidently a mixture of whale
-oil and linseed oil; in fact it contains no cod liver oil whatever.
-This article has been sold by a fellow professing to be a
-druggist and physician.</p>
-<div class="dkeeptogether">
-<p>It is certainly most important that druggists and their employers
-should possess a sufficient knowledge of chemical tests
-to enable them to detect sophistications. I propose to give
-hereafter the details of examinations of adulterated medicines
-and the simplest methods I can devise for the detection of such
-adulterations, and I trust others beside myself will turn their
-attention toward a subject so fraught with
-interest to the Pharmaceutist.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON WOORARA. <span class="htiny">
-A NOTE READ TO THE ACADEMY OF SCIENCES, BY M. U. BERNARD, IN HIS OWN
-NAME, AND THAT OF M. PELOUZE.</span></h3>
-</div><!--section-->
-
-<p>Woorara is a violent poison, prepared by some of the tribes
-inhabiting the forests bordering the Upper Oronoco, the Rio
-Negro, and the Amazon.</p>
-
-<p>Although the existence of this poison has been long known,
-very vague notions are still entertained regarding its component
-parts. Amongst the savages who sell or barter it, its preparation
-remains secret; and has only been made known through
-their priests or sorcerers. According to Humboldt, woorara is
-simply a watery extract of a creeper, belonging to the genus
-Strychnia. According to M. M. Boussingault and Roulin, it
-contains a poisonous substance, analagous to a vegetable alkali,
-woorarine. The information given us by M. Houdet, differs
-from that of M. Humboldt only in this respect, that he observes,
-before the extract is quite dry, the Indians of Messaya pour on
-it a few drops of the venom gathered from the glands of the
-most venomous serpents. This last circumstance is important,
-as we shall see that the physiological effects
-of woorara must <span class="xxpn" id="p078">{78}</span>
-cause us to regard its mode of action as entirely analogous to
-that of venoms.</p>
-
-<p>Woorara is a solid extract, black, resinous looking, soluble in
-water. We shall have occasion hereafter to advert to its chemical
-properties. Our attention will now be directed to its physiological
-effects when exerted on living animals. Woorara
-resembles venom in this, that it can be eaten, that is, taken into
-the digestive canal of man and other animals with impunity,
-whilst when introduced by puncture under the skin, or in any
-other part of the body, its absorption is invariably attended
-with fatal results in all animals. This fact we have repeatedly
-tested. The action of this poison is instantaneous, when it is
-injected directly into the blood vessels. A weak, watery solution
-thrown into the jugular vein of a dog or a rabbit, has always
-produced sudden death, the animal uttering no cry, nor
-manifesting any convulsive agitation. The effect on the whole
-organization is electric, and the vital functions are arrested as
-by lightning. When introduced under the skin in solution or
-in solid fragments, its poisonous action manifests itself more
-slowly, and the time is varied by the dose, the size of the animal,
-and its species. Other things being equal, birds die
-soonest, then the mammalia, and then reptiles; thus, with the
-same specimen, birds and mammalia die in a few minutes,
-whilst a reptile will survive for several hours. But death is invariably
-accompanied by similar, and very remarkable symptoms;
-in the first place, when pricked, the animal apparently
-feels nothing. If a bird, for example, it flies as usual, and at
-the end of a few seconds, when the woorara is very active, it
-drops dead without uttering a cry, or appearing to suffer; if it
-be a rabbit or a dog, it runs about as usual after the puncture,
-without any abnormal symptom, then, after some seconds, as
-if fatigued, it lies down, appears to sleep, its respiration stops,
-and life is terminated, without a groan or sign of pain. Rarely
-do we see even slight contraction of the sub-cutaneous muscles
-of the face and body.</p>
-
-<p>On examining immediately after death, the
-bodies of <span class="xxpn" id="p079">{79}</span>
-animals thus poisoned, we have always observed phenomena
-which indicate a complete annihilation of all the properties of
-the nervous system. It is generally found that when death
-has been sudden, the nerves retain for some time the power of
-reaction under the influence of mechanical or chemical excitement;
-if a nerve of motion be excited, convulsions supervene
-in the muscles to which it leads; if the skin be pinched, it
-causes reflex motion. But none of these are observed after
-death by woorara. The nerves of the still warm animal, in
-whom life has been extinct but a minute, are inert as if it had
-been dead and cold for several hours.</p>
-
-<p>Again, in animals poisoned by woorara, the blood is invariably
-black, and frequently so changed as to coagulate with difficulty,
-and not to become bright on re-exposure to air.</p>
-
-<p>If we compare this effect of woorara with that of the viper,
-we shall observe a great analogy between them, varying only
-in intensity. We may further remark, that woorara, like the
-poison of the viper, may be introduced with impunity into the
-intestinal canal. We might be led to suppose from its perfect
-innocuousness when introduced into the stomach, that it became
-modified, or in a word, digested by the gastric juice, so as to
-destroy its deleterious properties. To verify this supposition,
-we caused some woorara to be digested in the gastric juice of
-a dog, at a temperature of between 38° and 40° of centigrade.
-After leaving it for forty-eight hours, we introduced it by
-puncture into the veins of some animals, who died with the
-before-named symptoms; establishing the fact, that a prolonged
-contact with the gastric juice in no way modified its deleterious
-properties. This experiment has been repeated in various
-ways, and on the separate parts, as well as on the living animal.
-We made a dog, in whose stomach we had formed a fistulous
-opening, swallow some fragments of woorara mixed with his
-food; after a little time we obtained some of his gastric juice,
-and on analysis found it to resemble in every respect a solution
-of woorara. Thus we have the singular phenomenon of an
-animal, carrying in its stomach, harmless to
-itself, a liquid <span class="xxpn" id="p080">{80}</span>
-which would cause instant death to any others who should be
-inoculated with it. Not only did the dog which swallowed the
-poison experience no fatal result from it, but its digestion was
-not even affected by it; the gastric juice thus mixed retaining
-all its digestive properties.</p>
-
-<p>These facts prove that the innocuousness of woorara when
-introduced into the stomach, is not attributable to the action of
-the gastric juice. The other intestinal liquids, saliva, bile,
-pancreatic juice, were attended with similar results, none of
-them producing by contact the least difference in the poisonous
-effect of woorara.</p>
-
-<p>The explanation of these facts appears to be simply this:
-there is a want of absorption of the venomous substance through
-the gas­tro-in­test­i­nal mucous membrane. This can be shown
-by the following experiment:—Take the fresh gastric mucous
-membrane of a dog or rabbit, recently killed; adapt it to an
-endosmometer in such a manner that the mucous surface remains
-outwards; then plunge the endosmometer containing
-sweetened water into a watery solution of woorara, and we
-shall find, after two or three hours, that the endosmosis will be
-complete. The level will have risen in the endosmometer, and
-yet the liquid contained in it will shew no trace of the poison,
-as can be proved by inoculating other animals with it.</p>
-
-<p>If the experiment were to last longer, the endosmose of the
-poison might take place, but we should then find that the
-epithelium which covers its surface, had become changed, and
-had permitted the imbibition and endosmosis of the poisonous
-principle. This is so true, that if a partially decomposed
-membrane should be used instead of a fresh one, the endosmose
-of the poisonous principle takes place immediately. On the
-living animal, we can establish this property of the intestinal
-mucous membrane, and can demonstrate that amongst substances
-perfectly soluble in appearance there are some which
-when lodged on the surface of the intestinal membrane, may
-remain there without being absorbed, or without affecting the
-system. The active principle of woorara is
-of this kind. <span class="xxpn" id="p081">{81}</span></p>
-
-<p>It was necessary to ascertain whether other mucous membranes,
-besides those of the digestive organs, were possessed of
-this same property with regard to woorara. We have tried it
-successively on those of the bladder, the nasal fossæ and the
-eyes, and in all we have found an equal resistance to the absorption
-of the poisonous principle. An injection of this poison into
-the bladder of a dog, was retained six or eight hours, with no
-bad effects; but the urine voided after that time had all the
-poisonous properties of woorara.</p>
-
-<p>One mucous membrane alone offers a remarkable exception;
-it is the pulmonary. This acts, in regard to the absorption of
-woorara, precisely like the sub-cutaneous cellular tissue; and
-on the introduction of some drops of the poisonous solution into
-the air passages, when every precaution is taken, death
-takes place as rapidly as when the skin has been punctured.</p>
-
-<p>We readily perceive that this membrane, destined solely for
-the passage of the air to accomplish the phenomena of respiration,
-possesses a peculiar structure, and is unprovided with that
-protecting mucous which lubricates the other membranes communicating
-with the exterior. This similarity between the
-pulmonary mucous membrane and cellular tissue, supports the
-ideas which M. Majendie, long ago, promulgated on the structure
-of the lungs.</p>
-
-<p>We shall not expatiate, at present, on the remarkable difference
-in the absorbent properties of the various mucous membranes
-of the body. We shall have occasion again to revert to
-the subject, and shall only state that this fact, in relation to the
-absorption of woorara, is not isolated, and that in the intestines,
-for example, many active principles, although soluble,
-cannot be absorbed, and are consequently forced to act locally,
-or as if shut up in a closed vessel.</p>
-
-<p>For the present we will content ourselves with these conclusions:</p>
-
-<p>1st. That woorara acts upon animals in the same manner as venom.</p>
-
-<div class="dkeeptogether">
-<p>2nd. That its harmlessness, when injected into the
-intestinal <span class="xxpn" id="p082">{82}</span> canal, cannot be explained by any change which the
-poisonous principle undergoes, but rather by a special property
-of the gas­tro-in­tes­ti­nal mucous membrane which resists its
-absorption.—<i>Journal de Pharmacie et Chimie.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>SUMBUL, OR YATAMANSI.</h3>
-</div><!--section-->
-
-<p>Sumbul, the name and therapeutical properties of which are
-almost unknown to French physicians, appears to have been
-employed in India from a very remote period. Pietro Della
-Valle, who travelled through the different countries of Asia, in
-1623, 1624 and 1625, mentions that sumbul is a root, and not a
-stem, although the Arabic word, sumbul, he observes, refers to
-the whole plant. It appears that the word sumbul is applied in
-India to a plant and portions of a plant, used as a perfume, as
-an incense in religious ceremonies, and again, as a medicinal
-substance. Sir William Jones thought that the true sumbul
-was a species of valerian, known both to the Hindoos and
-Brahmins, under the name of yatamansi. But, according to
-M. Granville, it appears to be an aquatic umbelliferous plant,
-found in the neighborhood of rivers.</p>
-
-<p>It is erroneously asserted that it grows in Hindostan. It is
-not found in any part of the Indian territory, occupied by the
-English. The plant grows in Bootan and the mountains of
-Nepaul; and although large quantities of the dried plant have
-been exported, no botanist has yet been able to describe its
-char­ac­ter­is­tics from a living specimen. It is said that the native
-laws forbid the exportation of a living plant, without an order
-from the sovereign.</p>
-
-<p>Sumbul has been described as a mass of roots and leaves of
-a greenish color, crumpled and pressed one against the other.
-This is an error, and arises from the fact of some having been
-first shown at St. Petersburg, which had been
-mixed with a <span class="xxpn" id="p083">{83}</span>
-strong decoction of this substance of a greenish color. Sumbul
-appears, on the contrary, under the form of a root, thick, homogeneous,
-of two, three, and even four inches in diameter, cut
-in pieces of an inch to an inch and a half long, and whose section
-presents a fibrous aspect, and a white and yellowish tint. It
-is brought from the centre of Asia, to Moscow, via Kiatcha. In
-all the good specimens of sumbul, the epidermis, or external covering,
-is of a dark shade, approaching to brown; if the color
-be strongly marked, it indicates that the plant was old. The
-epidermis is very thin, and much wrinkled. The interior substance
-is composed of thick, irregular fibres, which may be separated
-from one another, after the outer covering is detached,
-and which indicate a porous structure, common to aquatic
-plants. If, after taking off the outer covering, we make a
-transverse cut, we shall perceive an external layer, white and
-marbled, and an internal layer, thicker and yellowish. With
-a powerful lens we can distinguish transparent points, which
-look like grains of fecula.</p>
-
-<p>Two very remarkable physical char­ac­ter­is­tics demand our
-attention when we examine this root: first, its perfume, resembling
-the purest musk; then the powerful aroma which it
-exhales when under mastication. This odor of musk is so
-marked, that some had thought it owed this quality to its contact
-with musk, in the transportation of drugs from Asia to
-Europe; but such an idea is negatived by the fact that sumbul
-retains this odor, even when very old; that even when the external
-parts have lost it, it continues in the interior; that this
-odoriferous principle may be extracted from it by chemical
-manipulation; and again, that it has received from botanists
-the name of moschus-wurzel or musk-root. Its aromatic taste
-is also a distinguishing char­ac­ter­is­tic. The first impression on
-the palate is slightly sweet, this is rapidly replaced by a balsamic
-flavor, and then by a bitter, but not unpleasant taste.—As
-mastication proceeds, the mouth and throat experience a
-strong aromatic and pungent taste, and the breath becomes
-impregnated with the penetrating odor
-of the <span class="xxpn" id="p084">{84}</span>
-substance.—This flavor is still more decided in the alcoholic tincture than in
-the root.</p>
-
-<p>The chemical analysis of sumbul has occupied several German
-chemists, Reinsch, Schnitzlein, Frichinger, and Kalthover.
-According to Reinsch, the root of sumbul contains, besides water,
-traces of an ethereal oil, two balsamic compounds, (resins) one
-soluble in ether, the other in alcohol, wax, aromatic spirit, and a
-bitter substance, soluble in water or alcohol. The solution of this
-bitter substance, treated with lime, and chloride of sodium, gives
-a sediment composed of gum, starch and saline materials. The
-perfume appears to be contained in the balsams, and its intensity
-is increased by being diluted with water. Finally,
-sumbul contains an acid, which Reinsch proposes calling <i>sumbulic
-acid</i>.</p>
-
-<p>Kalthover directed his attention further to its phar­ma­ceu­ti­cal
-uses, and obtained an alcoholic tincture of a yellowish color,
-musky odor, and bitter taste; an ethereal tincture, yellowish,
-musky, and of a sharp taste; and a substance resembling
-wax, precipitated after repeated decoctions in water.</p>
-
-<p>It appears then, that we may obtain from sumbul for medical purposes,
-two tinctures, one alcoholic, the other ethereal, which seem to differ
-in their principles, and which may be given in drops alone, or combined
-with other medicines; and a bitter extract, soluble in water, which may
-be administered in pills. The powdered root may also be given crude, or
-in pills.—<i>(Union Médicale) in Journal de Pharmacie et de Chimie.</i></p>
-<div class="dkeeptogether">
-<p class="padtopc fsz6">[Sumbul
-has been used as an anti spasmodic and a nervine; further
-investigation is needed however to ascertain its true place in the
-Materia Medica. In the mean time it has been imported by one of our
-apothecaries, Mr. Delluc, and we may soon hope to learn something
-more concerning its effects upon the system.] <span class="smcap">E<b>D.</b></span>
-<span class="smcap">J<b>OURNAL</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">P<b>HARMACY.</b></span></p>
-
-<hr class="hr34" />
-</div>
-
-<div class="section">
-<div><span class="xxpn" id="p085">{85}</span></div>
-<h3>OBSERVATIONS ON THE STRENGTH OF
-TINCTURE OF OPIUM.
-<span class="hsmall">
-BY A. B. GARROD, M. D.</span></h3>
-</div><!--section-->
-
-<p>Professor of Materia Medica at University College,
-and Physician to University College Hospital.</p>
-
-<p>As many discrepant statements are to be found in works on
-Materia Medica, in various dispensatories, &amp;c. concerning the
-strength of the tincture of opium of the London Pharmacopœia,
-it may not be either uninstructive or uninteresting at least to
-the medical profession, to have the subject brought under notice
-and discussion at this society, in order that they may arrive at
-some definite conclusion concerning the strength of a preparation
-they are in the daily habit of prescribing. If we refer to
-the London Pharmacopœia of 1836, we find the following directions
-for making the tincture of opium:―</p>
-
-<div class="dpoembox"><ul class="ulin2">
-<li class="livs">Take of hard opium powdered, 3 ounces,</li>
-<li class="livs">Proof spirit, 2 pints,</li>
-<li class="livs">Macerate for fourteen days, and strain.</li></ul>
-
-<p>In the Pharmacopœia of 1851, we are ordered to―</p>
-<ul class="ulin2">
-<li class="livs">Take of opium powdered, 3 ounces,</li>
-<li class="livs">Proof spirit, 2 pints,</li>
-<li class="livs">Macerate for seven days, press out,
-and strain.</li></ul>
-</div><!--dpoembox-->
-
-<p class="pcontinue">The
-only difference in the directions being that powdered <i>hard</i>
-opium, and digestion for <i>fourteen</i> days, are ordered in the one
-case, and simply powdered opium and seven days digestion in
-the other. If we look at the authorised edition of the Pharmacopœia
-by Mr. Philips of 1836, (and also at the present edition)
-we find stated, that the preparation has a deep brownish red
-color, possesses the peculiar odor and taste of opium, has sp.
-gr. 0.952, and about 19 minims contain 1 grain of opium, which
-is said to be proved by the following data: 1st, by evaporating
-the tincture, and finding the amount of solid extract left; 2d,
-by ascertaining the quantity of opium remaining undissolved.
-The conclusion at which Mr. Phillips arrived, viz: that 1 grain
-of opium was contained in 19 minims of the Pharmacopœia
-tincture, has been copied into most English
-works on Materia <span class="xxpn" id="p086">{86}</span>
-Medica, and most medical men have been and are still in the
-habit of prescribing the tincture considering it to be of the <i>above</i>
-strength. Were Mr. Phillip’s conclusions correct?</p>
-
-<p>With regard to the amount of solid extract left on evaporation
-of the tincture, it appears from the experiments of Mr. Allchin,
-which are also confirmed by those which I have myself made,
-that 19 minims yield about 1 grain of extract; but in these cases
-the Turkey opium of commerce must be first exsiccated; and
-the tinctures of commerce yield quantities varying from 1 in 19
-to 1 in 28 minims of the tincture. Tincture of opium made with
-Turkey opium in small masses not previously dried, fl.
-<img class="iglyph-a" src="images/u2125.ounce.jpg"
- width="40" height="84" alt="℥" />j. gave
-on drying 2.7 of solid residue, or 1 grain in about 22.2 minims.
-Tincture of opium made with good Turkey opium, previously
-dried and reduced to powder (Pharmacopœia directions) fl. <img class="iglyph-a" src="images/u2125.ounce.jpg"
- width="40" height="84" alt="℥" />j.
-gave on drying—three experiments—3.1, or 1 grain of residue
-in 19.3 minims.</p>
-
-<p>If made with opium capable of being reduced to a state of
-powder, the average quantity of extract would be about 1 grain
-in 20 minims; this proportion would indicate that one-third of
-the solid ingredient (opium) is left undissolved, which was found
-by Mr. Phillips to be the case. I believe all good specimens
-of Turkey opium yield about this amount of residue. An experiment
-made within the last week at Mr. Bell’s establishment
-gave this result. If then the strength of tincture of opium be
-considered to be that indicated by Mr. Phillips, we must assume
-that the undissolved portion possesses the same therapeutic
-effects as the dissolved portion. Is this correct?</p>
-
-<p>It has been stated by some that morphia can be extracted
-from the residuum, and in Dr. Pereira’s <i>Materia Medica</i>, we
-find the following observations: “Proof spirit dissolves the same
-constituents as water does, but it takes up a larger proportion
-of <i>narcotine</i>, <i>resin</i>, <i>oil</i>. I have repeatedly prepared morphia
-from the insoluble residue left behind in the preparation of the
-tincture.” Again, in Dr. Thomson’s <i>Dispensatory</i> it is stated
-that Mr. Brande finds that the whole of the morphia is not taken
-up; but is found in no inconsiderable quantity
-in the filter. <span class="xxpn" id="p087">{87}</span>
-We suspect occasionally <i>narcotine</i> has been taken for <i>morphia</i>,<a class="aftntanc" href="#fn7" id="fnanch7">7</a>
-and in the cases where <i>morphia</i> has really been found, unless
-the residue had been previously washed, an error may have
-arisen from the alkaloid being contained in the tincture of
-opium adhering to the dregs, and not from any contained in the
-residue itself. I have recently endeavoured to ascertain the
-true state of the case, and chiefly by means of a therapeutic
-inquiry into the strength of the residuum. The residue of
-tincture of opium prepared in the ordinary way at University
-College Hospital, was taken for experiment; it was first washed
-with a little cold water to remove any adhering tincture, and
-afterwards dried in a water-bath. By digestion with ether, it
-was found to yield abundance of <i>narcotine</i>, and was also found
-to contain <i>meconic acid</i> sufficient to strike a claret color with
-the persalts of iron; but at the same time nitric acid gave no
-evidence of the presence of <i>morphia</i>. It was found also by
-experiment that proof spirit at the ordinary temperature dissolved
-but a very small portion of narcotine; the bulk of the
-narcotine therefore remains in the residuum from the tincture
-of opium, perhaps united with meconic acid; for when treated
-with water acidulated with acetic acid, both <i>narcotine</i> and
-<i>meconic</i> acid were dissolved.</p>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch7" id="fn7">7</a>
-In the sixth edition of Dr. Thomson’s <i>Dispensatory</i>,
-page 1061, the following method is given for obtaining “meconate of
-morphia,” extracted from the <i>Quarterly Journal of Science</i>, vol. xx.,
-from which it will be at once observed, that <i>narcotine</i> was mistaken
-for crystallized <i>meconate of morphia</i>.</p>
-
-<p>“Reduce good opium to powder, put it into a paper filter, add distilled
-water to it, and slightly agitate it; and in this way wash it till the
-water passes through colorless, after which, pass a little diluted
-alcohol through it; dry the insoluble portion (now diminished to
-one-half,) in a dark place; digest it, when dry, in strong alcohol for
-a few minutes, applying heat; separate this solution, which by boiling,
-and after evaporation, will yield crystallized meconate of morphia of a
-pale straw color.”</p></div>
-
-<p>A portion of the residue was given internally; <i>one grain</i> to a healthy
-adult produced no effect; <i>two grains</i> were given with no result; the
-dose was then successively increased to <i>four grains</i> then to <i>six
-grains</i>, afterwards to <i>thirteen</i>, and lastly to <i>thirty grains</i>,
-without causing the slightest effect on the individuals to whom it
-was administered; the only limitation to the quantity given being the
-unpleasantness of taking so large an <span class="xxpn" id="p088">{88}</span>
-amount of so bulky a matter. It appears, therefore, that the
-residue is, to all intents and purposes, inert.</p>
-
-<p>From these experiments, it is evident that even <i>should</i> traces
-of <i>morphia</i> be contained in the dregs, still the quantity must
-be such (when the tincture is prepared according to the London
-Pharmacopœia) as to make no appreciable diminution of the
-strength of the preparation, and that the tinctura opii contains
-the active matter of the whole of the drug used in its formation,
-and therefore about 12 minims of tincture of opium possesses all
-the activity of 1 grain of crude opium, assuming that it loses
-only 12 per cent. in the drying. If dry opium is taken for
-comparison, 1 grain is contained in about
-<span class="nowrap">13&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub></span>
-minims; and,
-therefore, <i>one</i> fluid drachm of tinctura opii contains about 5
-grains of the drug, or
-<span class="nowrap">4&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub></span>
-grains (according as it is compared
-with the dry or moist opium), in place of 3 grains; or 1 fluid
-ounce contains 40 or 36 grains in place of 24 grains usually
-assumed to be contained in it: a difference of strength of the
-highest importance when we consider the highly poisonous
-and powerful therapeutic action of the drug.</p>
-
-<p>In the Edinburgh preparation the amount of tincture containing
-a grain of opium is about
-<span class="nowrap">13&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub></span>
-minims, for the opium is
-ordered in the same proportion but not previously reduced to
-powder or dried. In the Dublin preparation the opium is ordered
-to be coarsely powdered, but avoirdupois weight is used
-in place of apothecaries, which makes the strength of the
-tincture such that 12.75 minims contain <i>one</i> grain.</p>
-
-<p>The error as to the strength of the tincture of opium, which
-is found in so many works, has been recently commented on.
-Thus Dr. Christison objects to Mr. Phillip’s statements; Dr.
-Royle also alludes to it, and so does Mr. Squire, in his recent
-work on the Pharmacopœias; and even those writers who have
-copied the statement must have done so without much thought
-on the subject, as they have calculated the strength of other
-preparations of opium, as that of the tinctura opii ammoniata,
-tinctura camphoræ composita, assuming that all the active properties
-of the opium used in the preparation had
-been taken up <span class="xxpn" id="p089">{89}</span>
-by the menstrua. And this is the case even with Mr. Phillips
-himself, in the case of the compound tincture of camphor, when
-he states that <i>nearly two</i> grains of opium are contained in the
-ounce, the Pharmacopœia proportions of opium being 1.6
-grains only.</p>
-
-<div class="dkeeptogether">
-<p>I have brought the question before the Society more for the
-purpose of eliciting the opinions of the members on the point,
-than with the idea of bringing forward much that is novel on
-the subject; if the conclusion to which we have arrived, namely,
-that 12 minims of tincture of opium contain all the medical
-properties of 1 grain of the crude drug, I think it very important
-that the members of the medical profession should be made
-fully aware of the delusion under which they have labored for
-so many years with regard to the strength of this important
-preparation.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>NOTICE OF SOME VEGETABLE AND ANIMAL
-SUBSTANCES, NATURAL PRODUCTS OF NEW
-GRANADA.
-<span class="hsmall">
-BY M. J. RAF. MONZON, M. D.</span>
-<span class="htiny">
-(<i>In a Letter to Dr. Pereira.</i>)</span></h3>
-</div><!--section-->
-
-<p>Sandi is a resinous gummy substance, produced in abundance
-by a tree known by this name, on making an incision in
-its bark. At first it presents itself white, or liquid like milk,
-and it is called in the province of Barbacoas, “milk of sandi.”
-In a few days it acquires the consistency of resinous gum. In
-this state it is applied to various medicinal uses in different
-parts of New Granada, especially in the province of Barbacoas,
-a warm and damp country near the Ecuador, from whence the
-present sample comes. Its principal therapeutic property is
-<i>resolutive</i>; applied as a plaster upon lupus, fleshy excrescencies
-of the skin, cold and indolent tumors, &amp;c. it produces their
-resolution; and this result is frequently confirmed
-by the <span class="xxpn" id="p090">{90}</span>
-inhabitants of those countries. I have obtained it almost always
-when I have made use of the milk in similar cases. At present
-my father has applied this gum in the valley of Cauca, and
-with extraordinary success, for the cure of “bocios,” or obstructions
-of the thyroid gland. He has been able to purify it, taking
-away the part of potass which it contains in its original state,
-and has been able to give it the consistence and color of gum
-Arabic; with this substance he makes a plaster, which destroys
-the “bocios,” which so much abound in New Granada; and its
-general benefits are felt and acknowledged.</p>
-
-<p>It is likewise used as an agent against sterility in women,
-applying it as a plaster upon the hypogastric region. In ulcers
-of a good character I have obtained frequent and quick cicatrisation
-by applying it in the same manner; I have also used it
-as a vehicle for preparing and applying blisters.</p>
-
-<p><span class="smcap">A<b>CEITE</b></span>
- <span class="smmaj">DE</span>
-<span class="smcap">P<b>ALO</b></span>
- (oil of wood) is produced by a tree called
-“manteco,” in the same province. Its principal therapeutic
-qualities are topical and blistering. By using it as an embrocation
-I have destroyed the epidermis, and have thus been able
-to get rid of freckles and superficial stains on the face and
-other parts of the body. Applied in larger quantities it produces
-the effect of a strong blister, excoriating and inflaming the
-skin. This oil is used in its natural state as an ointment, on
-arms and instruments of steel: it destroys their temper and
-softens them. By decoction it loses these qualities, and might
-be used as an ointment without any risk. It cannot be used as
-a lamp-oil, because it exhales a very thick smoke and the most
-disagreeable smell. It has no known internal medicinal qualities;
-it may be classed amongst the corrosive poisons; its color
-is purple, its taste <i>sui generis</i>.</p>
-
-<p><span class="smcap">L<b>ECHE</b></span>
- <span class="smmaj">DE</span>
- <span class="smcap">P<b>OPA</b></span>
- (milk of the cow-tree).—This substance, in
-its natural state, possesses the physical properties of animal
-milk. It is obtained by incision in the bark of the tree, which
-is very abundant in the province of Barbacoas. The Indians
-and the African race take it instead of cow milk; it is very nutritive,
-but has no known medicinal qualities. It
-is used also <span class="xxpn" id="p091">{91}</span>
-for whitewashing houses, combining it with earthy substances,
-because, being glutinous, it makes the whitewashing last longer,
-and prevents its staining or rubbing off.</p>
-
-<p><span class="smcap">M<b>IEL</b></span>
-<span class="smmaj">DE</span>
-<span class="smcap">A<b>BEJA</b></span>
-<span class="smmaj">DE</span>
-<span class="smcap">B<b>REA</b></span> (honey of the pitch bee).—This
-honey is extracted from the hive of a bee, very different from
-the one known in Europe, and very much smaller. It is acid.
-Its medicinal qualities are for interior refrigeration. I have
-applied it externally for contusions and ecchymosis, caused by
-blows or falls, and I have always obtained a good result. The
-pitch is a resinous substance, of a dark yellow color, and constitutes
-the hive made by this bee. It has a peculiar taste and
-smell, is very combustible, and is used by the common people
-for torches. It is soluble in alcohol. I have applied it as a
-plaster for nervous rheumatic pains, and it has always relieved
-the pains and swellings.</p>
-
-<p><span class="smcap">C<b>ANEDILLO.</b></span>—This is the name of a cane with a bitter and
-aromatic bark, and, in my opinion, it belongs to the family of
-Winter’s bark. It has many therapeutic qualities; amongst
-others it has particularly attracted my attention as an antidote
-against the bite of snakes and of other venomous animals. I
-consider it the best and safest of all the antidotes known. Put
-two ounces of this bark in a bottle of alcohol, allow it to macerate
-for three or four hours, to obtain a tincture. Use two
-parts of this mixture with common water; a wineglass every
-two hours until you allay the headache of the bitten person—an
-infallible consequence of the bite, cupping at the same time,
-and extracting the tooth, which often remains in the part, which
-is then to be washed and covered with lint wetted with the tincture.
-By this simple method I have cured hundreds, without
-the loss of a single life. This antidote is now generally kept
-by all the owners of mines, as a certain cure for bites of snakes,
-in preference to other antidotes formerly used. It has this advantage
-over them, that it may be taken in any quantity without
-danger. It is, besides, a tonic and anti-spasmodic. I have
-used it also as a febrifuge; in rheumatism (by friction); and in
-the windy colic, taken in the same way as for
-bites by snakes. <span class="xxpn" id="p092">{92}</span>
-For indigestion caused by weakness, and for amenorrhœa, from
-the same cause, it is also used.</p>
-
-<p><span class="smcap">S<b>ANDALO.</b></span>—This is the bark of a tree which grows in the
-province of Esmeraldas, in the republic of the Ecuador. When burned, it
-produces a balsamic smell; by boiling the bark when fresh, it produces
-a very aromatic balsam, which, like the balsam of tolu is used in
-catarrh, spasmodic cough, ulcers, &amp;c.</p>
-
-<div class="dkeeptogether">
-<p class="padtopc fsz6"><span class="smcap">N<b>OTE.</b></span>—All
-these substances are indigenous in the province of
-Barbacoas. Popa and sandi are found in great abundance. Manteca de palo
-(oil, or literally butter of wood), is obtained only from young trees
-which grow in the plains.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON THE SODA-PYROPHOSPHATE OF IRON.
-<span class="hsmall">
-BY ALEXANDER URE, ESQ., SURGEON TO ST. MARY’S HOSPITAL.</span></h3>
-</div><!--section-->
-
-<p>My attention was attracted some time back by an ingenious
-paper of Mons. Persoz on the double pyrophosphoric salts, published
-in the <i>Annalen der Chemie und Pharmacie</i> for 1848.
-In the latter part of that paper, the author expresses an opinion
-that the pyrophosphoric salts are likely to prove of importance
-as medicinal agents. It is well known that iron is rendered
-very eligible for internal use, if administered in the form of a
-triple salt, as when combined, for example, with tartaric acid
-and potash; because the iron then is no longer precipitable by
-the alkaline hydrate. It would appear, however that the soda
-pyrophosphate of iron is in many respects superior as a medicine
-to the triple salts into which the vegetable acids enter.—Thus,
-the pyrophosphoric salt, from being saturated with oxygen,
-cannot in passing through the system absorb more, whereas
-the latter salts under like circumstances, are constantly undergoing
-a process of combustion, according to Millon; and by
-withdrawing oxygen in this manner, must necessarily impair
-the efficacy of the oxide of iron as an oxydizing agent. It deserves
-notice, moreover, that the constituent ingredients of the
-soda-pyrophosphate of iron are to be found
-in the organism. <span class="xxpn" id="p093">{93}</span></p>
-
-<p>I have prescribed this salt to various patients, and found it
-to act as a mild but efficient chalybeate. One little scrofulous
-girl, now under my care in St. Mary’s Hospital, for disease of
-the hip-joint, has taken it in solution during several months
-with the best effect. The remedy was accurately prepared by
-Mr. Blyth, dispenser to the hospital, according to the subjoined
-directions of Mons. Persoz: 32.5 grammes of green sulphate of
-iron in crystals are to be mixed in a porcelain capsule with 5
-grammes of sulphuric acid, 30 grammes of water, and as much
-nitro-muriatic acid as will suffice to effect the oxidation of the
-protoxide of iron. The above mixture is to be evaporated to
-dryness in order to get rid of the free acid, and then treated
-with water to the amount of one litre. From 107 to 110
-grammes of crystallized pyrophosphate of soda are to be dissolved
-likewise in a litre of water, of course in a separate vessel.
-The two solutions are next to be mixed together, and provided
-the iron solution has been rightly prepared there will be no
-precipitate whatever.</p>
-
-<p>Each litre of liquid will contain as much iron as 16.5 of the
-green sulphate.</p>
-
-<div class="dkeeptogether">
-<p>This solution is not affected by dilution with rain or distilled
-water, but from being faintly alkaline, is rendered slightly turbid
-on the addition of water impregnated with lime.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON THE SIMABA CEDRON.
-<span class="hsmall">
-BY M. BERTHOLD SEEMANN.</span></h3>
-</div><!--section-->
-
-<p>A tree, which has attained great celebrity, is that called <i>Cedron</i>
-(<i>Simaba Cedron</i>, Planch.). The most ancient record of
-it which I can find is in the <i>History of the Buccaneers</i>, an old
-work published in London in the year 1699. Its use as an antidote
-for the bite of snakes, and its place of growth, are there
-distinctly stated; but whether on the authority of the natives,
-or accidentally discovered by the pirates, does
-not appear. If <span class="xxpn" id="p094">{94}</span>
-the former was the case, they must have learned it while on some
-of their cruises on the Magdalena, for in the Isthmus the very
-existence of the tree was unsuspected until about 1845, when Don
-Juan de Ansoatigui, ascertained, by comparison, that the <i>Cedron</i>
-of Panama and Darien was identical with that of Carthagena.
-The virtues of its seeds, however, were known, years ago, from
-those fruits imported from the Magdalena, where, according to
-Mr. William Purdie, the plant grows in profusion about the
-village of San Pablo. In the Isthmus it is generally found on
-the outskirts of forests in almost every part of the country, but
-in greater abundance in Darien and Veraguas than in Panama.
-The natives hold it in high esteem, and always carry a piece of
-the seed about with them. When a person is bitten, a little,
-mixed with water, is applied to the wound, and about two
-grains scraped into brandy, or, in the absence of it, into water,
-is administered internally. By following this treatment the
-bites of the most venomous snakes, scorpions, centipedes, and
-other noxious animals, have been unattended with dangerous
-consequences. Doses of it have also proved highly beneficial
-in cases of intermittent fever. The <i>Cedron</i> is a tree, from
-twelve to sixteen feet high; its simple trunk is about six inches
-in diameter, and clothed on the top with long pinnated leaves,
-which give it the appearance of a palm. Its flowers are greenish,
-and the fruit resembles very much an unripe peach. Each
-seed, or cotyledon I should rather say, is sold in the chemist’s
-shops in Panama for two or three reals (about 1<i>s.</i> or 1<i>s.</i> 6<i>d.</i>
-English), and sometimes a much larger price is given for them.—<i>Hooker’s
-Journal of Botany.</i></p>
-<div class="dkeeptogether">
-
-<p class="padtopb fsz6">[A large number of the Cedron seeds have lately been received in New
-York, probably from a section of the country where they are cheaper
-than upon the Isthmus. As a remedy for the bites of venomous reptiles,
-like all others of the same class, it is of little value, but from its
-intense bitterness, it may be expected to possess great tonic powers,
-and if, in addition to these, further experience shall confirm the
-report of its virtues as an antiperiodic, it will prove a remedy of
-great value.]—<span class="smcap">E<b>D.</b></span>
-<span class="smcap">N<b>EW</b></span>
-<span class="smcap">Y<b>ORK</b></span>
-<span class="smcap">J<b>OURNAL</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">P<b>HARMACY.</b></span></p>
-
-<hr class="hr34" /></div>
-
-<div class="chapter dedtrl">
-<div><span class="xxpn" id="p095">{95}</span></div>
-<h3>EDITORIAL.</h3>
-<hr class="hr12" />
-
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">C<b>OLCHICUM</b></span>
-<span class="smcap">A<b>UTUMNALE.</b></span></h4>—In
-the December number of the Edinburgh Monthly
-Journal of Medical Science, Dr. J. McGrigor Maclagan, has published an article
-on Colchicum Autumnale, which contains little that is new, but is of interest
-as confirming the statements of other observers. The ordinary mode of
-propagation of the plant by the formation of a single new bulb is thus described.
-In June, “the bulb is as large as an apricot, firm, amylaceous, and extremely
-bitter, and having attached to it the shrivelled remains of the old bulb, and the
-leaves now yellow and decayed. At the end of June or commencement of July,
-a small bulb will be observed to have become developed upon the side of the
-corm at its lower part. At this time it is a little larger than a grain of wheat,
-and lies in a little fissure on the side of the parent bulb, a little above the origin
-of the radicles. It increases slowly and gradually in size till the beginning of
-August, when it appears as a dilatation of the flower stalk, which it then commences
-to put up.</div>
-
-<p>In September the flower is in full perfection, the long tube of the perianth of
-which has raised the six partite limb to the height of from six to eight inches above
-the ground. The flower remains for two or three weeks, and then dies down;
-and nothing of the plant is seen above the surface till the beginning of February,
-when the leaf stalk commences to rise. If at this time the plant be taken up, the
-old and new bulb will still be found to be united, but the new one will be observed
-to have increased little in size since autumn, being still hardly larger
-in diameter than the leaf stalk. The bulb thus grows little during the autumn,
-but in winter it increases rapidly in size; in April it is like a large hazel nut, and
-from that time it increases still more till the end of June or the beginning of July,
-when it is, as Dr. Christison states, as large as an apricot.</p>
-
-<p>In April the leaf stalk is found perfected by a fine group of dark green leaves,
-generally three in number, and having within their sheath the capsules which
-ought to ripen their fruit in the course of the summer.</p>
-
-<p>In May the old bulb will be found dry and withered, and containing very little
-starch; and in July if the plant be taken up, three bulbs will be found, the first
-now reduced to the form of a membrane, bearing no resemblance to a bulb at all;
-the second, arrived at full growth; and a third the progeny of the second.</p>
-
-<p>In February and August, instead of one leaf stalk and flower stalk making their
-appearance at their respective periods, I have often remarked that two have
-occurred, one on either side of the parent bulb. I believe this to be one of the
-effects of cultivation, as I have no where seen it remarked in descriptions of the
-plant by botanical authors.</p>
-
-<p>Dr. Christison has mentioned that the full size of a Colchicum bulb is that of a
-small apricot. Where the plant has been cultivated however, Dr. Maclagan,
-frequently met with them as big as large apples, and on one occasion procured
-one in October weighing nine and
-a half ounces. <span class="xxpn" id="p096">{96}</span></p>
-
-<p>He thinks that the cormus should be taken for medicinal use about the middle
-of July, at which time it has attained its greatest size, and is firm, amylaceous
-and exceedingly bitter. The bitterness is the best criterion of its medicinal
-activity.</p>
-
-<p>A number of years ago, Dr. A. T. Thomson, proposed the tincture of Guaiacum
-as a test for the goodness of Colchicum. Ten grains of the bulb were rubbed in
-a mortar, with sixteen minims of distilled vinegar, and immediately afterwards
-sixteen minims of the tincture of guaiacum were added. When the bulb was
-good, a beautiful cerulean color, according to Dr. Thomson, was produced.
-Having ascertained that several specimens which he knew to be good failed in
-giving this char­ac­ter­is­tic color, Dr. M. proceeded to investigate the causes on
-which it depended. He expressed several bulbs and filtered the juice to separate
-the starch; a beautiful blue color was now immediately produced by the test.
-The blue liquid was then heated till the albumen was coagulated; the color remained
-with the coagulum, while the liquid was colorless. On raising the heat
-to 212° the blue color disappeared. The test produced no change in the starch
-collected on the filter. When the fluid was boiled previously to the application
-of the test, no blue color was produced by it either with the filtered fluid or
-the coagulum. From these experiments Dr. M. concludes, “1st. That albumen
-is the principle acted on. 2nd. That a heat above 180° destroys this action.
-3rd. That the value of the test is to prove that the bulbs have been dried at a
-temperature not higher than 180°.”</p>
-
-<p>Dr. Maclagan was unable to procure colchicia, the alkaloid announced by
-Geiger &amp; Hesse, in the crystalline form, though he followed the process they give
-very exactly, and consequently he doubts its crystalline nature. What he obtained
-was in the form of a brown resinous looking mass without smell, and of a
-bitter taste, the bitterness being followed by a slight sense of irritation in the
-throat but by nothing like the intense acrimony of veratria.</p>
-
-<div class="dkeeptogether">
-<p>In regard to the physiological action of Colchicum, Dr. M. confirms the statement
-of previous observers, that it markedly increases the amount of urea in the
-urine; and contrary to what has been maintained by some, found it likewise to
-increase the quantity of uric add. In an experiment related in detail, after the
-colchicum had been employed for six days, the amount of urea in the urine was
-found to be increased by nearly one half, and the uric acid was more than doubled.</p>
-
-<hr class="hr34" /></div>
-
-<div class="dkeeptogether">
-
-<h3>ERRATA IN THE FEBRUARY NUMBER.</h3>
-
-<ul>
-<li>Page <a href="#p033" title="go to p. 33">33,</a> 13th line from the bottom—for “slack” read “slacked.”</li>
-<li>Page <a href="#p036" title="go to p. 36">36,</a> 17th line from the bottom—for “grns.” read “grms.”</li>
-<li>Page <a href="#p036" title="go to p. 36">36,</a> 11th line from the bottom—for “grns.” read “grms.”</li>
-<li>Page <a href="#p036" title="go to p. 36">36,</a> 11th line from the bottom—for “0.845 grn.” read “0.845 grm.”</li>
-<li>Page <a href="#p037" title="go to p. 37">37,</a> 2nd line from the top—for “monohydrate” read
-“molybdate.”</li></ul></div>
-</div><!--chapter dedtrl -->
-
-<div class="chapter">
-<div><span class="xxpn" id="p097">{97}</span></div>
-<h2 class="h2nobreak"><span class="hsmall">NEW YORK</span>
-JOURNAL OF PHARMACY.
-<span class="hsmall"><span class="hdate">
-APRIL, 1852.</span></span></h2>
-</div><!--chapter-->
-
-<h3>REMARKS UPON SOME OF THE PREPARATIONS
-OF THE PHARMACOPŒIA OF THE UNITED
-STATES, 1851.
-<span class="hsmall">
-BY GEORGE D. COGGESHALL.</span>
-<span class="htiny">(Continued from page
-<a href="#p044" title="go to p. 44">44.</a>)</span></h3>
-
-<p>In giving formulæ it is to be supposed that the purpose of a
-Pharmacopœia is to be practical, responding to the every day
-wants of the associated professions of medicine and pharmacy.
-It would seem to be in no case of practical utility to retain a
-formula that is not used, and of this character I think is the
-one for “<span class="smcap">M<b>UCILAGE</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">G<b>UM</b></span>
-<span class="smcap">A<b>RABIC</b>.”</span> It does not appear to
-be employed of the consistence directed except as a paste.
-Nor is this consistence understood when mucilage of gum
-arabic is prescribed by physicians, but by some apothecaries a
-solution of only one eighth, and by others, one fourth the
-strength is put up. If physicians are expected to prescribe,
-and apothecaries to compound according to the letter of the
-Pharmacopœia, this is certainly a daily and unfortunately,
-owing to the want of a standard, a variable exception.
-The formula in our Pharmacopœia is substantially the same
-as in those of London and Edinburgh, while that of Dublin is
-one half stronger. In the latter three it enters into other
-officinal preparations, but in every case it is combined with
-water, which appears to be a needless multiplication of the process,
-as the proper proportions of gum and water for the whole
-might as well be directed at once. Nor, is it
-probably used in <span class="xxpn" id="p098">{98}</span>
-extemporaneous prescription without similar addition of water,
-unless it may be to form pills, for which it is rarely, if ever, well
-adapted, or employed by the apothecary when it is prescribed,
-as it makes, with most substances, an intractable mass. I have
-been told by a highly intelligent and well educated English
-apothecary, that “it was formerly the practice of English physicians
-to prescribe one ounce of mucilage of gum arabic with
-seven ounces of water, (or in that proportion,) making a solution
-of the strength now commonly used here, and that it had
-become gradually the practice to direct the whole quantity required,
-under the term of ‘mucilage of gum arabic,’ with the
-general understanding that the diluted strength was intended.”
-As this seems to be now the universal practice in prescribing
-and putting up mixtures, the officinal directions are practically
-useless, and lead to the adoption of various proportions by
-different apothecaries, to produce the mucilage to complete
-mixtures.</p>
-
-<p>Another circumstance may be noticed. The Pharmacopœia
-directs the use of powdered gum and of boiling water, whereas
-gum, in its ordinary condition or coarsely broken, and cold
-water make a clearer solution. Cold water is directed for the
-solution of the gum by the Edinburgh process, and in our present
-formula for “Syrup of Gum Arabic;”—if appropriate for the
-latter, it is quite as much so for the forming of mucilage. When
-the gum has been ground in a mill it appears to have been
-a little charred and forms a somewhat turbid solution; if
-powdered by hand, and rather more coarsely, its solution is
-clearer.</p>
-
-<p>Upon the whole it seems desirable that there should be a
-uniform strength for the mucilage of gum arabic, prescribed by
-physicians in mixtures, which the officinal preparation evidently
-is not. Our mucilage does not enter into any other officinal
-preparations, and if it did, the combination of gum and water
-had better be made in the general process, as in our almond
-mixture.</p>
-
-<p>“<span class="smcap">C<b>OMPOUND</b></span>
-<span class="smcap">S<b>PIRIT</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">L<b>AVENDER</b>”</span> appears to
-be but seldom <span class="xxpn" id="p099">{99}</span>
-made according to the officinal directions, owing to the difficulty
-of procuring the simple spirit of lavender. On this
-account most apothecaries use a proportion of the oil of lavender
-and of spirit, variable no doubt in different private recipes.
-The oil makes a decidedly inferior preparation, separating
-upon admixture with water, and even the best English oil—which
-is probably never used—is less congenial to the stomach
-than the distilled spirit. But the difficulty may be overcome,
-and an excellent preparation, essentially the same and perhaps
-quite equal in quality and flavor to that of the Pharmacopœia,
-may be made by the employment of recently dried flowers.
-The following is the formula I have used for several years, with
-an entirely satisfactory result:―</p>
-
-<div class="dpoembox"><ul class="ulin2">
-<li class="livs">Take of Lavender flowers twelve ounces,</li>
-<li class="livs">&#160;&#160;Rosemary leaves,</li>
-<li class="livs">&#160;&#160;Cinnamon, bruised, each four ounces and a half,</li>
-<li class="livs">&#160;&#160;Nutmegs, bruised,</li>
-<li class="livs">&#160;&#160;Cloves, bruised, each six drachms,</li>
-<li class="livs">&#160;&#160;Coriander seed, bruised,</li>
-<li class="livs">&#160;&#160;Red Sanders each three ounces,</li>
-<li class="livs">&#160;&#160;Powdered Turmeric one drachm,</li>
-<li class="livs">&#160;&#160;Alcohol six pints,</li>
-<li class="livs">&#160;&#160;Water five pints and a quarter.</li>
-<li class="livs"><i>Mix, digest for fourteen days, express and
-filter.</i></li></ul>
-</div>
-
-<p><span class="smcap">T<b>HE</b></span>
-<span class="smcap">“S<b>YRUP</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">G<b>UM</b></span>
-<span class="smcap">A<b>RABIC,”</b></span> unaccountably withdrawn from
-the Pharmacopœia in 1840, when it had become a familiar
-favorite, comes to us again in the new revision, not at all improved
-by seclusion. It is changed in its proportions, but not
-for the better, as it now has too little gum and too much sugar
-in its composition. Of numerous formulæ by which I have
-made this syrup, I have always found that from our Pharmacopœia
-of 1830, the best in proportions, consistence and
-flavor. It is defective however, in one point of construction,
-and incorrect in the use of boiling water to make the solution
-of gum. The syrup is probably not better in any essential
-particular, but it is clearer, and therefore
-more pleasing in <span class="xxpn" id="p100">{100}</span>
-appearance, when it is constructed by making the solutions of
-gum and sugar separately, that of the gum in half the water
-cold, and that of the sugar in the remainder of the water
-boiling, then immediately combining the two and bringing to
-the boiling point. It may then be easily filtered through
-flannel.</p>
-
-<p>In preparing “<span class="smcap">S<b>YRUP</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">C<b>ITRIC</b></span>
-<span class="smcap">A<b>CID</b>,”</span> it would be preferable
-to use, in place of the oil of lemon, a tincture made from
-the outside yellow part of the rind of the fresh fruit, made by
-covering it with pure alcohol. Two drachms of this tincture
-are about equivalent to four minims of the oil of lemon.</p>
-
-<p>The formula for “<span class="smcap">S<b>YRUP</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">I<b>PECACUANHA</b>”</span> is one of the most
-objectionable we have to notice, and the least calculated to
-answer medical wants in regard to its importance. There is
-a verbal error, either in the list of components or in the directions,
-which leads to some confusion. Amongst the former we
-find “<i>diluted alcohol</i>,” and in the latter, we are told to “macerate
-the ipecacuanha in the <i>alcohol, &amp;c.</i>” The same error occurs
-in the edition of 1840. This formula is unnecessarily complex,
-and yields an inefficient preparation of about half the strength of
-the wine of ipecac, which it was intended to equal at its origin,
-about twelve years before its introduction into our Pharmacopœia.
-Previously to this it had, for six or eight years, been
-made here of about double the strength of the wine, in accordance
-with the general plan of forming medicinal syrups, by
-combining as large a proportion of the remedial agent in them
-as can readily be done, to obviate at once the necessity of bulky
-doses, and the exhibition of undue quantities of sugar. I cannot
-discover the advantage of making a pint of tincture with
-an ounce of the root, evaporating the filtered tincture to six
-fluid ounces, filtering again, and then adding water to bring
-back the measure of a pint. If the object be to get rid of the
-alcohol, it is an unnecessary exposure of the soluble principles
-of the ipecac to heat, for half a pint of diluted alcohol, especially
-with four ounces of water added by way of displacement, would
-exhaust the root equally well; so that the
-evaporation need not <span class="xxpn" id="p101">{101}</span>
-be carried so far. There is no mention of a water bath, which
-should be used by all means.</p>
-
-<p>We should prefer, if we could, to make all preparations
-which the Pharmacopœia contains, in accordance with it. But
-when a preparation has been in such general and favorite use,
-for several years, as to be considered indispensable before it
-becomes officinal; and in such form is reduced to a third or a
-fourth of what is felt to be an eligible strength, not only without
-any compensating advantage, but with the positive disadvantages
-of greatly diluting its remedial influence, and increasing
-the quantity required to be taken of a nauseous medicine, there
-is naturally an unwillingness to yield well settled convictions
-of utility, and replace an important remedy, that has proved
-quite satisfactory, with a preparation believed to be of comparatively
-little value. It is not probable that, in New York,
-the present officinal syrup of ipecacuanha, can ever supersede
-the efficient and reliable one we have so long been accustomed
-to, nor answer the wishes and expectations of the medical profession.
-I append the formula proposed in a paper read before
-the Board of Trustees in 1835, seven years before one
-for this syrup appeared in our Pharmacopœia. I have not
-found cause to change it in any respect. It affords about three
-pints of syrup, which keeps well for years at the ordinary temperatures
-of the shop, and of dwellings; the proportion of sugar
-proves to be just what is wanted for a proper consistence without
-cry­stal­li­za­tion, and, as a medicine, it gives entire satisfaction
-to the prescriber. It is as follows:―</p>
-
-<div class="dpoembox"><ul class="ulin2">
-<li class="livs">Take of Ipecacuanha, bruised, six ounces,</li>
-<li class="livs">&#160;&#160;Alcohol one pint and a half,</li>
-<li class="livs">&#160;&#160;Water one pint,</li></ul>
-</div>
-
-<p><i>Mix, to form a tincture. Digest for ten days, filter, and
-add one pint of water, by way of displacement, evaporate in
-a water bath to two pints, add immediately:</i></p>
-
-<div class="ulin2 pleft">Refined sugar three pounds and a quarter.</div>
-
-<p><i>And bring to the boiling point.</i></p>
-
-<p>The “<span class="smcap">C<b>OMPOUND</b></span>
-<span class="smcap">S<b>YRUP</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">S<b>QUILL</b>”</span> is
-presented in the <span class="xxpn" id="p102">{102}</span>
-Pharmacopœia with two processes for its preparation. The
-first is liable, though in a less degree, to the same objection
-which has rendered the original form, given by Dr. Coxe,
-obsolete, that it produces a turbid syrup, and one that will not
-keep. The second process is better, but scarcely adequate, I
-should think, to extract the full strength of the roots so well as
-by the employment of a greater proportion of alcohol, and
-longer digestion. The following produces three and a half pints
-of syrup from the same materials, apparently stronger than if
-the boiling, which is only for a few minutes, were continued
-down to three pints, retaining a portion of honey, for the sake
-of the flavor, and with as large an addition of sugar as the
-syrup will bear without cry­stal­li­za­tion. The proportion of tartar
-emetic is, of course, the same:</p>
-
-<div class="dpoembox"><ul class="ulin2">
-<li class="livs">Take of Seneka, bruised,</li>
-<li class="livs">&#160;&#160;Squills, bruised, each four ounces.</li>
-<li class="livs">&#160;&#160;Alcohol,</li>
-<li class="livs">&#160;&#160;Water each two pints.</li>
-</ul></div>
-
-<p><i>Mix, to form a tincture. Digest ten days, filter, and add
-twelve ounces of water, by way of displacement, evaporate by
-water bath to two pints, add:</i></p>
-
-<div class="dpoembox"><ul class="ulin2">
-<li class="livs">Sugar fifteen ounces,</li>
-<li class="livs">Honey eighteen ounces,</li>
-</ul></div>
-
-<p><i>Boil to three pints and a half, in which dissolve while hot:</i></p>
-
-<div class="ulin2 pleft">Tartar emetic fifty-six grains.</div>
-
-<p>“<span class="smcap">S<b>YRUP</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">T<b>OLU</b>,”</span> made after the London formula, is a more
-elegant and better flavored preparation than can be made by
-any combination of the tincture. So decided is the superiority
-of the London process, that it is rather surprising the other
-Pharmacopœias should not adopt it. An apothecary who
-does, will hardly be satisfied with the tincture-made syrup
-afterwards.</p>
-
-<p>The “<span class="smcap">T<b>INCTURE</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">A<b>CONITE</b></span>
-<span class="smcap">R<b>OOT</b>”</span> is desired by our physicians
-of full saturation. The “strong tincture,” to which we have
-been accustomed for several years, is that of Fleming’s process,
-viz: sixteen ounces of the root to a pint and a
-half of alcohol. <span class="xxpn" id="p103">{103}</span></p>
-
-<p>The “<span class="smcap">C<b>OMPOUND</b></span>
-<span class="smcap">T<b>INCTURE</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">C<b>ARDAMOM</b>”</span> is now first introduced
-into our Pharmacopœia, with a change from the pleasant
-tincture we have been in the habit of making after the London
-or Edinburgh formula, by increasing the proportion of cardamom,
-from two drachms and a half to six drachms, and reducing
-the caraway one fifth, which makes a tincture not near so
-pleasant to the taste, owing to the strong predominance of the
-cardamom flavor, which is rather harsh when in too great excess.
-As this tincture is of little medical importance by itself,
-and chiefly used as an agreeable adjunct to mixtures, the proportions
-which have been found to answer so well may still be
-considered preferable.</p>
-
-<div class="dkeeptogether">
-<p>There are other cases, no doubt, in which apothecaries will
-find it expedient to vary the processes of carrying out formulæ,
-not with a view of altering the strength of preparations, but
-arriving at substantially the same results or better ones, from
-the same materials, by improved application of skill. Whoever
-can, by superior method, more fully develope the qualities
-of a substance to be acted upon, than has hitherto been done,
-or change the character of a preparation from perishable to
-permanent, from uncertain to definite, from slovenly to elegant,
-can accomplish something for the benefit of his art, and render
-it so much the more useful to the community. Most of the
-improvements in pharmacy have been effected by the practical
-apothecary, and rendered available by him, in advance of the
-Pharmacopœia.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>NOTES IN PHARMACY.
-<span class="hsmall">
-BY BENJAMIN CANAVAN.</span></h3>
-</div><!--section-->
-
-<p>The fact in the natural kingdom, that “nothing is destroyed,”
-suggests an equally true axiom, as applied to the moral
-world, that “nothing is useless;” and, with this impression, I
-am induced to send the following trifles to the New York Journal
-of Pharmacy, which, if not unacceptable, it will give me
-pleasure to repeat
-“<i>pro re natâ</i>.” <span class="xxpn" id="p104">{104}</span></p>
-
-<p><span class="smcap">P<b>IL.</b></span>
-<span class="smcap">F<b>ERRI</b></span>
-<span class="smcap">C<b>OMP.</b></span>—This very much neglected pill, which is
-the prototype and should have precluded the necessity of Vallet’s
-preparation, I would beg leave to introduce, for the purpose
-of recommending, or rather verifying an improvement
-which I have sometimes adopted, in the mode of compounding
-it, differing from the officinal directions for so doing. We are
-told to “rub the myrrh with the carb. sodæ; then add the
-sulph. ferri, and again rub them; lastly, beat them with the
-syrup so as to form a mass.” I do not hesitate to say that no
-amount of trituration or skill, with which I am acquainted, will
-enable the manipulator by this means to make the mass properly,
-either in a chemical or phar­ma­ceu­ti­cal point of view.—In
-a note the editor of the United States Dispensatory informs
-us: “It is said the salt of iron will be better preserved, if the
-operator should dissolve the sulphate of iron in the syrup with
-a moderate heat and then add the carb. sodæ, <i>stirring!</i> till effervescence
-ceases;” this is correct in principle; but the same
-object is attained, and the <i>only</i> way by which the pill ought
-or can be properly prepared, is by triturating separately, and
-to solution the two salts in the necessary quantity of syrup,
-mixing, and again triturating until perfect decomposition is induced,
-and by incorporating the myrrh, form into a mass without
-delay. In this way you insure the existence of the
-intended proto carb. ferri in the pill, which is not, or only
-partially the case when prepared by any other process. I
-would remark, en passant, that this pill presents us with the
-very perishable proto carb. in the <i>most permanent</i> form, retaining,
-when properly prepared, its chemical integrity unimpaired,
-indefinitely, and is therefore superior in this important respect to
-the quickly changeable mist. ferri comp., the presence also of a
-larger proportion of myrrh being often a decided advantage.</p>
-
-<p><span class="smcap">E<b>XTRACTA</b></span>
-<span class="smcap">L<b>IQUIDA</b></span>
-<span class="smcap">O<b>PII.</b></span>—It has been suggested, and I believe
-attempted, to introduce certain preparations with the
-above titles, as substitutes for the demi-nostrum, known as
-“McMunn’s Elixir of Opium,” which has been very extensively
-used, and enjoyed high favor, but of which
-the exact nature <span class="xxpn" id="p105">{105}</span>
-and mode of preparation are not generally understood, and which,
-either from having become too antiquated for this novelty hunting
-age, or its success having tempted the cupidity of avaricious
-persons, or from whatever cause, has been for some time
-diminishing in popularity, and subjected to many complaints.
-In all preparations of this potent drug, with which I am acquainted,
-ancient or modern, the great object has been, to get
-rid of the narcotine, which has been more or less accomplished
-by various processes. At present an aqueous fluid extract is
-said to supply the desideratum. This is merely a modification
-of the watery extract of all the Pharmacopœias, and is no doubt
-as good, but no better preparation. The denarcotised tincture
-is superior to all of them, and the <i>very small</i> quantity of spirit
-contained in an ordinary dose, is scarcely an objection, and is
-only little more than is necessary to preserve the extract; but
-if deemed otherwise, a fluid extract may be prepared from denarcotised
-opium, <i>entirely free</i> from the peccant alkaloid, and
-possibly the evaporation necessary to the process, may dissipate
-some noxious volatile property, which would exist in a tincture,
-and which it is most probable the opium possesses, from the
-fact, among others, that <i>old opium</i> is much less prone than <i>new</i>
-to cause disagreeable after effects. It has been supposed that
-meconic acid has been the evicted principle; but this is doubtful.
-However, the action of heat is useful, and I think a
-“fluid extract of denarcotised opium,” would perhaps be found
-to be as free as possible from objectionable effects.</p>
-
-<p><span class="smcap">E<b>THER</b></span>
-<span class="smcap">H<b>YDROCHLORIC;</b></span>
-<span class="smcap">C<b>HLORINAT</b>:</span> or ether hydrochlorique
-chlorè, as the French have it, is another change, rung by M.
-Mialhe of Paris, with the transcendental compounds of carbon
-and chlorine. It is a mongrel preparation, intermediate between
-hydrochloric: ether and chloroform, professing to have
-the advantage of not irritating the skin like the latter. If
-this be so, experience will tell, and also whether the irritation
-is not proportionable to the effect. With regard to
-such a refinement of an already infinitesimally delicate
-class of preparations, I should suppose it
-would be <span class="xxpn" id="p106">{106}</span>
-desirable to effect the object aimed at by them, by if possible
-some more palpable method, as for instance diluting chloroform
-either with hydrochloric ether or alcohol, to the necessary
-mildness, or by interposing between it and the skin, a thin
-<i>moist</i> layer of some substance, as bibulous paper, which would
-not interfere with the rigefacient effect of evaporation, and
-would prevent any injury arising from actual contact.</p>
-
-<hr class="hr34" />
-
-<div class="section">
-<h3>INDELIBLE INK.
-<span class="hsmall">
-BY M. GUILLER, OF PARIS.</span></h3>
-</div><!--section-->
-
-<p>Hitherto the various inks prepared for marking linen, have
-but imperfectly answered the end proposed. Some produced
-yellowish marks; others though blacker at first, disappeared
-either partially or entirely after several washings.</p>
-
-<p>Again, others, in separate bottles, necessitated two distinct
-operations, and were thus attended with inconvenience, from
-the possibility of mistakes or forgetfulness, from the care required,
-and also from the time taken up in the operation.</p>
-
-<p>In view of these difficulties, and to meet a demand constantly
-occurring in commerce, and in all kinds of manufactures, as
-well as in hospitals, and civil and military ad­min­i­stra­tions,
-we have applied ourselves to the composition of an ink free
-from all these objections, and perfectly easy and certain in its
-application.</p>
-
-<p>We shall subjoin some formulæ for the manufacture of
-marking inks, which represent particular improvements, as can
-be verified by trying them.</p>
-
-<div class="dtablebox"><div class="nowrap">
-<table summary="">
-<caption>Formula, No. 1,</caption>
-<tr>
- <td class="pleft">Nitrate of silver,</td>
- <td class="pleft">11 grammes,</td></tr>
-<tr>
- <td class="pleft">Distilled water,</td>
- <td class="pleft">85 grammes,</td></tr>
-<tr>
- <td class="pleft">Powdered gum arabic,</td>
- <td class="pleft">20 grammes,</td></tr>
-<tr>
- <td class="pleft">Sub-carbonate of soda,</td>
- <td class="pleft">22 grammes,</td></tr>
-<tr>
- <td class="pleft">Solution of Ammoniæ,</td>
- <td class="pleft">20 grammes.</td></tr>
-</table></div></div><!--dtablebox-->
-
-<p>Dissolve the 22 parts of sub-carbonate of soda in the 85
-parts of water; put into a marble mortar the gum,
-and pour on <span class="xxpn" id="p107">{107}</span>
-it very gradually the solution of the sub-carbonate, stirring it
-with the pestle to cause it to dissolve.</p>
-
-<p>In the mean time, you will have dissolved the 11 parts of
-nitrate in the 20 parts of liquid ammonia. Mix the two solutions;
-put the whole in a matrass and expose it to heat. The
-mass which was of a dirty grey color, and half coagulated, becomes
-clear and brown, and when arrived at the boiling point,
-it becomes very dark, and sufficiently limpid to flow readily
-in the pen. This ink, made without heat like the two following
-forms no sediment, the ebullition thickening it, and besides
-giving the ink a very dark color, disengages the ammoniacal
-vapors, which attenuate the odor of the ammonia in it.</p>
-
-<div class="dtablebox"><div class="nowrap">
-<table summary="">
-<caption>Formula No. 2,</caption>
-<tr>
- <td class="pleft">Nitrate of silver,</td>
- <td class="pleft">&#x2007;5 grammes,</td></tr>
-<tr>
- <td class="pleft">Water,</td>
- <td class="pleft">12 grammes,</td></tr>
-<tr>
- <td class="pleft">Gum,</td>
- <td class="pleft">&#x2007;5 grammes,</td></tr>
-<tr>
- <td class="pleft">Sub-carbonate of soda,</td>
- <td class="pleft">&#x2007;7 grammes,</td></tr>
-<tr>
- <td class="pleft">Solution of Ammoniæ,</td>
- <td class="pleft">10 grammes.</td></tr>
-</table></div></div>
-
-<p>Mix as in No. 1; put the whole into a matrass and evaporate
-until the liquor has acquired a very dark brown tint, which
-will take place when it has lost about 5 per cent. of its bulk;
-a more complete evaporation would form a precipitate, as the
-vapors would draw off too much of the ammonia.</p>
-
-<p>This ink will be found excellent for marking, the character
-will be very black, and it will be found especially useful for
-applying with the stamp.</p>
-
-<div class="dtablebox"><div class="nowrap">
-<table summary="">
-<caption>Formula No. 3,</caption>
-<tr>
- <td class="pleft">Nitrate of silver,</td>
- <td class="pleft">17 grammes,</td></tr>
-<tr>
- <td class="pleft">Water,</td>
- <td class="pleft">85 grammes,</td></tr>
-<tr>
- <td class="pleft">Gum,</td>
- <td class="pleft">20 grammes,</td></tr>
-<tr>
- <td class="pleft">Sub-carbonate of soda,</td>
- <td class="pleft">22 grammes,</td></tr>
-<tr>
- <td class="pleft">Solution of Ammoniæ,</td>
- <td class="pleft">42 grammes,</td></tr>
-<tr>
- <td class="pleft">Sulphate of copper,</td>
- <td class="pleft">33 grammes.</td></tr>
-</table></div></div><!--dtablebox-->
-
-<p>First dissolve the 22 parts of sub-carbonate in the 25 parts
-of water, and the 15 of nitrate in the 42 of ammonia.</p>
-
-<p>This done, put into the marble mortar the 20 parts of
-gum with the sixty parts of water which
-remain, stir it <span class="xxpn" id="p108">{108}</span>
-with the pestle, and pour on it the solution of sub-carbonate,
-after which, pour the whole into the solution of the nitrate;
-finish by adding the 33 parts of the solution of sulphate of
-copper.</p>
-
-<p>The greater quantity of ammonia is explained by the presence
-of the sulphate to be dissolved.</p>
-
-<p>This composition differs from the others in having a blue
-tinge, due to the solution of copper.</p>
-
-<p>It will be readily seen that these relative qualities, given as
-formulæ for the production of suitable inks, may vary according
-as it is desirable to produce a thicker or thiner ink, or
-according to the material on which it is to be used, observing
-that if, on the one hand, the ammonia acts as a solvent,
-and facilitates the composition of an ink which can be used
-without a previous preparation; on the other hand, the
-evaporation of a part of the ammonia by heat, gives to the
-liquid a dark color which renders the writing immediately
-black; again, the boiled liquid greases less, and thus penetrates
-and spreads better on the linen without making a blot.</p>
-<div class="dkeeptogether">
-<p>As to the mode of using, whether with a pen or a stamp
-proceed as usual, namely: pass a hot iron over the writing, to
-cause it more completely to penetrate the material.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON VALERIANIC ACID AND ITS SALTS.
-<span class="hsmall">
-BY MR. J. B. BARNES.</span></h3>
-</div><!--section-->
-
-<p>Considerable attention having of late been directed to this
-class of compounds, perhaps a few practical observations relating
-to their manufacture, &amp;c. might be of interest to the readers
-of <i>The Annals of Pharmacy</i>.</p>
-
-<p>Although some of the combinations of valerianic acid with
-bases, and the properties of those salts, have been described in
-the books on chemistry, yet I believe I may lay claim to the
-priority of the preparation of an extensive series of the combination
-of valerianic
-acid with bases. <span class="xxpn" id="p109">{109}</span></p>
-
-<p>Valerianic acid, it is well known, occurs preformed in certain
-plants; and it is equally well known, that it can be produced
-in the laboratory by artificial means. This very fact is
-of great interest to the investigating chemist, as it encourages
-him in the belief that he will, sooner or later, be able to produce
-artificially, not only acids, which are known to exist in
-the animal and vegetable kingdoms; but that he will so far
-imitate Nature in her wonderful processes, as to produce the
-vegetable alkaloids, morphia, quina, &amp;c., by the combination
-of their elements.</p>
-
-<p>The acid employed in the preparation of this series, <i>for which
-I have had the honor of being awarded a Prize Medal by the
-Jurors of the Great Exhibition</i>, was prepared, in principle,
-the same as that directed to be used by the Dublin Pharmacopœia
-in the preparation of valerianate of soda, namely, the
-oxidation of Fusel oil by means of chromic acid. The formula
-I employed is as follows:―</p>
-
-<div class="dtablebox"><div class="nowrap">
-<table summary="">
-<caption class="pleft">Take of</caption>
-<tr>
- <td class="pleft">Bichromate of potash,</td>
- <td class="pleft">2&#160;parts.</td></tr>
-<tr>
- <td class="pleft">Oil of vitriol,</td>
- <td class="pleft">3 parts.</td></tr>
-<tr>
- <td class="pleft">Water,</td>
- <td class="pleft">4 parts.</td></tr>
-<tr>
- <td class="pleft">Pure Fusel oil,</td>
- <td class="pleft">1 parts.</td></tr>
-</table></div></div><!--dtablebox-->
-
-<p>The bichromate of potash is to be finely powdered and dissolved
-in the water; the solution being put into a glass retort,
-the oil of vitriol is gradually added, and, when quite cold, the
-<i>fusel oil</i> is carefully added; the contents of the vessel must
-be constantly agitated, and at the same time kept immersed
-in cold water. The deep green liquid is now distilled from a
-sand bath; the distillate is mixed with caustic soda, or potash,
-and separated from the oily fluid floating on the surface; the
-<i>valerianate of soda</i> is evaporated to a convenient degree of
-concentration, introduced into a retort, decomposed with dilute
-sulphuric acid, and distilled; the liberated valerianic acid is
-finally dried over chloride of calcium.</p>
-
-<p>It is also obtained by the oxidation of oil of valerian, by
-means of an alkali. It is formed from fats,
-by treating them <span class="xxpn" id="p110">{110}</span>
-with fuming nitric acid; from animal nitrogenous matters, both
-by putrefaction and on decomposing them with strong nitric
-acid; and also if leucine be treated with caustic potash, or
-allowed to putrefy, it becomes converted into valerianic acid
-(no other acid being formed), ammonia and hydrogen being
-evolved.</p>
-
-<p>It is most easily obtained in a state of absolute purity by the
-action of spongy platinum and atmospheric air upon potatoe
-Fusel oil.</p>
-
-<div class="dkeeptogether">
-<p>Valerianic acid is composed of C<sub>10</sub>&#x202f;H<sub>9</sub>&#x202f;O<sub>3</sub>,&#x202f;H&#x202f;O. It possesses
-a well known char­ac­ter­is­tic odour, an acrid burning taste, and
-produces a white spot on the tongue. It boils at 348° Fahr.,
-and dissolves in 26 parts water; it also forms a second
-hydrate.<a class="aftntanc" href="#fn8" id="fnanch8">8</a></p>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch8" id="fn8">8</a>
-Lehmann’s Physiological Chemistry.</p></div></div>
-
-<div class="dkeeptogether">
-<h4><i>Combinations with the Alkalies.</i></h4>
-
-<p>The potash salt was prepared by saturating the acid with
-liquor potassæ, and evaporating carefully until aqueous vapour
-ceased to be given off: it should be, while still warm, cut up and
-preserved in well stoppered bottles. It does not crystallize, but
-forms a semi-transparent colorless mass, very much resembling
-phosphorus in appearance. It (probably from its compactness)
-produces when sharply struck with any hard body a metallic
-sound, somewhat like that occasioned when a bell of camphor is
-struck in a similar manner. It is deliquescent,
-and very soluble.</p></div>
-
-<p>The soda salt was prepared in the same manner as the potash
-salt, cut up into pieces while warm, and preserved in stoppered
-bottles: it is in snow-white masses composed of minute crystals;
-it is deliquescent, and very soluble. The ammonia salt was
-prepared by saturating the acid with strong liquor ammoniæ,
-and evaporating at a temperature not exceeding 100° Fahr.,
-until crystals appeared on the surface of the liquid. When it
-was set aside for further cry­stal­li­za­tion, the mother liquor was
-allowed to drain off, the crystals were placed upon bibulous
-paper, and finally dried <i>in vacuo</i>, over oil
-of vitriol. They are <span class="xxpn" id="p111">{111}</span>
-of a tabular form; when held between the fingers for a moment,
-they become liquid. They are deliquescent and dissolve readily
-in water.</p>
-
-<div class="dkeeptogether">
-<h4><i>Combinations with the Alkaline Earths.</i></h4>
-
-<p>The baryta salt was prepared by adding the acid to carbonate
-of baryta in excess, which had been previously mixed with
-water; a gentle heat was applied, and, when the disengagement
-of carbonic acid had ceased, the excess of carbonate was
-filtered off; the filtrate was evaporated very carefully, until
-aqueous vapour ceased to be given off, it remained a transparent
-gummy mass, readily soluble in water.</p></div>
-
-<p>The strontia, lime, and magnesia salts were prepared in the
-same manner as the baryta salt. The two former are crystalline,
-and do not deliquesce by exposure to the atmosphere; they
-are soluble. The lime salt crystallizes in nacreous plates; it
-effloresces when exposed to the atmosphere; it is beautifully
-white.</p>
-
-<p>The magnesia salt would not crystallize, therefore it was
-evaporated to dryness, at a temperature not exceeding 120°
-Fahr. It forms a light white soluble powder, sweet to the taste,
-and strong in the char­ac­ter­is­tic odour of valerianic acid.</p>
-
-<div class="dkeeptogether">
-<h4><i>Combinations with Metallic Oxides.</i></h4>
-
-<p>The alumina, chromium, and nickel salts were prepared by the
-direct combination of the hydrates of those bases with the acid.</p>
-</div>
-
-<p>The alumina and chromium salts are in powder, and are
-soluble.</p>
-
-<p>The nickel salt is in crystalline masses, of an apple-green
-color, soluble in water.</p>
-
-<p>The cobalt salt was also prepared by the direct way; the
-flocculent blue precipitate, obtained by precipitation from
-nitrate of cobalt, by means of caustic potash, after being well
-washed, was dissolved in valerianic acid, filtered and very carefully
-evaporated to dryness; it occurs in masses of a rose color,
-and is soluble.</p>
-
-<p>The manganese salt was also prepared in the
-direct way by <span class="xxpn" id="p112">{112}</span>
-mixing an excess of the hydrated oxide with water and the
-acid, allowing them to remain in contact for some time, filtering
-and evaporating at a temperature not exceeding 120° Fahr.,
-until crystals appeared on the surface of the fluids; it was set
-aside, and after a while, the crystals were separated from the
-mother liquor. The latter being again evaporated, another crop
-of crystals was obtained; it occurs in glistening scales of a flesh
-color, and dissolves very readily in water.</p>
-
-<p>The valerianate of <i>protoxide of iron</i> was prepared by the
-double decomposition of valerianate of baryta and proto-sulphate
-of iron; it can only be kept in a state of solution, as least the
-heat and exposure to the air converts it immediately into the
-peroxide salt.</p>
-
-<p>The valerianate of <i>peroxide of iron</i>, was prepared by bringing
-together neutral cold solutions of perchloride of iron and
-valerianate of soda, the precipitated valerianate was thrown
-upon a filter, well washed, to separate the chloride of sodium,
-and dried without heat on a porous tile; it occurs as a bright
-red loose powder, perfectly soluble in alcohol.</p>
-
-<p>The valerianate of zinc was prepared according to the directions
-in the Dublin Pharmacopœia; it occurs in small smooth
-crystals, somewhat like boracic acid; it is soluble in water and
-alcohol.</p>
-
-<p>The lead salt was prepared by decomposing freshly precipitated
-carbonate of lead with the acid, filtering and evaporating
-at a low temperature. In due time, crystals made their appearance
-in the fluid; but (probably from the temperature being too
-high) they subsequently disappeared; and, upon further evaporation,
-it remained in the form of a syrup.</p>
-
-<p>The silver salt was produced by the double decomposition of
-nitrate of silver, and valerianate of soda. The valerianate of
-silver being very insoluble, was precipitated as a white powder;
-after washing with cold water, it was dried in the dark on a
-porous tile. By exposure to the light, it becomes black.</p>
-
-<p>The salt of the suboxide of mercury was also prepared by
-double decomposition. It is a loose,
-yellowish white powder. <span class="xxpn" id="p113">{113}</span></p>
-
-<p>The salt of oxide of mercury was prepared by agitating together,
-the yellow hydrate of the oxide with water and valerianic
-acid. After some time, I obtained a colorless liquid,
-which, upon evaporation at a temperature not exceeding 100°
-Fahr., yielded crystals which, however, speedily fell into a
-red powder. I therefore again repeated the operation, omitting
-the application of heat; the solution was set aside, when in the
-course of two or three weeks, I obtained this salt in prismatic
-white crystals.</p>
-
-<p>The bismuth salt was obtained by the addition of valerianate
-of soda, to a solution of bismuth in nitric acid, which was nearly
-saturated with carbonate of soda. It occurs as a loose white
-powder.</p>
-
-<p>The copper salt was obtained by double decomposition, and
-occurs as a beautiful green powder.</p>
-
-<p>The cadmium salt was prepared in the same manner as the
-zinc salt. It occurs in crystalline scales, resembling in form
-that of zinc, but larger.</p>
-
-<div class="dkeeptogether">
-<h4><i>Combinations with Organic Bases.</i></h4>
-
-<p>The valerianate of oxide of ethyle (valerianic ether) was obtained
-by distilling, together, alcohol, oil of vitriol, and valerianic
-acid; it was well washed, dried over chloride of calcium,
-and re-distilled. It is an oily liquid, with a penetrating smell
-of fruit, and of valerian; of specific gravity, 0,894. (Otto).
-It is miscible with alcohol and ether: it has an agreeable, cool,
-and aromatic taste.</p></div>
-
-<p>I prepared the valerianate of quina, both by double decomposition,
-and by direct combination of the base with the acid.</p>
-
-<p>That by double decomposition, was prepared by adding to a
-warm solution of neutral sulphate of quinine, a warm solution
-of valerianate of baryta; the mixture was allowed to stand for
-a while, and filtered to separate the insoluble sulphate of baryta;
-the filtrate was evaporated at a temperature of about 100°,
-until crystals made their appearance, when it was
-set aside for <span class="xxpn" id="p114">{114}</span>
-further cry­stal­li­za­tion. The crystals obtained by this process
-are in silky tufts and perfectly white.</p>
-
-<p>The valerianate of quina, made by the direct combination of
-the acid with the base, was effected by triturating, in a mortar,
-freshly precipitated quina, with water and valerianic acid,
-until the quina had disappeared. It was then exposed in shallow
-dishes, to a current of air; when sufficiently evaporated,
-octohedral crystals were formed. Valerianate of quina in both
-forms dissolves readily in water.</p>
-
-<p>When a solution of valerianate of quina is evaporated at a
-temperature of 130°, it does not crystallize, but has the appearance
-of an oil.</p>
-
-<p>From the different appearances of this salt, it is highly probable
-that they each differ in composition. This phenomena is
-worthy of a thorough investigation.</p>
-
-<p>The morphia salt was prepared in the direct way. It crystallizes
-in silky tufts; it dissolves readily in water.</p>
-
-<p>Although but three of the salts of valerianic acid are employed
-in medicine, namely, those of <i>peroxide of iron</i>, oxide
-of zinc, and <i>quinine</i>, there appears to me no reason why those
-of <i>potash</i>, <i>soda</i>, <i>ammonia</i>, <i>teroxide of bismuth</i>, and <i>oxide of
-ethyle</i>, (<i>valerianic ether</i>), should not be employed by the physician.</p>
-
-<div class="dkeeptogether">
-<p>In conclusion, I must express my sincere thanks to Mr.
-Savory, for his kindness in having placed at my disposal the
-materials necessary for the preparation of this series.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ESSENCE OF PINE APPLE.</h3>
-</div><!--section-->
-
-<p>The above essence is, as already known, butyric ether, more
-or less diluted with alcohol; to obtain which pure, on the large
-scale and economically, the following process is recommended:―</p>
-
-<p>Dissolve <span class="nowrap">6
-<img class="iglyph-a" src="images/u2114.l.b.bar.jpg"
- width="58" height="84" alt="℔" />s.</span>
-of sugar and half an ounce of tartaric acid, in
-<span class="nowrap">26 <img class="iglyph-a" src="images/u2114.l.b.bar.jpg"
- width="58" height="84" alt="℔" />s.</span>
-of boiling water. Let the solution stand for several
-days; then add 8 ounces of putrid cheese broken up
-with <span class="nowrap">3 <img class="iglyph-a" src="images/u2114.l.b.bar.jpg"
- width="58" height="84" alt="℔" />s.</span>
-<span class="xxpn" id="p115">{115}</span>
-of skimmed and curdled sour milk, and <span class="nowrap">3 <img class="iglyph-a" src="images/u2114.l.b.bar.jpg"
- width="58" height="84" alt="℔" />s.</span>
-of levigated chalk.
-The mixture should be kept and stirred daily in a warm place,
-at the temperature of about 92° Fahr., as long as gas is evolved,
-which is generally the case for five or six weeks.</p>
-
-<p>The liquid thus obtained, is mixed with an equal volume of
-cold water, and
-<span class="nowrap">8 <img class="iglyph-a" src="images/u2114.l.b.bar.jpg"
- width="58" height="84" alt="℔" />s.</span>
-of crystallized carbonate of soda, previously
-dissolved in water, added. It is then filtered from the precipitated
-carbonate of lime; the filtrate is to be evaporated
-down to <span class="nowrap">10 <img class="iglyph-a" src="images/u2114.l.b.bar.jpg"
- width="58" height="84" alt="℔" />s.,</span>
-when <span class="nowrap">5&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub> lbs.</span>
-of sulphuric acid, previously diluted
-with an equal weight of water, are to be carefully added.
-The butyric acid, which separates on the surface of the liquid
-as a dark-colored oil, is to be removed, and the rest of the liquid
-distilled; the distillate is now neutralized with carbonate of
-soda, and the butyric acid separated as before, with sulphuric
-acid.</p>
-
-<p>The whole of the crude acid is to be rectified with the addition
-of an ounce of sulphuric acid to every pound. The distillate
-is then saturated with fused chloride of calcium, and re-distilled.
-The product will be about 28 ounces of pure butyric
-acid. To prepare the butyric acid, or essence of pine apple,
-from this acid, proceed as follows:—Mix, by weight, three
-parts of butyric acid with six parts of alcohol, and two parts of
-sulphuric acid in a retort, and submit the whole, with a sufficient
-heat, to a gentle distillation, until the fluid which passes
-over ceases to emit a fruity odor. By treating the distillate
-with chloride of calcium, and by its re-distillation, the pure
-ether may be obtained.</p>
-
-<p>The boiling point of butyric ether is 238° Fahr. Its specific
-gravity, 0,904, and its formula
-C<sub>12</sub>&#x202f;H<sub>12</sub>&#x202f;O<sub>4</sub>, or C<sub>4</sub>&#x202f;H<sub>5</sub>&#x202f;O + C<sub>8</sub>&#x202f;H<sub>7</sub>&#x202f;O<sub>3</sub>.</p>
-
-<div class="dkeeptogether">
-<p>Bensch’s process, above described, for the production of
-butyric acid, affords a remarkable exemplification of the extraordinary
-transformations that organic bodies undergo in contact
-with ferment, or by catalytic action. When cane sugar is
-treated with tartaric acid, especially under the influence of heat,
-it is converted into grape sugar. This grape sugar,
-in the <span class="xxpn" id="p116">{116}</span>
-presence of decomposing nitrogenous substances, such as cheese,
-is transformed in the first instance into lactic acid, which combines
-with the lime of the chalk. The acid of the lactate of
-lime, thus produced, is by the further influence of the ferment
-changed into butyric acid. Hence, butyrate of lime is the final
-result of the catalytic action in the process we here have recommended.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON A REMARKABLE SPECIMEN OF DECOMPOSED
-CHLOROFORM.
-<span class="hsmall">
-BY JONATHAN PEREIRA, M.D., F.R.S.,</span>
-<span class="htiny">
-Physician to the London Hospital.</span></h3>
-</div><!--section-->
-
-<p>In July of the present year I received from Mr. Grattan,
-apothecary of Belfast, a specimen of chloroform, accompanied
-with a note, from which the following is an extract:―</p>
-
-<blockquote>
-
-<p>“Some weeks prior to October 25, 1851, I received from my
-friend Dr. M’Killen a small bottle of chloroform which he had
-had of me two or three months previously, and which he stated
-was subject to very singular changes of color, despite the stopper
-never having been removed.</p>
-
-<p>At the time he handed it to me the fluid exhibited a delicate
-pink tint, as though colored with cochineal, and was put aside
-in a glass case in my shop, of which I kept the key myself.
-The case was exposed to the diffused light of a large shop
-window but not to the direct rays of the sun.</p>
-
-<p>Conceiving that the chloroform had by some unobserved
-means or other become accidentally colored, I took very little
-interest in the matter, and was not surprised to find it fade
-gradually, and in a short time become perfectly colorless—and
-I made a note to that effect upon the 25th
-of October, <span class="xxpn" id="p117">{117}</span>
-concluding that there must have been some error of observation on
-the part of Dr. M’Killen.</p>
-
-<p>On the 16th of November, however, it again began to
-change, and the enclosed notes were made, from time to time,
-as I happened to have opportunity of noticing it.</p>
-
-<p>I tried it under different conditions of light and temperature,
-without their exerting apparent influence upon it, and being
-unable to form the slightest conjecture as to the cause or nature
-of the molecular disturbance which produces these chromatic
-changes, have taken the liberty of forwarding it to you,
-should you consider it worthy of attention.</p>
-
-<p>It is at present colorless, and the stopper fast in; and I
-would only suggest that, before removing the stopper, it might
-be well to observe for yourself whether changes similar to
-those I have noticed may not occur again.</p>
-
-<div class="dtablebox">
-<ul class="fsz6">
-<li>1850.
-<ul class="ulin2">
-<li>Oct.
-<ul class="ulin2">
-<li class="lihanga">25. Perfectly colorless.</li></ul></li>
-<li>Nov.
-
-<ul class="ulin2">
-<li class="lihanga">16. Faint Pink.</li>
-<li class="lihanga">18. Fading.</li>
-<li class="lihanga">25. Faint pink, as on the 16th.</li>
-<li class="lihanga">26. Dirty-looking, neutral tint, without any pink.</li>
-</ul></li>
-
-<li>Dec.
-<ul class="ulin2">
-<li class="lihanga">17. Pink again.</li>
-<li class="lihanga">21. Ditto, and deeper.</li>
-<li class="lihanga">27. Perfectly colorless, after having passed through various
-shades of pink.</li></ul>
-</li></ul></li>
-
-<li>1851.
-<ul class="ulin2">
-<li>Jan.
-<ul class="ulin2">
-<li class="lihanga">10. Again pink.</li>
-<li class="lihanga">11. Faint neutral tint.</li></ul></li>
-
-<li>Feb.
-<ul class="ulin2">
-<li class="lihanga">19. Perfectly colorless. On shaking the vial, observed a deposit on
-its sides, like small crystals, but cannot say that they were not
-there before.</li>
-<li class="lihanga">21. Pink and deeper than ever.</li></ul></li>
-
-<li>March
-<ul class="ulin2">
-<li class="lihanga">10. Deep pink.</li>
-<li class="lihanga">12. Faint pink.</li>
-<li class="lihanga">13. Colorless.</li>
-<li class="lihanga">28. Colorless.</li>
-</ul></li>
-
-<li>May
-<ul class="ulin2">
-<li class="lihanga">16. Colorless. No change having occurred between the 13th March and
-16th May, concluded too hastily that the property of changing its
-color, upon whatever cause dependent, had been lost, for on</li>
-<li class="lihanga">17. It again became faintly pinked.</li>
-<li class="lihanga">19. Deeper pink.</li>
-<li class="lihanga">22. Fading.</li>
-<li class="lihanga">24. Fading.</li>
-<li class="lihanga">31. Colorless.</li></ul></li>
-
-<li>June
-<ul class="ulin2">
-<li class="lihanga">13. Again pink.</li>
-<li class="lihanga">16. Ditto.</li>
-<li class="lihanga">17. Colorless.</li></ul></li>
-
-<li>July
-<ul class="ulin2">
-<li class="lihanga">&#x2007;2. Ditto, up to present date, when it again became pink.</li>
-<li class="lihanga">&#x2007;3. Deeper.</li>
-<li class="lihanga">&#x2007;5. Still very deep.</li>
-<li class="lihanga">&#x2007;7. Fading</li>
-<li class="lihanga">13. Perfectly colorless.</li></ul>
-</li></ul></li></ul>
-</div><!--dtablebox-->
-
-<p>The foregoing changes of color were not influenced by any
-change of temperature between 27° and 86° Fahr., nor by exposure
-to, nor seclusion from light. The stopper being fast,
-atmospheric pressure cannot have been connected therewith.
-Whether it may have been influenced by electrical changes,
-am not prepared to say.”
-<span class="xxpn" id="p118">{118}</span></p></blockquote>
-
-<p>The specimen of chloroform sent me by Mr. Grattan was, in
-July, quite colorless, and on the sides of the bottle a few
-minute crystals were observed. The stopper of the bottle was,
-however, so firmly fixed in that I could not remove it, and I,
-therefore, placed the bottle on the mantel-shelf in my library
-exposed to diffused light, for the purpose of observing the
-changes which its contents would undergo.</p>
-
-<p>In the course of a few weeks it began to acquire a pinkish
-or amethystine tint, as described by Mr. Grattan. This slightly
-augmented in intensity for a few days, and then became somewhat
-paler. But for several weeks, during which it remained
-in the same situation, it never became colorless, though the
-intensity of the color was frequently changing.</p>
-
-<p>The color of the liquid was precisely that of a weak solution
-of permanganate of potash.</p>
-
-<p>Some weeks ago I placed the bottle in a dark cupboard, and
-at the expiration of about three weeks found that the liquid
-had become quite colorless. As the stopper was still immovable,
-I was obliged to cut off the neck of the bottle to get at
-the contents. I found that the chloroform had undergone
-decomposition, and had acquired a powerful and irritating odor,
-somewhat allied to, but distinct from, that of hypochlorous
-acid. The vapor yielded white fumes when a rod moistened
-with solution of ammonia was brought in contact with it, blue
-litmus paper was reddened but not bleached by it. A few drops
-of the liquid were placed on a watch glass and volatilized by a
-spirit lamp; they left scarcely any appreciable residue.</p>
-
-<p>The crystals which lined the bottle were then examined.
-They were few in number, and not larger than pins’ points.
-They were white, and when examined by the microscope, were
-found to be six-sided pyramids, like the crystals of sulphate of
-potash. Some of them were heated to dull redness in a test
-tube, without undergoing any appreciable change. When
-heated on the point of a moistened thread in the outer cone of
-the flame of a candle, they communicated a violet-white tinge
-to the flame, char­ac­ter­is­tic of a potash-salt.
-They readily <span class="xxpn" id="p119">{119}</span>
-dissolved in water, and the solution did not yield any precipitate
-on the addition of a solution of nitrate of baryta, showing that
-the salt was not a sulphate. The solution was boiled with
-nitric acid, and then treated with a solution of nitrate of baryta,
-but no precipitate was observed. Nitrate of silver produced
-in the aqueous solution of the crystals a white precipitate,
-soluble in ammonia, but insoluble in nitric acid.</p>
-
-<p>Whether these crystals were in any way connected with the
-change of color which this sample of chloroform underwent, I
-am unable to determine; but I suspect not. I am anxious,
-however, to draw the attention of others to the subject, in the
-hope that larger specimens of the salt may be obtained for examination.
-For at present the circumstances under which
-chloroform frequently undergoes decomposition are very obscure.
-Except in this instance, I have never met with, nor heard of,
-any sample of chloroform which underwent these remarkable
-changes of color.</p>
-
-<p>The chloroform was transferred into another bottle, on the
-sides of which a few minute crystals are now formed. But
-since the removal of the stopper the pink color has not re-appeared.</p>
-
-<p>I have written to Mr. Grattan to obtain, if possible, further
-information respecting this specimen of chloroform. But he
-tells me he has not any more of the sample, and has no means
-of ascertaining by whom it was made, as about the time it was
-purchased of him he had in his shop parcels from London,
-Edinburgh and Dublin, as well as a small quantity prepared
-in Belfast, and he is quite unprepared to say from which of
-them it was taken.</p>
-
-<p>I suspect that the pink color of the chloroform must have
-been due to the presence of manganese. If so, was this metal
-derived from the chloride of lime used in the manufacture of
-chloroform? Mr. Squire informs me that he has occasionally
-found the solution of chlorinated soda to become of a pinkish
-hue after being prepared a few days (not immediately), and that
-he has attributed it to some manganese carried
-over with the <span class="xxpn" id="p120">{120}</span>
-chlorine gas, as he does not remember having observed this
-change when the gas had been passed through water before
-entering the solution of carbonate of soda.</p>
-
-<p>If this suspicion should prove well founded, it is obvious that
-the purity of the chloride of lime employed in the preparation
-of chloroform deserves the attention of the manufacturer.</p>
-
-<p><i>Postscript.</i>—Subsequently to the reading of this paper before
-the Phar­ma­ceu­ti­cal Society, I have received from Mr. William
-Huskisson, jun., a specimen of pink chloroform, which, he informs
-me, owes its remarkable color to the presence of manganese,
-derived from peroxide of manganese employed in the
-purification of chloroform, as recommended by Dr. Gregory,
-(see <i>Phar­ma­ceu­ti­cal Journal</i>, vol. ix., p. 580.)</p>
-
-<div class="dkeeptogether">
-<p>Mr. W. Huskisson, jun., tells me, that he has observed in
-his specimen neither the alterations of color nor the crystals
-met with in the specimen sent me by Mr. Grattan.</p>
-
-<hr class="hr12" /></div>
-
-<p>The chairman stated, that he had never, in the various specimens
-of chloroform, of which his firm had always a large
-quantity in stock, observed the pink color described by
-Dr. Pereira, nor had he ever seen any crystals deposited in the
-bottles, but he would have a more minute examination made
-with the view of ascertaining whether such existed. When the
-chloroform was first drawn over, and before it was purified, it
-frequently possessed more or less of a brown color, but this was
-quite distinct from the character described in the paper which
-had just been read.</p>
-
-<p>Mr. D. Hanbury observed, that the use of manganese had
-been suggested in the process for purifying chloroform, and its
-presence might in this way be accounted for.</p>
-
-<div class="dkeeptogether">
-<p>Mr. Barnes thought it desirable that the decomposed chloroform
-should be examined for formic acid. Although constantly
-subject to decomposition, no satisfactory explanation of the
-nature of the change had
-yet been afforded.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div><span class="xxpn" id="p121">{121}</span></div>
-<h3>REPORT PRESENTED TO THE ACADEMY OF
-MEDICINE OF PARIS,
-<span class="hsmall">
-ON THE SUBSTITUTION OF AN AR­TI­FIC­IAL IO­DU­RET­TED OIL FOR COD
-LIV­ER OIL.</span>
-<span class="htiny">
-<i>By a Commission composed of Messrs. Gibert, Ricord,
-Soubeiren and Guibourt.</i></span></h3>
-</div><!--section-->
-
-<p>On the 20th of August, 1850, the Academy appointed a commission,
-composed as above, to whom was submitted a memoir,
-by M. Personne, entitled, “Researches on the Cod-liver and
-Skate Oils; and on the preparation of an ioduretted oil, by
-which they may be replaced as Medicinal Agents.” A note
-was also submitted to us on the same subject, from M. Deschamps,
-and another from M. Marchall, the latter of which
-claimed for the author priority in the employment of ioduretted
-oil of almonds, as a substitute for cod-liver oil.</p>
-
-<p>We proceed now to report the results of our examinations of
-these communications, and of the investigations to which the
-enquiry has led.</p>
-
-<p>Cod-liver oil has long been the object of a considerable commerce
-arising principally from the decided superiority which
-it possesses over other animal oils, for the preparation of
-chamois leather; but it has only been within about twenty
-years that it has been used in medicine. It was first employed
-as a remedy for rheumatic pains, then for bronchial affections,
-and subsequently as a remedy for scrofula and consumption.
-It now constitutes one of the medicinal agents most extensively
-used, and one of those, on the action of which medical men
-place the greatest reliance, as a remedy capable either of curing
-very formidable diseases, or of retarding their fatal termination.</p>
-
-<p>The most important memoir which has been published on
-cod-liver oil is that of Dr. Jongh, in which three kinds of oil
-are described as met with in commerce, which are called the
-<i>black</i>, the <i>brown</i>, and the <i>white</i> cod-liver oil. These oils are
-represented to consist, principally, of oleic and margaric acids,
-and glycerine, and, as accessory bodies, of
-butyric acid, acetic <span class="xxpn" id="p122">{122}</span>
-acid; some principles appertaining to the bile, a non-azotised
-yellow or brown coloring matter, called gaduine, iodine, phosphorus,
-and some inorganic salts. In France, Messrs. Girardin
-and Preisser have been engaged in comparing the effects of the
-oil obtained from the cod with that obtained from the ray; and
-they advocate the superiority of the latter for medicinal use. But
-this superiority seems to depend, in part, on the circumstance,
-that the oil obtained from the livers of the ray, being carefully
-prepared by the pharmaciens, and being transparent, and of a
-light yellow color, proves less offensive to the patients than the
-cod-liver oil of commerce, which is generally thick, of a dark
-color, and has a disagreeable flavor. This, however, is scarcely
-admitted at the present time. Moreover, it appears from recent
-observations, that the above characters cannot be much depended
-upon for distinguishing the two kinds of oil, in
-consequence of their being so variable.</p>
-
-<p>According to Messrs. Girardin and Preisser, these two oils
-contain iodine in the state of iodide of potassium, and in
-quantity much less than had been indicated by Dr. Jongh.
-The latter author gives, as follows, the quantity of iodine in
-1,000 parts of oil:―</p>
-
-<div class="dtablebox"><div class="nowrap">
-<table summary="">
-<tr>
- <td class="pleft">Black cod-liver oil</td>
- <td class="pleft">0,295 parts of iodine.</td></tr>
-<tr>
- <td class="pleft">Brown cod-liver oil</td>
- <td class="pleft">0,406 parts of iodine.</td></tr>
-<tr>
- <td class="pleft">White cod-liver oil</td>
- <td class="pleft">0,374 parts of iodine.</td></tr>
-</table></div></div><!--dtablebox-->
-
-<p>Messrs. Girardin and Preisser have found in a litre (thirty-five
-fluid ounces),</p>
-
-<div class="dtablebox"><div class="nowrap">
-<table summary="">
-<tr>
- <td class="pleft">Of ray-liver oil</td>
- <td class="pleft">0,180 gramme of iodine.</td></tr>
-<tr>
- <td class="pleft">Of cod-liver oil</td>
- <td class="pleft">0,150 gramme of iodine.</td></tr>
-</table></div></div><!--dtablebox-->
-
-<p>According to M. Gobley, a litre of ray-liver oil, prepared by
-direct action of the fire, contains twenty-five centigrammes of
-iodide of potassium. M. Goodley was unable to find phosphorus
-in this oil.</p>
-
-<p>Such were the principal analytical results known when
-M. Personne presented his memoir to the Academy. The uncertainty
-which appeared to attach to the subject,
-and the <span class="xxpn" id="p123">{123}</span>
-variations in the statements of chemists, induced him to put to himself
-the following questions:―</p>
-
-<p>1st. Do the oils of cod and ray-liver contain iodide of potassium
-or iodine?</p>
-
-<p>2nd. Do the different sorts of these oils contain the same
-proportion of iodine?</p>
-
-<p>3rd. Do these oils contain phosphorus, to which their effects
-may be partly attributed?</p>
-
-<p>For detecting the presence of the iodine, M. Personne saponified
-the oil with an excess of caustic potassa, incinerated the
-soap, and treated the product of incineration with strong
-alcohol. The alcohol was evaporated, the residue dissolved in
-water, and to this, solution of starch and sulphuric acid were
-added. The quantity of iodine was estimated by the intensity
-of the color; it is too small to be estimated by the balance.</p>
-
-<p>Mr. Personne examined in this way the dark brown and thick
-cod-liver oil, such as is employed in the hospitals of Paris; the
-transparent and nearly colorless oil of English commerce; and
-the ray-liver oil prepared by the direct action of a moderate
-heat, and subsequent filtration. The following are the results:―</p>
-
-<p>1st. The brown cod-liver oil of the hospitals of Paris contains
-more iodine than the fine white oil of English commerce.</p>
-
-<p>2nd. It also contains more iodine than the ray-liver oil, and,
-moreover, the quantity present is certainly less than a decigramme
-of iodine in a kilogramme of oil (1 in 10,000.)</p>
-
-<p>3rd. The residue of the liver, left after the preparation of the
-oil, contains much more iodine than the oil itself.</p>
-
-<p>With regard to the question as to whether the iodine exists
-in cod-liver oil in the state of iodide of potassium, or directly
-combined with the oil, M. Personne, while he admits the difficulty
-of satisfactorily determining the point, inclines to favor
-the opinion that the iodine is directly combined with the elements
-of the oil.</p>
-
-<p>[The different methods which have been suggested for the
-preparation of the ioduretted oil proposed as
-a substitute for <span class="xxpn" id="p124">{124}</span>
-cod-liver oil are described. A discussion follows of the claims of
-the authors, whose communications were submitted to the commissioners,
-for having first introduced the artificial ioduretted
-oil, which discussion is also omitted here as being uninteresting
-to our readers. The commissioners next proceed to state the
-result of the evidence obtained, by the medical members of the
-commission, of the therapeutical action of the artificial ioduretted
-oil.]</p>
-
-<p>M. Gibert administered the ioduretted oil for periods varying
-from several weeks to several months, to patients suffering
-with eruptive complaints and scrofulous tumors; and, in some
-instances, found the benefit to be greater than from the use of
-cod-liver oil, under similar circumstances. He states, that he
-does not think he has tried it in a sufficient number of cases,
-and for a sufficient length of time, to enable him to state decidedly
-what its absolute value is as a specific for eruptive and
-scrofulous complaints; but the results he has obtained are sufficient
-to prove, that it is easy of ad­min­i­stra­tion and devoid of
-any injurious quality, and that it possesses a resolutive action,
-which renders it a valuable remedy for certain chronic eruptions
-and glandular swellings.</p>
-
-<p>M. Ricord has employed the ioduretted oil for twelve months,
-in a great number of cases of scrofula, some of which were considered
-to be of venereal origin. He thus obtained excellent
-results in the treatment of strumous bubo, tubercular epididymis,
-and in some cases of scrofulous enlargement of the joints,
-etc., and other things being equal, curable cases were cured, or
-relief afforded, much more quickly by the use of the artificial
-ioduretted oil than by the natural cod-liver oil.</p>
-
-<div class="dkeeptogether">
-<p>The average dose in which the ioduretted oil was administered
-was sixty grammes (<img class="iglyph-a" src="images/u2125.ounce.jpg"
- width="40" height="84" alt="℥" />ij.), which was sometimes raised to
-100 grammes (<img class="iglyph-a" src="images/u2125.ounce.jpg"
- width="40" height="84" alt="℥" />iiiss.) The patient generally took it without
-inconvenience. It was only in a few instances, where the dose
-had been raised, that vomiting, colic, and diarrhœa were produced.
-If the precautions which are necessary in the ad­min­i­stra­tion
-of every remedy be observed, and the
-degrees of <span class="xxpn" id="p125">{125}</span>
-susceptibility of the patients, together with all special conditions,
-properly studied, it may be affirmed that the ioduretted oil is
-a medicine of great value and that it presents considerable advantage
-over the cod-liver oil.—<i>Journal de Pharmacie, in
-Pharmaceutic Journal.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="chapter dedtrl">
-<h3>EDITORIAL.</h3>
-
-<hr class="hr12" />
-
-<h4>INTERNAL USE OF ATROPINE.
-<span class="htiny">
-ABRIDGED FROM THE JANUARY NUMBER OF THE LONDON JOURNAL OF MEDICINE.</span></h4>
-
-<p>In the practice of English and American physicians, atropine (atropia) has
-been hitherto used chiefly as an external application, to dilate the pupil, but, as
-far as we know, has never been administered internally. In France, the
-powdered belladonna root has been strongly recommended as affording a reliable
-and efficient preparation; in this country, the leaves and the extracts and tincture
-derived from them are alone officinal. Dr. Lusanna, an Italian physician,
-has ventured upon the internal use of atropia, and, according to our notions, in
-very large doses. He commences its ad­min­i­stra­tion in doses of one-thirtieth of a
-grain every three or four hours, gradually increasing the dose according to the
-effect produced. In some instances he went so far as to give one-third of a grain
-five times a day.</p>
-
-<p>It may be given, according to Dr. L, in solution in alcohol, or in acetic or some
-other mild acid. Pills and powders, from the difficulty of apportioning the dose
-he deems unadvisable. The alcoholic solution has a taste somewhat like that of
-quinine, but feebler, and not particularly disagreeable. The patient soon becomes
-habituated to the remedy, and the dose has to be increased. In cases of neuralgia
-he recommends the application of one-fourteenth to one sixth of a grain to a
-blistered surface, in the form of pomade. Dr. L. carries the ad­min­i­stra­tion of
-atropia so far as to produce what we would call its toxicological effects.</p>
-
-<p>1st. <i>Dilatation and immobility of the pupil.</i> Between fourteen and fifteen
-minutes after the exhibition of from one-twenty-fourth to one-thirtieth of a grain
-of atropia, the pupil becomes enormously dilated. If the remedy be persevered
-in the dilatation passes of, but the iris becomes immoveable, and the pupil no
-longer contracts on exposure to light. When the remedy is stopped, as the other
-phenomena produced by its exhibition subside, the pupil again becomes extremely
-dilated. Previous to this it commences to oscillate, contracting slightly when
-exposed to strong light, and dilating again in the shade. This
-indicates that the <span class="xxpn" id="p126">{126}</span>
-effects of the remedy are disappearing. The dilatation of the pupil is the last of
-the phenomena to subside, being sometimes met with eight days, or more after
-the suspension of the atropia.</p>
-
-<p>2. <i>Disturbance of vision.</i> Objects at first seem hazy and ill-defined, persons are
-not recognized, and it is impossible to read or write. If the dose be increased,
-objects seem covered with a dark shade, and vision may be wholly lost. Every
-fresh dose has a sudden and marked effect in diminishing vision, and on its suspension
-the disturbance of vision disappears with equal rapidity. In one or two
-days the sight is perfectly restored.</p>
-
-<p>3. <i>Disturbance of Intellect.</i> At first the patient appears dull and stupid, then
-there is vertigo and confusion of ideas.</p>
-
-<p>4. <i>Hallucinations of sight and hearing.</i> Objects are seen double or greatly
-magnified; motes and insects flit before the eyes; well known objects assume
-strange and monstrous forms, or horrible phantoms are seen. The hearing is more
-rarely affected. Buzzing, tinkling, hissing and whistling are sometimes heard.</p>
-
-<p>5. <i>Anaesthesia.</i> Touch remains apparently perfect, but pain is relieved or
-blunted. The patient does not seem to suffer from painful tactile impressions.</p>
-
-<p>6. <i>Dryness of the mouth and throat</i> were invariably felt. At first this seemed a
-purely nervous phenomenon, but if the medication was continued, from the
-diminution of the salivary secretion it became real.</p>
-
-<p>7. <i>The appetite</i> is early lost, and there is no thirst; but on the cessation of the
-remedy it returns sharper than ever. Speech is early embarrassed, and the power
-of swallowing early diminished, becomes finally lost.</p>
-
-<p>8. <i>Delirium</i> alternating with stupor or succeeded by it, is produced by one-tenth
-of a grain of atropia at the commencement of the treatment, or by one-fourth
-of a grain later, or by any sudden increase of the dose. The delirium is
-commonly gay and ridiculous; in one instance only was it mournful. When
-these phenomena are at all intense, they subside slowly. For several days after
-the cessation of the medicine, there is confusion and slowness of thought.</p>
-
-<p>9. <i>Redness of the skin</i> was observed in but a single case.</p>
-
-<p>10. <i>Torpor and paralytic tremblings.</i> As the patient gets under the influence
-of the atropia, the legs become weak and trembling, gradually lose their strength,
-and he is confined to bed. They may be still agitated by twitching, and convulsive
-movements.</p>
-
-<p>11. <i>Paralysis of the sphincters of the rectum and bladder.</i> This is the highest
-point to which, according to Dr. L., the medicative action of atropia can attain.
-In one case, only, the fæces and urine were passed involuntarily.</p>
-
-<p>The functions of respiration, circulation, and calorification, were never affected
-by atropia.</p>
-
-<div class="dkeeptogether">
-<p>After this long catalogue of serious symptoms, Dr. Lusanna rather naively observes,
-he has never seen any truly alarming results arise from the use of atropia!
-Should they occur, he recommends wine as
-the best antidote.</p>
-
-<hr class="hr34" /></div>
-
-<div><span class="xxpn" id="p127">{127}</span></div>
-
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">C<b>ULTIVATION</b></span>
- <span class="smmaj">OF</span>
- <span class="smcap">O<b>PIUM.</b></span></h4>—In
-a late number of the Archives Generales de Medicine,
-will be found a short notice of a paper, read by M. Aubergier, to the French
-Academy of Science upon the cultivation of native opium. When the juice is
-obtained according to the methods described by M. A., the seeds continue to
-ripen, and the oil they yield pays the expense of cultivation. If the opium then
-more than repays the expense of the labor necessary to procure it, its production
-will be a source of profit. Now M. A., by successive improvements in his processes,
-has been enabled to raise the amount obtained by each laborer from a
-maximum of 75 to
-<span class="nowrap">90 grammes</span>
-<span class="nowrap">(1157&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub> grs.</span> to
-<span class="nowrap">1389 grs.)</span>
-to five times that quantity.
-The commercial value of the opium will always, therefore, more than repay
-the cost of manufacture. He farther finds that the proportion of morphia contained
-in the opium varies. 1st, with the maturity of the capsules from which it
-is collected, opium collected from capsules nearly ripe yielding less morphia than
-that obtained from those that are not so near their maturity. 2d, different varieties
-of the poppy yield an opium varying in the quantity of contained morphia
-from 15 to 17.833 per cent. Twenty specimens of foreign opium examined by M.
-A. yielded quantities varying from 2.64 to 13 per cent.</div>
-
-<div class="dkeeptogether">
-<p>The superiority of some specimens of European opium has been noticed by
-previous observers, and depends probably on the greater care bestowed on its
-preparation and on the cultivation of the plant.</p>
-
-<hr class="hr34" /></div>
-
-<div class="dkeeptogether">
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">C<b>HROMIC</b></span>
-<span class="smcap">A<b>CID</b></span>
-<span class="smcap">A<b>S</b></span>
-<span class="smmaj">AN</span>
-<span class="smcap">E<b>SCHAROTIC.</b></span></h4>
-Chromic acid has lately been employed in Germany,
-both in concentrated solution and in substance, as an escharotic. The
-advantages it possesses are, that it is efficient, manageable, and less painful than
-the more ordinary applications. The concentrated solution is applied by means
-of a glass rod, a pencil made of asbestos, or if necessary, an ordinary hair pencil,
-which, if washed immediately, can be used a second time. The solid chromic acid
-on account of its penetrating action has to be employed with much care. All
-organic compounds are first oxydised and then dissolved in an excess of the acid,
-and this change is accelerated by an elevated temperature. Smaller animals,
-birds, mice, &amp;c., were so completely dissolved by the acid within fifteen or
-twenty minutes, that no trace of their bones, skin, hair, claws, or teeth could be
-discovered. It would thus appear to be not only a gentle and gradual escharotic,
-but also a complete and rapid solvent. <i>Dublin Quarterly Jour. of Med. Science,
-from Wiener Medizinische Wochenschrift</i>, 1851, No. viii.</div>
-
-<hr class="hr34" /></div>
-
-<div class="dkeeptogether">
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">P<b>UBLIC</b></span>
-<span class="smcap">H<b>YGEINE.</b></span></h4>
-M. M. Bicourt &amp; A. Chevalier have presented a memorial on
-the diseases which attack workmen engaged in the manufacture of chromsate of
-potash. The result of the facts presented in their memorial, proves, 1st. That
-workmen engaged in the preparation of bi-chromsate
-of potash, are subject
-to peculiar diseases. 2d. These diseases attack workmen who do not take snuff,
-and the mucous membrane of the nose is destroyed. 3d. Workmen who take
-snuff do not experience the same diseases. 4th. Workmen whose
-skin is broken <span class="xxpn" id="p128">{128}</span>
-in any part, suffer severely when the bi-chromsate comes in contact with the
-abraded surface, and should, therefore, carefully preserve the abrasions from contact
-with the solution of bi-chromsate. 5th. Workmen lightly clothed are exposed
-to some inconveniences, but these may be easily avoided. 6th. Animals are,
-like men, exposed to maladies caused by the bi-chromsate of potash.—<i>Archives
-Generales de Medicine.</i></div>
-
-<hr class="hr34" /></div>
-
-<div class="divhhang2"><h4 class="h4runin">
-<span class="smcap">C<b>HEMICAL</b></span>
-<span class="smcap">T<b>ECHNOLOGY</b>;</span></h4>
-or Chemistry applied to Arts and to
-Manufactures, by Dr. T. Knapp, Professor at the University of Giesen;
-Dr. Edmund Ronalds, Professor of Chemistry at Queen’s College, Galway;
-and Dr. Thomas Richardson, of New Castle on Tyne. Illustrated with nine
-engravings and one hundred and twenty-nine wood cuts. Vol. iii. London:
-<span class="smcap">H<b>YPPOLYTE</b></span>
-<span class="smcap">B<b>AILLIERE</b>,</span> 219 Regent street, and 209 Broadway, New
-York.</div>
-
-<div class="dkeeptogether">
-<p>Knapp’s Technology belongs to a class of books char­ac­ter­is­tic of the present
-day, and of the highest and most extended usefulness. Giving the practical
-details of the arts in connection with the scientific principles on which they are
-founded, it extends the views of the manufacturer and the economist, and places
-him on the right path for further improvement. To the American it presents the
-further advantage of ample and precise details of what is being done in Great
-Britain and on the Continent of Europe. All engaged in pursuits with which
-chemistry has any connection (and with what is it not now connected?) will find
-in the various volumes of the Technology, valuable information in regard to their
-own peculiar avocations, while the variety of its information and the copiousness
-of its illustrations, gives it a high interest to the general reader.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<p class="padtopa">At a meeting of the College of Pharmacy of the city of New York, held on
-Thursday, 25th of March, the following gentlemen were elected officers for the
-ensuing year.</p>
-
-<div class="dtablebox"><ul class="ulstnz">
-<li><ul class="ulin2">
-<li><span class="smcap">G<b>EO.</b></span> D. <span class="smcap">C<b>OGGESHALL</b>,</span> <i>President</i>.</li>
-<li><span class="smcap">J<b>OHN</b></span> H. <span class="smcap">C<b>URRIE</b>,</span> <i>1st Vice President</i>.</li>
-<li><span class="smcap">W<b>ILLIAM</b></span> L. <span class="smcap">R<b>USHTON</b>,</span> <i>2d Vice President</i>.</li>
-<li><span class="smcap">O<b>LIVER</b></span>
-<span class="smcap">H<b>ULL</b>,</span> <i>3d Vice President</i>.</li>
-<li><span class="smcap">J<b>AMES</b></span> S. <span class="smcap">A<b>SPINWALL</b>,</span> <i>Treasurer</i>.</li>
-<li>B. W. <span class="smcap">B<b>ULL</b>,</span> <i>Secretary</i>.</li>
-</ul></li></ul></div>
-
-<div class="dtablebox">
-<div>TRUSTEES.</div>
-<ul class="ulstnz">
-<li class="liinline"><span class="smcap">W<b>M.</b></span> J <span class="smcap">O<b>LLIFFE</b>,</span></li>
-<li class="liinline"><span class="smcap">J<b>OHN</b></span>
-<span class="smcap">M<b>EAKIN</b>,</span></li>
-<li class="liinline"><span class="smcap">T<b>HOMAS</b></span> B. <span class="smcap">M<b>ERRICK</b>,</span></li>
-<li class="liinline"><span class="smcap">E<b>UGENE</b></span>
-<span class="smcap">D<b>UPREY</b>,</span></li>
-<li class="liinline">R. J. <span class="smcap">D<b>AVIES</b>,</span></li>
-<li class="liinline"><span class="smcap">J<b>UNIUS</b></span>
-<span class="smcap">G<b>RIDLEY</b>,</span></li>
-<li class="liinline"><span class="smcap">W<b>M.</b></span>
-<span class="smcap">H<b>EGEMAN</b>,</span></li>
-<li class="liinline"><span class="smcap">G<b>EORGE</b></span>
-<span class="smcap">W<b>ILSON</b>,</span></li>
-<li class="liinline"><span class="smcap">T<b>HOMAS</b></span> T. <span class="smcap">G<b>REEN</b>.</span></li>
-</ul></div>
-</div><!--section-->
-</div><!--chapter dedtrl-->
-
-<div class="chapter">
-<div><span class="xxpn" id="p129">{129}</span></div>
-<h2 class="h2nobreak"><span class="hsmall">NEW YORK</span>
-JOURNAL OF PHARMACY.
-<span class="hsmall"><span class="hdate">
-MAY, 1852.</span></span></h2>
-</div><!--chapter-->
-
-<h3>NOTES IN PHARMACY, No. 2.
-<span class="hsmall">
-BY BENJAMIN CANAVAN.</span></h3>
-
-<p><span class="smcap">T<b>INCT.</b></span>
-<span class="smcap">F<b>ERRI</b></span>
-<span class="smcap">A<b>ETHEREA.</b>—</span>At
-the in­stance of one of our phy­si­cians,
-I made some of the above pre­par­a­tion for a lady pa­tient
-of his, who, after having used the other pre­par­a­tions of
-Iron “ad nauseam,” had taken it with benefit in Europe under
-the name of “Bestucheff’s tinc­ture,” as which, it at one time enjoyed
-great popularity, so that a very large sum was given to
-the author in purchase of it by the Czarina Catharine. After
-the com­po­si­tion became known it fell into disuse, almost justifying
-us in reversing the quotation from Celsus,―</p>
-
-<div>“Morbos autem, non remediis, sed verbis curari.”</div>
-
-<p>It presents the metal in a different chemical state from what it
-is in the muriated tincture, viz: a very soluble deuto chloride;
-no acid is present and there are besides the anodyne and anti-spasmodic
-properties of the ethereal spirit, rendering it peculiarly
-appropriate in hysterical affections; and being pleasant
-to the taste and miscible with water, it is not at all repulsive.—Supposing
-it may prove useful elsewhere and to others, I subjoin
-the formula I have used, and to which I give the preference,
-as being the most complete. It is original in the Austrian
-Pharmacopœia of 1820, whence it has been copied into many
-French formularies, under the name of
-“teinture étherée de <span class="xxpn" id="p130">{130}</span>
-chlorure de fer,” and may be found with a number of other
-formulæ for the same preparation in the <i>“Pharmocopée Unverselle”
-of Jourdan</i>.</p>
-
-<div class="dtablebox"><ul class="ulstnz">
-<li><span class="spwa"><img class="iglyph-a" src="images/u211e.prescription.take.jpg"
- width="53" height="84" alt="℞" /></span>Acidi
- hydro chlorici <img class="iglyph-a" src="images/u2125.ounce.jpg"
- width="40" height="84" alt="℥" />iv.</li>
-<li><span class="spwanada">Acidi</span> hydro nitrici <img class="iglyph-a" src="images/u2125.ounce.jpg"
- width="40" height="84" alt="℥" />i.</li>
-<li>Limatura. Ferriqs. saturare acida.</li>
-</ul></div><!--dtablebox-->
-
-<p>Add the iron filings <i>very gradually</i>, and in small quantity
-at a time to the acids mixed together, in a porcelain mortar of ten
-or twelve inch diameter, and allow each portion to be dissolved
-before another is added, and so proceed until saturation is complete.
-Decant; evaporate to dryness in a sand bath; dissolve
-the residue in a quantity of water equal in weight to itself, and
-to each ounce of this solution add six ounces of sulphuric ether,
-agitate them well together and separate the supernatant ethereal
-solution, to which add four times its bulk of alcohol; finally,
-expose it to the action of the sun’s rays until the color is
-altogether discharged. The dose is twenty to thirty drops.</p>
-
-<p><span class="smcap">M<b>UCILAGO</b></span>
-<span class="smcap">(G<b>UMMI</b>)</span>
-<span class="smcap">A<b>CACLÆ.</b></span>—Among the many useful hints
-which have appeared in the New York Journal of Pharmacy,
-in relation to several formulæ of the
-<span class="nowrap">U. S. P.,</span> I perceive the
-preparation mucilage of gum arabic has been deemed worthy of
-a supervisory notice, and having experienced some annoyance
-with regard to it, arising simply from the fact that the officinal
-preparation has been heretofore entirely overlooked by apothecaries
-generally, each one instituting a formula for himself, I
-have been very much gratified by the result of adhering strictly
-to the formula of the Pharmacopœia, and would take the liberty
-to say that as the formulæ of all the Pharmacopœias of countries
-wherein our language is spoken are alike, it surely would not
-be productive of any advantage to introduce an exception to
-this conformity, to suit a local peculiarity, arising, to say the
-least, from inadvertence. Besides the thickness of the officinal
-mucilage is not much greater than that of syrup of gum, and is
-even absolutely necessary for the <i>chief proposes</i> for which it is
-intended or prescribed, viz: the suspension
-of weighty metallic <span class="xxpn" id="p131">{131}</span>
-oxydes, &amp;c., and the holding balsams, oils, &amp;c., in mixtures,—much
-benefit then would, so far as my experience goes, accrue
-from the apothecary confining himself strictly to the officinal
-mucilage, and as individual formulæ are based upon it, the re-compounding
-them from transcribed versions would be rendered
-more accurate. This “whittling” away of standards, to
-make them correspond to the shortcomings of negligence or
-parsimony, has only the effect of rendering “confusion worse
-confounded.”</p>
-
-<p><span class="smcap">M<b>ISTURA</b></span>
-<span class="smcap">A<b>MYGDALARUM.</b></span>—Being a work of some hour or
-so’s duration to prepare the almond emulsion ab initio, it has
-been usual to keep the ingredients in the form of paste, from a
-proportionate quantity of which the mixture is made when required.
-The paste does not keep, becoming musty and sometimes
-exceedingly hard. I have therefore adopted the plan of
-keeping the almonds already <i>bleached and well dried</i>, in which
-state they do not undergo any change and thus is made all the
-preparation that can be, to expedite the process.</p>
-
-<div class="dkeeptogether">
-<p><span class="smcap">L<b>IQ.</b></span>
-<span class="smcap">A<b>RSENIT.</b></span>
-<span class="smcap">P<b>OTASS.</b></span>—On taking up, the other day, a shop
-bottle in which Fowler’s solution had been kept for some half a
-score or dozen of years, I perceived it to exhale a strong garlicky
-odor char­ac­ter­is­tic of free metallic arsenic. On examining
-the bottle which is of the ordinary flint glass, the inner surface
-presented the appearance of being coated or rather corroded,
-and having a metallic lustre so far up as the bottle was generally
-occupied by the solution, and in the upper part several
-specks were visible, of the same character, as if they had been
-produced by the sublimation of the corrosive agent. The coating
-was not affected by any amount of friction nor by alkalies
-but was slowly dissolved by acetic acid, from which iodide of
-potassium threw down a precipitate of iodide of lead.—Deeming,
-therefore, the decomposition to have arisen from the
-lead contained in the flint glass I have since then kept the solution
-in green glass bottles.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div><span class="xxpn" id="p132">{132}</span></div>
-<h3>LIQUOR MAGNESIÆ CITRATIS.
-<span class="hsmall">
-THOS. S. WIEGAND, PHILADELPHIA.</span></h3>
-</div><!--section-->
-
-<p>The attention which has been given to this article by phar­ma­ceu­tists,
-both on account of its pleasantness and its great
-tendency to change, has induced me to offer the following
-observations.</p>
-
-<p>The advantage of the plan proposed is that a perfectly satisfactory
-article can be furnished in five or eight minutes,
-thus rendering unnecessary any attempt to make the preparation
-permanent at the expense of its remedial value. That this
-is the manner in which the public are supplied, save at stores
-where large quantities are sold, there can be but little doubt,
-from the experiments of Professor Proctor of Philadelphia,
-detailed in the 23rd volume of the American Journal of Pharmacy,
-p.p. 214 and 216, which show conclusively that a permanent
-solution of citrate of magnesia must be a decidedly acid
-one.</p>
-
-<p>Another method for making a soluble citrate has been devised
-by Dorvault, which is published in his treatise, entitled “L’officine;”
-but from certain difficulties in manipulation his process
-cannot come into very general use.</p>
-
-<p>The formula offered is―</p>
-
-<p>Take, of carbonate of magnesia, in powder, five drachms,
-boiling water five fluid ounces, throw the magnesia upon the
-water in a shallow vessel, when thoroughly mixed, pour five
-sixths of the pulp into a strong quart bottle, fitted with cork and
-string for tying down; then make a solution of seven and a half
-drachms of citric acid in two fluid ounces of water, pour it into
-the magnesia mixture, cork and tie down immediately; when
-the solution has been effected (which will require but a minute
-and a half, or two minutes,) empty it into a bottle capable of
-holding twelve fluid ounces, containing two fluid ounces of
-syrup of citric acid, add the remaining pulp of carbonate of
-magnesia, nearly fill the bottle with water,
-and cork instantly, <span class="xxpn" id="p133">{133}</span>
-securing it with twine or wire; if the carbonate be of good
-quality it will be entirely dissolved in seven minutes.</p>
-
-<div class="dkeeptogether">
-<p>Of course it is not intended that the carbonate of magnesia
-can be rubbed to powder, the water boiled, the bottles washed
-and fitted with strings and corks in the time above mentioned.
-My plan is to have the bottles prepared with their corks, strings,
-and syrup in advance, and to keep the carbonate of magnesia
-in a state of powder for this purpose.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3 title="PRACTICAL HINTS. BY A WHOLESALE DRUGGIST.
-(continued from March)"><span class="htiny">
-[Continued from the March number.]</span>
-PRACTICAL HINTS.
-<span class="hsmall">
-BY A WHOLESALE DRUGGIST.</span></h3>
-</div><!--section-->
-
-<p><span class="smcap">B<b>ALSAM</b></span>
-<span class="smcap">P<b>ERU.</b></span>
-For many years past a factitious balsam
-Peru has been manufactured in a neighboring city in very considerable
-quantities, and has entered largely into consumption;
-it is made by dissolving balsam tolu in alcohol. It closely resembles
-the true balsam, and is calculated to deceive unless
-subjected to a close examination. If one’s attention is particularly
-called to it, a smell of alcohol is perceptible. It is, however,
-easily tested by burning in a spoon or small cup. The factitious
-balsam readily ignites on the application of flame and burns, as
-may be supposed, with a blue flame. The true balsam ignites
-with much more difficulty and emits a dense black smoke, and
-on the application of considerable heat, the air becomes filled
-with small feathery flakes of lamp black. This test, together with
-the sensible properties of appearance, taste and smell, will enable
-one to determine without doubt as to its genuineness.</p>
-
-<p><span class="smcap">L<b>AC</b></span>
-<span class="smcap">S<b>ULPHURIS.</b></span>
-<span class="smcap">S<b>ULPHUR</b></span>
-<span class="smcap">P<b>RECIPITATUM.</b></span>
-<span class="smcap">M<b>ILK</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">S<b>ULPHUR.</b></span>
-This preparation of sulphur is made by boiling sulphur and
-lime in water, and after filtering, precipitating the sulphur with
-muriatic acid. It differs from the ordinary sulphur in being
-in a state of more minute division and being softer and less brittle
-after having been melted. <span class="xxpn" id="p134">{134}</span></p>
-
-<p>When sulphuric acid is used to precipitate the sulphur, sulphate
-of lime is formed and cannot be separated from the precipitated
-sulphur by the ordinary process of washing, that salt
-being insoluble in water; for this reason muriatic acid should
-be used, as the salt thus formed, the muriate of lime or chloride
-of calcium is perfectly soluble and can be readily separated
-from the sulphur by washing.</p>
-
-<p>The ordinary lac sulphuris of commerce, is prepared by the
-use of sulphuric acid, and in consequence is found to contain a
-very large proportion of sulphate of lime, or plaster of Paris.—Several
-specimens examined were found to consist of nearly
-equal parts of sulphate of lime and sulphur.</p>
-
-<p>The test for the above impurity is by burning in a small cup
-or spoon. The sulphur burns out entirely, leaving the impurity
-unaltered. The exact amount of impurity may be determined
-by weighing the substance before and after burning, and deducting
-the one weight from the other.</p>
-
-<p><span class="smcap">P<b>RECIPITATED</b></span>
-<span class="smcap">C<b>HALK</b></span>
-<span class="smmaj">OR</span>
-<span class="smcap">C<b>ARB.</b></span>
-<span class="smcap">L<b>IME.</b></span> It is very important
-that physicians should be able to obtain this preparation of a
-reliable quality. A preparation purporting to be the above,
-but in fact nothing more nor less than sulph. lime or plaster
-of Paris, has, in very considerable quantities entered into consumption
-within a year or two past. It is difficult to determine
-between the two from their appearance. The test, however,
-is very simple and consists in treating the suspected article
-with muriatic acid. It should dissolve perfectly with
-brisk effervescence, if it be in reality pure carbonate of lime.
-If it consists, wholly or in part, of sulphate of lime, the whole or
-such part remains unaffected by the acid.</p>
-
-<p>Pure muriatic acid should be used, as the commercial acid
-frequently contains sulphuric acid, in which case a portion of
-sulphate of lime is formed and remains undissolved.</p>
-
-<div class="dkeeptogether">
-<p>Magnesia is sometimes found in this preparation, but by accident
-generally and not by design, as the price of the magnesia
-offers no inducement
-for the adulteration.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div class="xxpn" id="p135">{135}</div>
-<h3 title="WEIGHTS AND
-MEASURES.">WEIGHTS AND
-MEASURES.<a class="aftntanc" href="#fn9" id="fnanch9">9</a></h3>
-</div><!--section-->
-
-<div class="dpoembox fsz6"><div><ul class="ulstnz">
-<li><span class="spquote">“</span>Una fides, pondus, mensura, moneta sit una,</li>
-<li><span class="spquotenada">Et</span> status illæsus
-totius orbis erit.”—<span class="smcap">B<b>UDEUS.</b></span></li>
-</ul></div><div>
-<ul class="ulstnz padtopc">
-<li><span class="spquote">“</span>One faith, one weight, one measure and one coin,</li>
-<li><span class="spquotenada">Would</span> soon the jarring world in friendship join.”</li></ul>
-</div></div><!--dpoembox-->
-
-<p>The confusion of Babel is felt most severely in the matter of
-weights and measures. Whether we consider the <i>number of
-names</i> of weights and measures, the <i>similarity</i> of names, the
-<i>discrepancy in amount</i> between those of the same name, or
-the <i>irregular relations</i> of those of the same denomination, we
-find a maze, the intricacies of which we cannot retain in our
-memory an hour after we have committed them to it. Sometimes,
-too, we find a farther discrepancy of a surprising nature;
-as if the authorised pint should not be the exact eighth of the
-authorised gallon, and so there should be two different quarts,
-one of two exact pints, and one of a fourth of a gallon, as well
-as a false gallon of eight exact pints, and a false pint of an
-eighth of an exact gallon.</p>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch9" id="fn9">9</a>
-Universal Dictionary of Weights and Measures. By J.
-H. <span class="smcap">A<b>LEXANDER</b>.</span> Baltimore. W. Menefie &amp; Co. 158 pp. 8vo.</p></div>
-
-<p>We cannot here trace the genealogy of this multitude;
-Chaos and old night are the ancestors of them all, except those
-now prevailing in France. A large number of them are of vegetable
-origin, from grains of wheat, carob beans, carat seeds,
-&amp;c. The Accino, the Akey, and innumerable others seem to
-have had a similar origin. Most measures of length have been
-derived from the human form, as foot, span, fathom, nail, &amp;c.
-To originate a new measure or weight has proved much easier
-than to preserve their uniformity when established. Here legislation
-has been resorted to. The arm of Henry I. was measured,
-and a <i>yard</i> of the same length was deposited in the exchequer
-as a standard. “Thirty-two (afterwards twenty-four)
-grains of well dried wheat from the middle of a good ear” were
-to weigh a penny, twenty pence one ounce, and twelve ounces
-a pound. Science finally carried the matter one step further,
-and a yard is now
-<sup>36</sup>&#xfeff;&#x2044;&#xfeff;<sub>39.13929</sub>
-part of the length
-of “a pendulum that <span class="xxpn" id="p136">{136}</span>
-in a vacuum and at the level of mid-tide, under the latitude of
-London, shall vibrate seconds of mean time.” The metre, a
-measure established by science, is
-<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>10,000,000</sub>
-part of the distance
-from the equator to the north pole. Measures of capacity have
-been still more difficult to verify, and weights, when depending
-upon these last, have been involved in further difficulties.—William
-the Conquerer, enacted that 8 pounds good wheat,
-61,440 grains, make a gallon. In England now, 10 pounds of
-water, 70,000 grains, at 60° Fahr., make a gallon. In France
-a cubic decimetre of water, at maximum density, 39.2° Fahr.,
-weighs a kilogramme.</p>
-
-<p>But the impotency of law is nowhere shown more strikingly
-than in its attempts to destroy spurious and useless weights and
-measures. Thirty of these are said to be prevalent in Scotland
-at this day; and although Magna Charta required that there
-should be but one weight in all England, the assize of bread is
-still regulated by a pound, 16 of which =
-<span class="nowrap">17 <img class="iglyph-a" src="images/u2114.l.b.bar.jpg"
- width="58" height="84" alt="℔" /> 6 oz.</span> avoirdupois.
-Still further, it may not always occur to us that English measures,
-dry and liquid, need translating when their works are
-reprinted in the United States, as much as the French measures;
-for the imperial gallon, used for both dry and liquid
-measures, differs from both our gallons. It contains 1.2006 of
-our liquid gallons; our dry gallon contains 1.1631 of our
-liquid gallons.</p>
-
-<p>But it is in the <i>weights of the United States</i> that we are
-more particularly interested. We will, therefore, take our
-leave of the rest of 5,400 and more weights and measures
-which Mr. Alexander has ranged in alphabetical order, from</p>
-
-<div class="dtablebox">
-<table class="fsz6" summary="">
-<tr>
- <th>Name.</th>
- <th>Locality.</th>
- <th>Character.</th>
- <th>Value.</th></tr>
-<tr>
- <td class="pleft">“Aam; <i>for wine</i>,</td>
- <td class="pleft"><i>Amsterdam</i>,</td>
- <td class="pleft">Liquid capacity,</td>
- <td class="pleft">41.00041 gall.” to</td></tr>
-<tr>
- <td class="pleft">“Zuoja <i>piccola</i>,</td>
- <td class="pleft"><i>Udino</i>,</td>
- <td class="pleft">Superficial,</td>
- <td class="pleft">0.8553 acres.”</td></tr>
-</table></div><!--dtablebox-->
-
-<p>Let us enquire what are the weights of the United States.—We
-find but one unambiguous term to measure the rest by, the
-grain. We have then:</p>
-
-<div class="dtablebox">
-<table summary="">
-<tr>
- <td></td>
- <th>grains</th></tr>
-<tr>
- <td class="pleft">&#x2007;1. The long ton,</td>
- <td class="pright">15,680,000&#x2008;&#x2007;&#x2007;&#x2007;&#x2007;&#x2007;</td></tr>
-<tr>
- <td class="pleft">&#x2007;2. The ton,</td>
- <td class="pright">14,000,000&#x2008;&#x2007;&#x2007;&#x2007;&#x2007;&#x2007;</td></tr>
-<tr>
- <td class="pleft" id="p137">&#x2007;3. The quintal,</td>
- <td class="pright">784,000&#x2008;&#x2007;&#x2007;&#x2007;&#x2007;&#x2007;</td></tr>
-<tr>
- <td class="pleft">&#x2007;4. The hundred weight,</td>
- <td class="pright">700,000&#x2008;&#x2007;&#x2007;&#x2007;&#x2007;&#x2007;</td></tr>
-<tr>
- <td class="pleft">&#x2007;5. Quarter,</td>
- <td class="pright">196,000&#x2008;&#x2007;&#x2007;&#x2007;&#x2007;&#x2007;</td></tr>
-<tr>
- <td class="pleft">&#x2007;6. Pound avoirdupois,</td>
- <td class="pright">7,000&#x2008;&#x2007;&#x2007;&#x2007;&#x2007;&#x2007;</td></tr>
-<tr>
- <td class="pleft">&#x2007;7. Pound Troy,</td>
- <td class="pright">5,760&#x2008;&#x2007;&#x2007;&#x2007;&#x2007;&#x2007;</td></tr>
-<tr>
- <td class="pleft">&#x2007;8. Pound Apothecaries’,</td>
- <td class="pright">5,760&#x2008;&#x2007;&#x2007;&#x2007;&#x2007;&#x2007;</td></tr>
-<tr>
- <td class="pleft">&#x2007;9. Ounce Troy,</td>
- <td class="pright">480&#x2008;&#x2007;&#x2007;&#x2007;&#x2007;&#x2007;</td></tr>
-<tr>
- <td class="pleft">10. Ounce Apothecaries’,</td>
- <td class="pright">480&#x2008;&#x2007;&#x2007;&#x2007;&#x2007;&#x2007;</td></tr>
-<tr>
- <td class="pleft">11. Ounce Avoirdupois,</td>
- <td class="pright">437.5&#x2007;&#x2007;&#x2007;&#x2007;</td></tr>
-<tr>
- <td class="pleft">12. Drachm Apothecaries’,</td>
- <td class="pright">60&#x2008;&#x2007;&#x2007;&#x2007;&#x2007;&#x2007;</td></tr>
-<tr>
- <td class="pleft">13. Drachm Avoirdupois,</td>
- <td class="pright">54.6875&#x2007;</td></tr>
-<tr>
- <td class="pleft">14. Dram of the arithmetic,</td>
- <td class="pright">27.34375</td></tr>
-<tr>
- <td class="pleft">15. Pennyweight,</td>
- <td class="pright">24&#x2008;&#x2007;&#x2007;&#x2007;&#x2007;&#x2007;</td></tr>
-<tr>
- <td class="pleft">16. Scruple,</td>
- <td class="pright">20&#x2008;&#x2007;&#x2007;&#x2007;&#x2007;&#x2007;</td></tr>
-<tr>
- <td class="pleft">17. Grain,</td>
- <td class="pright">1&#x2008;&#x2007;&#x2007;&#x2007;&#x2007;&#x2007;</td></tr>
-</table></div><!--dtablebox-->
-
-<p>A formidable array truly! From this we see that while an
-ounce of cork is lighter than an ounce of gold, a pound of cork
-is heavier than a pound of gold! Nay, further, let the apothecary
-go to the druggist for a drachm of opium, and he will receive
-and pay for a <i>drachm</i> avoirdupois, a weight unknown
-even to Mr. Alexander, although in constant use in this city.
-But the moment he puts it into his mortar there is not a drachm
-of it! If he wishes to use a drachm in pills or tincture, he
-must add more than five grains to it. Could anything be more
-inconvenient or more prolific in mistakes? To prevent butter
-from becoming rancid, we are told to mix with it the bark of
-slippery elm, in the “proportion of a drachm (or dram) to the
-pound.” Who can tell what it means? Six different proportions
-might accord with this Delphic response; the most probable
-is <span class="nowrap">60:7000.</span>
-But the grievance to which the apothecary
-is subject does not all consist in his buying by lighter ounces,
-and selling by heavier. The subdivisions by which he compounds
-have no reference to his convenience. Long habit
-alone can save him from either laborious calculation or risk of
-error. But still another chance of error comes into the account.
-Two characters, <img class="iglyph-a" src="images/u0292.ezh.jpg"
- width="37" height="84" alt="ʒ" /> and <img class="iglyph-a" src="images/u2125.ounce.jpg"
- width="40" height="84" alt="℥" />, are joined to
-numerals, to indicate <span class="xxpn" id="p138">{138}</span>
-quantities; a mistake of these, by either prescriber or apothecary,
-may prove fatal. A case in point occurred a few years
-since, well known to many of our readers. A physician, prescribed
-cyanide of potassium, by a formula in which <img class="iglyph-a" src="images/u2125.ounce.jpg"
- width="40" height="84" alt="℥" /> had
-been printed, by mistake, for
-<span class="nowrap"><img class="iglyph-a" src="images/u0292.ezh.jpg"
- width="37" height="84" alt="ʒ" />.</span> The apothecary, instead of
-sending him the prescription for correction, <i>as he ought to have
-done</i>, put it up and sent it with the fearful monition that the
-dose would prove fatal—and so it did—to the prescriber himself,
-who took the dose his patient dared not touch. He died in five
-minutes, a victim to a printer’s error, to his own self confidence,
-to want of etiquette in the apothecary, and last, not least, to an
-ill-contrived system of weights.</p>
-
-<p>This brings us to the practical question, What is to be done?
-All agree that there ought to be a reform. On this point we can
-do no better than quote the close of Mr. Alexander’s preface.—“Finally,”
-says he (page vii.) “if I may be allowed, in connection
-with this work and its appropriate applications, to allude to
-certain dreams of my own, (as they may be; although I consider
-them capable, without undue effort, of a more prompt and
-thorough realisation than seems to be ordinarily anticipated,)
-as to the prevalence, some day, of an universal conformity of
-weights and measures, I must acknowledge that such a result
-was one of the ends I had in view in the original collection of
-materials. Not that such a work was going to show more emphatically
-than business men feel, and reflecting men know, the
-importance of such an universal conformity; or that a book
-whose pages deal in discords, could, of itself, produce unison;
-but the first step to any harmonious settlement is, to see clearly,
-and at a glance, where the differences lie, and what they are.—If
-a millennial period for this world is ever to come, as many wise
-have deemed, and pious prayed, it must be preceded by one
-common language, and one common system of weights and
-measures, as the basis of intercourse. And the way to that is
-to be built, not by the violent absorption of other and diverse
-systems into one, but rather by a compromise into which all
-may blend. When the Earth, in her
-historical orbit, shall <span class="xxpn" id="p139">{139}</span>
-have reached that point, (as it stood ere mankind were scattered
-from the plain of Shinar) and not till then, may we begin to
-hope that her revolutions will be stilled, and that before long
-the weights and measures of fleeting Time will be merged
-and lost in the infinite scales and illimitable quantities of Eternity.”
-We are not sure that we precisely understand the last
-sentence, and we are sure we dissent entirely from the one
-that precedes it. No compromise can be of service in bringing
-about a uniformity in weights and measures. We must either
-make a better system than the best extant, and ask all men to
-adopt it, or if the best that human ingenuity and science can
-devise is already in use, so much the better; let us adopt it
-with all our heart. Is the French system this best one? We
-believe it is, nor have we ever heard it called in question.—Why
-then speak of a new one as desirable? We fear the suggestion
-is the offspring of a national vanity, which ought to be
-beneath us. We would not oppose such a motive even to the
-introduction of the centigrade thermometer, which is much
-more inconvenient than Fahrenheit’s, and has <i>no one</i> advantage
-over it in any respect; still less should it bar the progress of a
-system against which no fault can be alleged, but that it is
-<i>foreign</i>.</p>
-
-<p>We agree with our author that the introduction of a new
-system is much easier than is generally supposed. It will not
-be like the change of a monetary system, where the old coins
-remain, mingled with the new, to perpetuate the old names.—The
-change could be, by law, effected next New Year’s day,
-and all inconvenience from it would be over in a month, save
-some awkwardness from habit, and two more serious difficulties.
-One is from the human propensity to <i>bisection</i>. Thus
-the old hundredweight of 112 pounds is bisected down to 7
-pounds, and the grocer will sell half this quantity,
-<span class="nowrap">3&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub></span>
-pounds,
-at a cheaper rate than he will sell 3 pounds or 4. Unfortunately
-in bisecting 100 we run down too soon to the fractions
-<span class="nowrap">12&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub></span>
-and 6&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>4</sub>. The French have been obliged to give way to
-this propensity, and divide the kilogramme in
-a binary manner, <span class="xxpn" id="p140">{140}</span>
-with an unavoidable irregularity, reckoning
-<span class="nowrap">31&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>4</sub></span>
-grains as 32.
-Would that 32 × 32 = 1000! Our only remedy is to change
-the radix of numeration from 10 to 16, a thing impossible but to
-a universal dictator. The other difficulty is in our measure for
-land. This must remain in all surveyed tracts in such a shape
-that 40 acres, and also 5 acres, shall be some multiple of unity.</p>
-
-<p>But shall the apothecary wait the action of government?—This
-is neither necessary nor desirable. Some relief he ought
-to have speedily. If he dare not make so great an advance as to
-adopt the French system, (his truest and most honorable policy,)
-let all subdivisions of the avoirdupois pound be discarded,
-except the grain. Introduce the chemists’ weights of 1000,
-500, 300, 100, 50, &amp;c. grains, and let all prescriptions be written
-in grains alone. This, perhaps, is the only feasible course.</p>
-
-<p>We must return once more to our author before taking leave
-of our readers. The motive for making the collection was one
-that strikes us as new. It was for ethnological and historical
-purposes. As the carat points to India as the origin of the
-diamond trade, so we find in the names, mode of subdivision,
-and amount of weights and measures evidences of the migrations
-of races, and of the ancient and obsolete channels in which
-trade once flowed. The care with which Mr. Alexander seems
-to have corrected these tables, and adjusted the discordant elements
-of which they are composed, and corrected the discrepancies
-between them, makes them more worthy of reliance
-than anything that has preceded them, and leaves little to be
-desired that is within the reach of human attainment. After
-the alphabetical arrangement, are given the weight and measure
-systems of the “principal countries of the world,” beginning
-with Abyssinia and ending with Würtemberg. And we
-have only to add that the mechanical execution of the volume
-is worthy of the care and labor the author has spent upon it,
-unsurpassed, in fact, by any book made for use we have ever
-seen.</p>
-
-<hr class="hr34" />
-
-<div class="section">
-<div><span class="xxpn" id="p141">{141}</span></div>
-<h3>QUINIDINE.
-<span class="hsmall">
-BY MR. ROBERT HOWARD.</span></h3>
-</div><!--section-->
-
-<p>This alkaloid, which gained a prize in the Great Exhibition,
-has scarcely yet attracted much attention. Some of the cheaper
-barks now largely imported from New Grenada contains so
-much of it that it is, perhaps, as well that it should be more
-studied. The <i>Cinchona cordifolia</i>, from this part of the continent,
-is particularly rich in it. It is, however, contained in
-larger or smaller quantities in the Bolivian and Peruvian barks—the
-<i>Cinchona Calisaya</i>, <i>Boliviana</i>, <i>rufinervis</i>, and especially
-<i>ovata</i>.</p>
-
-<p>Referring your readers to a very able paper in your Journal,<a class="aftntanc" href="#fn10" id="fnanch10">10</a>
-I beg to add a few facts from my own observations.</p>
-
-<div class="dftnt">
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch10" id="fn10">10</a>
-<i>Phar­ma­ceu­ti­cal Journal</i>, vol. ix., p.
-322, January, 1850.</p></div>
-
-<p>The sulphate of quinidine, or β quinine as it is called by
-some, (Van Heijninger and others,) is so like the sulphate of
-quinine, that the eye or the taste can with difficulty distinguish
-them. It forms the same light fibrous cry­stal­li­za­tion, and
-occupies as large a bulk. It corresponds in appearance with
-the description given by Winckler, of “chinidine.” (See
-<i>Pharm. Journ.</i> for April, 1845, vol. iv., p. 468.) He notices
-that it has “a remarkably white color and a peculiarly faint
-lustre.” Its most striking char­ac­ter­is­tic is its extreme solubility.
-Pure sulphate of quinine requires nearly thirty times its
-weight of boiling water for solution, whilst the sulphate of
-quinidine dissolves in four parts. On the other hand the pure
-alkaloid crystallizes readily out of proof spirit and out of ether,
-whilst quinine does not crystallize out of either. A very good
-test for the presence of cinchonine in sulphate of quinine is
-also capable of being applied to detect the presence of β quinine.
-On this point I would refer for very interesting details
-to a paper by M. Guibourt, in the <i>Journal de Pharmacie</i> for
-January in this year.</p>
-
-<p>In your Journal of April, 1843, I gave a test for sulphate of
-quinine, to which I would again
-advert, because subsequent <span class="xxpn" id="p142">{142}</span>
-experience has proved it to be a tolerable easy, and at the same
-time exact means of ascertaining its purity. Put 100 grains in
-a Florence flask with five ounces of distilled water, heat this to
-brisk ebullition; the sulphate of quinine ought not to be entirely
-dissolved; add two ounces more water, and again heat
-it to ebullition; ought to make a perfectly clear solution. If
-this be allowed to cool for six hours, and the crystals carefully
-dried in the open air on blotting paper, they will be found to
-weigh about ninety grains, the mother-liquor may be evaporated
-and tested with ether, when any cinchonine or β quinine
-will be easily detected. On examining sulphate of quinine of
-commerce from several leading manufacturers, I have found all
-of them give, within a grain or two, the same result, and, in
-each, indications of a β quinine, though to an unimportant
-extent.</p>
-
-<p>The above quantity of water (seven ounces) readily dissolves
-800 grains of sulphate of β quinine; and if 100 grains of this
-salt are dissolved in seven ounces of water, the crystals as above
-weigh only fifty-four grains, thus leaving forty-six grains in
-solution instead of about ten grains.</p>
-
-<div class="dkeeptogether">
-<p>The medical effects of β quinine deserve investigation, the
-chemical constitution and the taste appear to indicate a great
-similarity if not identity.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON THE ADULTERATION OF SULPHATE OF QUININE,
-AND THE MEANS OF DETECTION.</h3>
-</div><!--section-->
-
-<p>Mr. Zimmer, manufacturer of sulphate of quinine in Frankfort-on-the-Maine,
-has published the following circular and paper
-to his correspondents abroad:</p>
-
-<blockquote>
-<div class="psignature">
-<i>Frankfort-on-the-Maine, Feb.</i> 6th, 1852.
-</div>
-
-<p>You are doubtless, aware that various and partly spurious
-kinds of sulphate of quinine have for some time past found
-their way into the market. The
-substance now frequently <span class="xxpn" id="p143">{143}</span>
-mixed with quinine is quinidine. But little positive is as yet
-known of the medicinal properties of this alkaloid, and whatever
-may be the result of future experiments, its arbitrary substitution
-is, under any circumstances, unwarrantable, and
-renders all fair and honest competition almost impossible.</p>
-
-<p>The importance of the subject has induced me to address a
-few words to you, that I may submit a simple experiment by
-means of which the most usual adulterations of quinine may
-readily be detected.</p>
-
-<div class="psignature">
-I have the honor to be, with much respect, &amp;c.&#160;&#160;&#160;<br />
-C. <span class="smcap">Z<b>IMMER.</b></span>
-</div>
-</blockquote>
-
-<hr class="hr12" />
-
-<p>The high price of genuine Bolivian <i>Cinchona Calisaya</i>,
-through the monopoly of its export, has given occasion to imports,
-from other districts, of <i>Cinchonas</i>, the quality of which
-widely differs from that of the Calisaya, inasmuch as they
-contain principally quinidine. The lower prices of these barks,
-regardless of their different constituents, have brought them
-quickly into use in many factories of quinine, whereby a large
-quantity of quinine, containing quinidine, has got into the
-market, causing an undue depreciation in the price of quinine.</p>
-
-<p>The existence of this third cinchona-alkaloid is now established
-beyond a doubt by ultimate analysis, by the peculiarity
-of its salts, and by important distinctive tests; and there can
-be no further question, that quinidine must, equally with cinchonine,
-be distinguished from quinine. The external characters
-of sulphate of quinidine differ from those of sulphate of
-quinine; it has a greater specific gravity and less flocculent
-cry­stal­li­za­tion. In dry warm air it parts with its water of
-cry­stal­li­za­tion, without deliquescing or losing its crystallized
-aspect; lastly, it is far more soluble than sulphate of quinine
-in cold water and in alcohol.</p>
-
-<p>One of the distinctive properties of the three alkaloids in
-question, <i>viz.</i>, their behavior with ether—places in our hands
-a ready means of detecting the mixture
-of cinchonine and <span class="xxpn" id="p144">{144}</span>
-quinidine, with quinine. Schweitzer (<i>Lond. Med. Gazette</i>,
-vol. xxi., p. 175) has already employed ether for the detection
-of cinchonine with complete success, and his process has, with
-justice, been subsequently quoted in most manuals, as it answers
-its purpose completely; cinchonine is known to be entirely
-insoluble in ether, whatever may be the quantity of ether
-employed. The solubility of quinidine in ether, as compared
-with that of quinine, is but slight; ten grains of pure sulphate
-of quinine dissolve in sixty drops of ether, and twenty drops of
-spirit of ammonia, while only one grain of sulphate of quinidine
-is soluble in the same quantity of the fluid; and in proportion
-quinine containing quinidine will always be less soluble than
-pure sulphate of quinine.</p>
-
-<p>Guided by this fact I can recommend the following simple
-and very convenient process for the detection of quinidine and
-quinine:―</p>
-
-<p>Ten grains of the salt to be examined is to put into a strong
-test tube, furnished with a tight-fitting cork, to this are to be
-added ten drops of diluted sulphuric acid, (one acid and five
-water) with fifteen drops of water, and a gentle heat applied
-to accelerate the solution. This having been affected, and the
-solution entirely cooled, sixty drops of officinal sulphuric ether
-with twenty drops of spirits of ammonia, must be added, and
-the whole well shaken while the top is closed by the thumb.
-The tube is then to be closely stopped and shaken gently from
-time to time, so that the bubbles of air may more readily enter
-the layer of ether.</p>
-
-<p>If the salt examined be free from cinchonine and quinidine,
-or contain the latter in no greater proportion than ten per cent.,
-it will be completely dissolved; while on the surface, where
-contact of the two layers of clear fluid takes place, the mechanical
-impurities only will be separated (in which respect
-the various sorts of commercial quinine differ.) After sometime
-longer the layer of ether becomes hard and gelatinous,
-after which no further observation is possible.</p>
-
-<p>From the above statement respecting the
-solubility of <span class="xxpn" id="p145">{145}</span>
-quinidine in ether, it appears that the ten grains of the salt to be
-examined, may contain one grain of quinidine, and still a
-complete solution with ether and ammonia may follow; but in
-this case the quinidine will shortly begin to crystallize in the
-layer of ether. The last trace of quinidine may be yet more
-definitely detected by employing, instead of the ordinary ether,
-some other, previously saturated with quinidine, by which
-means all of the quinidine contained in the quinine must
-remain undissolved. It is particularly requisite in performing
-this last experiment to observe, after the shaking, whether all
-has dissolved, for owing to the great tendency of quinidine to
-cry­stal­li­za­tion, it may become again separated in a crystalline
-form, and be a source of error.</p>
-
-<p>If more than a tenth of quinidine or cinchonine be present,
-there will be found an insoluble precipitate at the limits of the
-two layers of fluids. If this be quinidine, it will be dissolved
-on the addition of proportionately more ether, while cinchonine
-will be unaffected.</p>
-
-<p>It is expressly to be remarked, that the necessity for testing
-sulphate of quinine, in search of other fraudulent adulterations
-is not superseded by the above described process.</p>
-
-<p>We have particularly to determine upon the absence of inorganic
-substances, which may be effected by subjecting to red
-heat on a platinum dish, or simply by solution in alcohol. Gypsum,
-chalk, magnesia, &amp;c., will be left undissolved. Boracic
-acid will be dissolved by alcohol, but its green flame will indicate
-its presence in the alcoholic solution when ignited.</p>
-
-<p>The absence of organic substances, such as salicine, sugar,
-stearic acid, &amp;c., may be inferred from the formation of a colorless
-solution with pure concentrated cold sulphuric acid; it
-is as well to leave the sulphuric acid to act for some hours.</p>
-
-<div class="dkeeptogether">
-<p>The presence of sal-ammoniac may be detected by the addition
-of caustic potash to the suspected salt, when, if present, it
-will be known by the diffusion of the ammoniacal odour.—<i>Phar­ma­ceu­ti­cal
-Journal, March, 1852.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div><span class="xxpn" id="p146">{146}</span></div>
-<h3>REMARKS ON THE ENVELOPEMENT OF PILLS.
-<span class="hsmall">
-BY DORVAULT.</span></h3>
-</div><!--section-->
-
-<p>The envelopement of pills is a minute question, an accessory
-in this form of administering medicines, but as it is a frequent
-cause of trouble to practitioners, and as their successful operation
-is often due to their peculiar mode of exhibition, we shall
-perhaps be pardoned for devoting a short space to the subject.</p>
-
-<p>In order that pills may not adhere to one another, they are
-rolled in an inert powder, such as marsh-mallow, liquorice, and
-above all, lycopodium. Carbonate of magnesia is now particularly
-used for pills of turpentine and copaiba. To disguise the
-peculiar odour of the pill mass, German practitioners use iris
-powder, or cinnamon.</p>
-
-<p>To render pills more pleasing to the eye, as well as to disguise
-their taste, instead of rolling them in the before named
-powders, they are frequently covered with gold or silver leaf.
-The mode of doing this is too well known to need repetition.
-We will only remark that those pills which contain iodine,
-bromine, sulphur, iodides, bromides, sulphides, salts of mercury,
-gold, platina, &amp;c., cannot be silvered.</p>
-
-<p>These methods conceal but imperfectly the unpleasant taste
-and smell of certain pillular compounds. M. Garot, to obviate
-this inconvenience, has proposed to cover pills with a layer of
-gelatine, by means of a process which he has made public, and
-into the details of which we think it needless to enter. The
-gelatinous layer conceals the bad taste and smell perfectly, but
-it is attended with one inconvenience; in time it shrinks,
-cracks, and the pill mass exudes. Besides, much skill is required
-in its manipulation. After gelatinization comes sugaring.
-This is frequently preferable to the former modes, and can be
-equally well applied to pills of a repulsive taste and smell,
-(copaiba, turpentine, musk, assafœtida, &amp;c.,) or to those which
-are changed by air or light, (proto salts of iron,) or deliquescent,
-(iod-hydrargyrate of iodide of potassium,) or caustic,
-(croton oil.) It can extemporaneously be performed in the following
-manner:—Put the pills into a vase with
-a round bottom, <span class="xxpn" id="p147">{147}</span>
-or into a box lined with silver, moisten them with a little syrup
-of sugar, clear mucilage, or white of eggs, agitate them so as to
-moisten them uniformly; add a mixture of equal parts of gum,
-sugar and starch; again rotate them, so as equally to enclose
-all the pills. If a first layer be not sufficient, add a second and
-third in the same manner. Dry them in the air or in a stove.
-In damp weather, these pills should be enclosed in corked
-bottles. Gelatine of carragheen or caseine dried and powdered
-may be substituted for the above powdered mixture.
-This method is more expeditious than gelatinisation, and it has
-besides the advantage of the material being always perfectly
-soluble. Collodion has been proposed for enveloping pills, but
-seems never to have been used.</p>
-
-<p>The last method we shall call <i>toluisation</i>. It appears to
-possess many decided advantages over the others. M. Blancard,
-its originator, employs it particularly for pills of proto
-iodide of iron. It is to induce its more general use that we
-make these remarks. The following is the mode of proceeding,
-which can be modified to suit the daily wants of practice:</p>
-
-<p>Dissolve one part of balsam of tolu, in three parts of ether,
-(the balsam which has been used in the preparation of syrup
-of tolu will answer perfectly;) pour some of this tincture into
-a capsule containing the pills, to favor the evaporation of the
-ether. When the pills begin to stick together, throw them on a
-mould of tin passed through mercury, or simply on a plate,
-taking care to separate those which stick together. Set them
-in the air to dry. The drying may be completed in a stove of
-moderate heat, especially if several layers have been found
-necessary. This mode of enveloping may take the place, or
-nearly so, of all the others. An important point in it, is, that
-it resists the effects both of damp and dryness on the pill mass.
-Its balsamic odour is generally agreeable; but should it not be
-so, the tolu might be replaced by some inert resin soluble in
-ether, as mastic tears for example. The layer of resinous matter
-is so thin, that we apprehend no obstacle in its influence
-on the medicine. <span class="xxpn" id="p148">{148}</span></p>
-
-<div class="dkeeptogether">
-<p>We will, however, make one general remark, namely: that
-as each method possesses some peculiar advantages, we thought
-it right to give them all.—<i>Bulletin Gen. Ther. Med. et Chir.
-January, 1852.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON THE APPLICATION OF ORGANIC CHEMISTRY
-TO PERFUMERY.
-<span class="hsmall">
-BY DR. A. W. HOFFMAN.</span>
-<span class="htiny">
-Professor to the Royal College of Chemistry, London.</span></h3>
-</div><!--section-->
-
-<p>Cahours’ excellent researches concerning the essential oil of
-gaultheria procumbens (a North American plant of the natural
-order of the Ericinæ of Jussieu,) which admits of so many
-applications in perfumery, have opened a new field in this
-branch of industry. The introduction of this oil among compound
-ethers must necessarily direct the attention of perfumers
-towards this important branch of compounds, the number of
-which is daily increasing by the labors of those who apply
-themselves to organic chemistry. The striking similarity of
-the smell of these ethers to that of fruit has not escaped the
-observation of chemists; however, it was reserved to practical
-men to discover by which choice and combinations it might
-be possible to imitate the scent of peculiar fruits to such a
-nicety, as to make it probable that the scent of the fruit is
-owing to a natural combination identical to that produced by
-art; so much so, as to enable the chemist to produce from
-fruits the said combinations, provided he could have at his disposal
-a sufficient quantity to operate upon. The manufacture
-of artificial aromatic oils for the purpose of perfumery is, of
-course, a recent branch of industry; nevertheless, it has already
-fallen into the hands of several distillers, who produce sufficient
-quantity to supply the trade; a fact, which has not escaped
-the observation of the Jury at the London Exhibition. In visiting
-the stalls of English and French perfumers at the Crystal
-Palace, we found a great variety of
-these chemical perfumes, <span class="xxpn" id="p149">{149}</span>
-the applications of which were at the same time practically
-illustrated by confectionery flavored by them. However, as
-most of the samples of the oils sent to the Exhibition were but
-small, I was prevented, in many cases, from making an accurate
-analysis of them. The largest samples were those of a
-compound labelled “Pear oil,” which, by analysis, I discovered
-to be an alcoholic solution of pure acetate of amyloxide. Not
-having sufficient quantity to purify it for combustion, I dissolved
-it with potash, by which free fusel oil was separated, and determined
-the acetic acid in the form of a silver salt.</p>
-
-<div>0,3080 gram. of silver salt = 0,1997 gram. of silver.</div>
-
-<p>The per centage of silver in acetate of silver is, according to</p>
-
-<div><div class="nowrap">
-<table summary="">
-<tr>
- <th>Theory.</th>
- <th>Experiment.</th></tr>
-<tr>
- <td class="pcenter">64,68</td>
- <td class="pcenter">64,55.</td></tr>
-</table></div></div>
-
-<p>The acetate of amyloxide which, according to the usual way
-of preparing it, represents one part sulphuric acid, one part
-fusel oil, and two parts of acetate of potash, had a striking
-smell of fruit, but it acquired the pleasant flavor of the jargonelle
-pear only after having been diluted with six times its
-volume of spirits of wine.</p>
-
-<p>Upon further inquiry I learned that considerable quantities
-of this oil are manufactured by some distillers, from fifteen to
-twenty pounds weekly, and sold to confectioners, who employ
-it chiefly it flavoring pear-drops, which are nothing else but
-barley-sugar, flavored with this oil.</p>
-
-<p>I found, besides the pear-oil, also an <i>apple-oil</i>, which, according
-to my analysis, is nothing but valerianate of amyloxide.
-Every one must recollect the insupportable smell of rotten
-apples which fills the laboratory whilst making valerianic acid.
-By operating upon this new distillate produced with diluted
-potash, valerianic acid is removed, and an ether remains behind
-which, diluted in five or six times its volume of spirits of wine,
-is possessed of the most pleasant flavor of apples.</p>
-
-<p>The essential oil most abundant in the Exhibition was the
-pine-apple oil, which, as you well know, is nothing else but
-the butyrate of ethyloxide. Even in this
-combination, as in <span class="xxpn" id="p150">{150}</span>
-the former, the pleasant flavor or scent is only attained by diluting
-the ether with alcohol. The butyric ether which is employed
-in Germany to flavor bad rum, is employed in England to
-flavor an acidulated drink called pine-apple ale. For this
-purpose they generally do not employ pure butyric acid, but a
-product obtained by saponification of butter, and subsequent
-distillation of the soap with concentrated sulphuric acid and
-alcohol; which product contains, besides the butyric ether,
-other ethers, but nevertheless can be used for flavoring spirits.
-The sample I analyzed was purer, and appeared to have been
-made with pure butyric ether.</p>
-
-<p>Decomposed with potash and changed into silver salt, it gave</p>
-
-<div>0,4404 gram. of silver salt = 0,2437 gram. of silver.</div>
-
-<p>The per centage of silver in the butyrate of silver is according
-to</p>
-
-<div><div class="nowrap">
-<table summary="">
-<tr>
- <th>Theory.</th>
- <th>Experiment.</th></tr>
-<tr>
- <td class="pcenter">55,38</td>
- <td class="pcenter">55,33.</td></tr>
-</table></div></div>
-
-<p>Both English and French exhibitors have also sent samples
-of cognac-oil and grape-oil, which are employed to flavor the
-common sorts of brandy. As these samples were very small,
-I was prevented from making an accurate analysis. However,
-I am certain that the grape-oil is a combination of amyl, diluted
-with much alcohol; since, when acted upon with concentrated
-sulphuric acid, and the oil freed from alcohol by washing it
-with water, it gave amylsulphuric acid, which was identified
-by the analysis of the salt of barytes.</p>
-
-<p>1,2690 gram. of amylsulphate of barytes gave 0,5825 gram. of
-sulphate of barytes. This corresponds to 45,82 per cent. of
-sulphate of barytes.</p>
-
-<p>Amylsulphate of barytes, crystallized with two equivalents
-of water, contains, according to the analysis of Cahours and
-Kekule, 45,95 per cent. of sulphate of barytes. It is curious
-to find here a body, which, on account of its noxious smell, is
-removed with great care from spirituous liquors, to be applied
-under a different form for the purpose of imparting to them a
-pleasant flavor. <span class="xxpn" id="p151">{151}</span></p>
-
-<p>I must needs here also mention the artificial oil of bitter
-almonds. When Mitscherlich, in the year 1834, discovered the
-nitrobenzol, he would not have dreamed that this product would
-be manufactured for the purpose of perfumery, and, after
-twenty years, appear in fine labelled samples at the London
-Exhibition. It is true that, even at the time of the discovery
-of nitrobenzol, he pointed out the striking similarity of its smell
-to that of the oil of bitter almonds. However, at that time,
-the only known sources for obtaining this body were the compressed
-gases and the distillation of benzoic acid, consequently
-the enormity of its price banished any idea of employing benzol
-as a substitute for oil of bitter almonds. However, in the
-year 1845, I succeeded by means of the anilin-reaction in ascertaining
-the existence of benzol in common coal-tar-oil. In his
-essay, which contains many interesting details about the practical
-use of benzol, he speaks likewise of the possibility of soon
-obtaining sweet scented nitrobenzol in great quantity. The
-Exhibition has proved that this observation has not been left
-unnoticed by the perfumers. Among French perfumeries we
-have found, under the name of artificial oil of bitter almonds,
-and under the still more poetical name of “essence de mirbane,”
-several samples of essential oils, which are no more nor
-less than nitrobenzol. I was not able to obtain accurate details
-about the extent of this branch of manufacture, which seems to
-be of some importance. In London, this article is manufactured
-with success. The apparatus employed is that of Mansfield,
-which is very simple; it consists of a large glass worm,
-the upper extremity of which divides in two branches or tubes,
-which are provided with funnels. Through one of these funnels
-passes a stream of concentrated nitric acid; the other is
-destined as a receiver of benzol, which, for this purpose, requires
-not to be quite pure; at the angle from where the two tubes
-branch out, the two bodies meet together, and instantly the
-chemical combination takes place, which cools sufficiently by
-passing through the glass worm. The product is afterwards
-washed with water, and some diluted solution
-of carbonate of <span class="xxpn" id="p152">{152}</span>
-soda; it is then ready for use. Notwithstanding the great
-physical similarity between nitrobenzol and oil of bitter
-almonds, there is yet a slight difference in smell which can be
-detected by an experienced nose. However, nitrobenzol is
-very useful in scenting soap, and might be employed with
-great advantage by confectioners and cooks, particularly on
-account of its safety, being entirely free from prussic acid.</p>
-
-<p>There were, besides the above, several other artificial oils;
-they all, however, were more or less complicated, and in such
-small quantities, that it was impossible to ascertain their exact
-nature, and it was doubtful whether they had the same origin
-as the former.</p>
-
-<div class="dkeeptogether">
-<p>The application of organic chemistry to perfumery is quite
-new; it is probable that the study of all the ethers or ethereal
-combinations already known, and of those which the ingenuity
-of the chemist is daily discovering, will enlarge the sphere of
-their practical applications. The caprylethers lately discovered
-by Bouris are remarkable for their aromatic smells (the acetate
-of capryloxide is possessed of the most intense and pleasant
-smell,) and they promise a large harvest to the manufacturers
-of perfumes.—<i>Annalen der Chemie.—In An. of Pharmacy.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON TESTS FOR THE IMPURITIES OF ACETIC ACID.</h3>
-</div><!--section-->
-
-<p>Pure acetic acid is colorless, possesses strong acid properties
-and taste, and no empy­reu­matic flavor. It should have, according
-to the new London Phar­ma­copœia, a specific gravity
-of 1.048, and one hundred grains should saturate eighty-seven
-grains of crystal­lized car­bonate of soda; consequently the
-phar­ma­copœial acid consists of thirty-one per cent. of the anhydrous
-acid, and sixty-nine per cent. of water. It should leave
-no residuum by evaporation. Sul­phu­ret­ted hydrogen, nitrate
-of barytes, ferro­cya­nu­ret of po­tash, and nitrate of silver, should
-produce no precipitate in it. When
-it contains empyreumatic <span class="xxpn" id="p153">{153}</span>
-matter, which besides being evident to the smell, concentrated
-sulphuric acid causes its color to darken. Sugar, in a more or
-less changed condition, is frequently one of the impurities of
-the German diluted commercial acid, and may be recognized
-by the taste of the residuum left upon its evaporation.</p>
-
-<p>When sulphuretted hydrogen produces in acetic acid a milky
-turbidity, it shows that sulphurous acid is present, the presence
-of which is due to the decomposition of coloring and other
-organic matters, contained as impurities in the acetates, from
-which the acetic was prepared, when treated with sulphuric
-acid. The turbidity is caused by the separation of sulphur
-from the sulphuretted hydrogen, and from the sulphurous acid
-by reason of the hydrogen of the former combining with the
-oxygen of the latter, and forming water (Wittstein.) If the
-sulphuretted hydrogen produces a black precipitate, either lead
-or copper may be present. The lead may be recognized by
-sulphuric acid giving a precipitate of sulphate of lead; and
-the copper, by the blue reaction which ensues, with an excess
-of ammonia. Sulphuric acid can be readily known when
-present by nitrate of barytes producing a white precipitate,
-insoluble in mineral acids. Nitrate of silver detects muriatic
-acid by throwing down a white precipitate, which changes,
-under the influence of light, to a violet color, and is insoluble
-in nitric acid, but soluble in ammonia. Ferrocyanuret of potassium
-will indicate the presence of salt of iron when by its
-addition, a blue precipitate results.</p>
-
-<p>The above tests are not applicable to the same extent to
-detect the impurities of the brown vinegar of commerce, because
-manufacturers are allowed by law to add to it a small
-per centage of sulphuric acid, and there are always sulphates
-and chlorides and other salts present in it, derived from the
-water used in its manufacture; therefore, in testing for its
-impurities, an allowance must be made for those which arise
-from the necessary process of the manufacture, and those considered
-only as adulterations which are over and above such
-fair allowance. To detect such impurities
-as cayenne pepper, <span class="xxpn" id="p154">{154}</span>
-&amp;c., it is merely necessary to neutralize the vinegar with carbonate
-of soda, when their presence will be palpably evident
-to the taste.</p>
-
-<p>Acetic acid may be purified by distillation from those substances
-which are not volatile. By adding acetate of lead previously
-to its distillation, sulphuric and muriatic acids can be
-separated from it; and sulphurous acid can be removed by
-peroxide of manganese, which converts it into sulphuric acid.
-It can be freed from empyreumatic impurities by agitation with
-charcoal, subsequent filtration and distillation.</p>
-
-<div class="dkeeptogether">
-<p>The strength of acetic acid and vinegar cannot be determined
-by the specific gravity. The power of saturating an alkaline
-carbonate is the best criterion of the quantity of anhydrous
-acid present in any given sample. This method will only give
-correct results when the acid is pure, or when the quantities of
-free mineral acids have been estimated previously by precipitation,
-so as to make the necessary deductions for their saturating
-power when the acid is neutralized with an alkaline
-carbonate. It would be well if phar­ma­ceu­tists were more
-frequently to try the strength of their acetic acid, which is
-constantly sold with very plausible labels, about one part of the
-acid to seven parts of water, making the distilled vinegar of
-the Pharmacopœia, which statement we have oftentimes proved
-to be a very pretty fiction.—<i>An. of Pharmacy, March, 1852.</i></p>
-
-<hr class="hr34" />
-</div>
-
-<div class="section">
-<h3>A TEST FOR ALCOHOL IN ESSENTIAL OILS.</h3>
-</div><!--section-->
-
-<p>J. J. Bernoulli recommends for this purpose acetate of
-potash. When to an etherial oil, contaminated with alcohol,
-dry acetate of potash is added, this salt dissolves in the alcohol,
-and forms a solution from which the volatile oil separates. If
-the oil be free from alcohol, this salt remains dry therein.</p>
-
-<p>Wittstein, who speaks highly of this test, has suggested the
-following method of applying it as the best:—In
-a dry test <span class="xxpn" id="p155">{155}</span>
-tube, about half an inch in diameter, and five or six inches
-long, put not more than eight grains of powdered dry acetate
-of potash; then fill the tube two-thirds full with the essential
-oil to be examined. The contents of the tube must be well
-stirred with a glass rod, taking care not to allow the salt to rise
-above the oil; afterwards set aside for a short time. If the
-salt be found at the bottom of the tube dry, it is evident that
-the oil contains no spirit. Oftentimes, instead of the dry salt,
-beneath the oil is found a clear syrupy fluid, which is a solution
-of the salt in the spirit, with which the oil was mixed. When
-the oil contains only a little spirit, a small portion of the solid
-salt will be found under the syrupy solution. Many essential
-oils frequently contain a trace of water, which does not materially
-interfere with this test, because, although the acetate of
-potash becomes moist thereby, it still retains its pulverent form.</p>
-
-<div class="dkeeptogether">
-<p>A still more certain result may be obtained by distillation in
-a water bath. All the essential oils which have a higher boiling
-point than spirit, remain in the retort, whilst the spirit passes
-into the receiver with only a trace of the oil, where the alcohol
-may be recognized by the smell and taste. Should, however, a
-doubt exist, add to the distillate a little acetate of potash and
-strong sulphuric acid, and heat the mixture in a test tube to
-the boiling point, when the char­ac­ter­is­tic odor of acetic ether
-will be manifest, if any alcohol be present.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>CHEMICAL EXAMINATION OF RESIN OF JALAP.
-<span class="hsmall">
-BY B. SANDROCK.</span></h3>
-</div><!--section-->
-
-<p>It is a well known fact that when resin of jalap is treated
-with ether, we obtain two kinds of resin, one soluble, and the
-other insoluble in ether. Dr. Kayser chose first for his analysis
-that part of the resin which is insoluble in ether. This resin,
-purified by means of charcoal, was friable, almost colorless,
-without smell or taste, insoluble in ether and
-water, but easily <span class="xxpn" id="p156">{156}</span>
-dissolved by spirit of wine; the alcoholic solution reddens
-litmus slightly. The resin, again precipitated by water, was
-perfectly soluble in solution of caustic ammonia and acetic acid.
-This resin was dissolved with difficultly in cold solutions of caustic
-potash and soda, but was perfectly soluble when hot, and
-could again be readily precipitated from the alkaline solutions
-by acids. The solution of this resin, in ammonia was of a bright
-brown color, and became neutral by volatizing the superfluous
-ammonia. It is consequently a resinous acid, which is distinguished
-from other resinous acids, by the facts that it does not
-precipitate the bases from metalic salts, such as nitrate of silver,
-sulphate of copper; it afforded only a precipitate when acted
-upon by basic-acetate of lead. A question arose, whether the
-resin of jalap, dissolved in alkaline fluids, undergoes any
-changes in its constitution. To answer this question, Kayser
-undertook several analyses, the results of which were as follows:
-The uncombined resin of jalap gave C 42, H 35, O 20.—The
-resin, precipitated by oxide of lead, gave C 42, H 36, O 21.
-It is evident that resin of jalap, combined with the bases
-of salts, acquires the elements of one equivalent of water. Dr.
-Kayser, has named the unchanged resin of jalap, rhodeoretin,
-and that modified by bases of salts, hydro-rhodeoretin.</p>
-
-<p>By dissolving rhodeoretin in absolute alcohol and submitting
-the solution to the action of chlorine, and subsequently adding
-water to it, Kayser obtained an oily fluid, dark yellow, possessing
-a pleasant smell, easy to be volatilized by heat, soluble
-in water, which he called rhodeoretin oil.</p>
-
-<p>The part of the resin soluble in ether, possesses eminently
-the disagreeable smell of jalap, a prickly taste; its solution
-reddens litmus, and in drying leaves a greasy spot on paper;
-it is soluble in alkaline fluids. If the alcoholic solution is
-allowed to stand, mixed with water, for a lengthened period,
-prismatic crystalline needles are precipitated. According to
-these properties, Kayser includes the soluble jalap resin among
-the fatty acids. Sandrock in general agrees with Kayser; but,
-according to his analysis, the jalap can be
-resolved in three <span class="xxpn" id="p157">{157}</span>
-different resins, one soluble in ether, the second obtained by
-precipitating the alcoholic solution by oxides of lead; the third
-remains unprecipitated in this solution.</p>
-
-<p>That part of the resin which is insoluble in ether, but is precipitated
-from the alcoholic solution by oxide of lead, Sandrock
-calls alpha resin; that which is not precipitated, beta resin;
-that part which is soluble in ether he calls gamma resin.</p>
-
-<div class="dkeeptogether">
-<p>The alpha resin agrees in its properties with Buchner’s and
-Herberger’s jalapine. Sandrock calls ipomic acid, the produce
-of this resin when treated by boiling carbonated alkaline solution;
-and the one obtained in the same way from beta resin,
-jalapic acid. The gamma resin forms in ether a yellow solution,
-and a purple one in concentrated sulphuric acid.—<i>Archiven
-der Pharmacie.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON THE PREPARATION OF CHLOROFORM FROM
-THE ESSENCES OF LEMON, COPAIBA, PEPPERMINT
-AND BERGAMOTTE.
-<span class="hsmall">
-BY M. CHAUTARD,</span>
-<span class="htiny">
-Professor of Chemistry at the Lyceum of Vendome.</span></h3>
-</div><!--section-->
-
-<p>M. Chautard, after having completed his experiments for
-the production of chloroform by means of oil of turpentine instead
-of alcohol, led by analogy, proceeded to try by a similar
-method to prepare it by means of the essences of lemon, bergamotte,
-copaiba and peppermint, and succeeded. However,
-the quantity of essences upon which he acted was too small to
-carry on a minute analysis. In the meanwhile, his researches
-led him to discover formic acid in the calcareous residuum of
-the operation. It was already known, M. Chautard observes,
-that oil of turpentine, when old and exposed a long time to the
-action of the air, was transformed into formic acid, which observations
-is due to M. Wappen. On the other hand, M.
-Schneider, by collecting the volatile products
-of the oxidation <span class="xxpn" id="p158">{158}</span>
-of turpentine, by means of nitric acid, detected therein the
-presence of acetic, metacetic, and butyric acids. Finally, a
-few years ago, Mr. William Bastick<a class="aftntanc" href="#fn11" id="fnanch11">11</a>
-showed that hypo-chlorite
-of lime, by reacting upon neutral unazotised bodies, such
-as sugar, starch, &amp;c., gave rise to the formation of a certain
-quantity of formate of lime; hence, turning to advantage the
-details given by this chemist, M. Chautard continues—I thus
-have carried on my operation:―</p>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch11" id="fn11">11</a>
-“Journal de Pharmacie,” 3<sup>e</sup>
-serie, 1. 14.</p></div>
-
-<p>After having ascertained, by means of the solution of indigo,
-that the residuum contained in the alembic did not contain any
-hypochlorite of lime, the presence of which would have prevented
-the extraction of formic acid, I threw the whole upon a
-cloth, and added sulphuric acid to the filtered liquor to precipitate
-the lime retained in a state of chloride or formate.—This
-liquor, after having been filtered anew, was distilled, and
-the product was a mixture of formic and hydrochloric acids,
-which I saturated by means of carbonate of soda. By subsequent
-evaporation to dryness, I succeeded, by adding afterwards
-a little water, in separating the formate of soda from the chloride.
-By means of the formate of soda, I proved the principal
-properties of formic acid, and besides, produced from it the formate
-of silver, which is decomposed by a boiling heat, leaving
-a precipitate of metalic silver.</p>
-
-<div class="dkeeptogether">
-<p>In finishing this communication, I must observe that fixed
-oils, treated in the same way by hypochlorite of lime, do not
-produce chloroform; however, the reaction which occurs is so
-strong, and indicative of interesting results, that it induces me
-to continue my experiments.—<i>Journal de Pharmacie.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON DRY EXTRACTS.
-<span class="hsmall">
-BY DR. MOHR.</span></h3>
-</div><!--section-->
-
-<p>Every one is aware of the utility of possessing dry extracts,
-particularly of narcotic plants, so as to be able to administer
-them as powders. This able pharmaceutist
-gives the following <span class="xxpn" id="p159">{159}</span>
-formula for their preparation; and as it seems to answer all
-purposes, and is adopted in Berlin, and other continental towns,
-it deserves to be made public.</p>
-
-<div class="dkeeptogether">
-<p>Take of any extract, and of powder of licorice equal parts,
-mix them well in a mortar; when well mixed, put the paste in
-an earthenware evaporating dish, and then put this vessel over
-an iron pan, which has been filled with chloride of calcium,
-previously dried in the vessel by a strong fire without melting;
-the iron vessel must have a cover to enclose both vessels, so
-that the chloride of calcium can absorb the vapor from the extract
-without communication with the air, and must be put
-on as soon as the extract has been placed on the chloride of
-calcium. Let it stand for some days. Remove the extract,
-and add an equal weight of licorice powder to it in a mortar,
-mix well, and preserve it in bottles.</p>
-
-<hr class="hr34" /></div>
-
-<div class="chapter dedtrl">
-<h3>EDITORIAL.</h3>
-
-<hr class="hr34" />
-
-<div class="divh4ord"><h4 class="h4runin"><span class="smcap">P<b>HARMACEUTICAL</b></span>
-<span class="smcap">C<b>ONVENTION.</b></span></h4>
-The apothecaries of the United States are in an
-anomalous and exceptional position. Exercising functions which concern the life
-and health of those who require their services, the public expects them to possess
-the experience, the varied requirement, the high moral qualities which the proper
-exercise of their profession demands; yet this same public, itself incapable of
-discriminating between knowledge and ignorance, furnishes them no aid in the
-pursuits of their studies, and yields them no protection against quackery and
-imposture. Everything is left to the spirit of trade, and to the laws of supply
-and demand. The advances that have been made in pharmacy have come from
-within itself, unaided by any assistance from the state governments, and looked
-upon often with coldness or distrust by the public. In this way, in some of the
-large cities, with the influence of the sister profession of medicine, something has
-been done; but, even there, how much remains to be accomplished before pharmacy
-can assume the rank it holds in France and Germany!</div>
-
-<p>As heretofore, so now, the best and the only prospect of progress in the profession
-lies in itself. It best knows its necessities and requirments, and it can best devise
-the remedies that will meet them. It is in the union of its members, in mutual
-association and intercourse, in the formation of a public opinion
-of its own, which, <span class="xxpn" id="p160">{160}</span>
-operating first upon the members of the profession, will necessarily have its
-weight upon the public opinion of the community, that lie our best hopes.
-Pharmacy is at once a liberal art, and a trade. In individuals, particularly in a
-community like ours, the spirit of trade is apt to be in the ascendant. Science is
-estimated at its money value, for what it brings in, rather than for what it is. But
-when the best men of a profession meet together, science resumes its proper position;
-they are encouraged in their noblest aims, and that encouragement is
-spread widely among their fellows. Individuals struggling, isolated throughout
-the country, feel that there is a tribunal to which they can appeal, and by which
-they will be judged, and its influence will be felt too by another class, as a restraint,
-if not an encouragement. Success, obtained by worthy means, loses much
-of its value, when it costs the esteem of those with whom we are most intimately
-connected.</p>
-
-<p>It is from such considerations that we look upon the approaching convention at
-Philadelphia, as a step in a very important movement. A great deal depends
-upon its success, and every one who has the interest of phar­ma­ceu­ti­cal science
-at heart, should do all he can to promote it.</p>
-
-<p>To prove all that is hoped for by its friends, the convention should be a national
-one, not only in name, but in reality. Every institution and society entitled
-under the requisitions of the call, should appoint delegates, and above all, they
-should appoint delegates who will attend. But there are many apothecaries
-scattered through the country, in places not entitled to appoint delegates, who
-may be enabled to be present at the meeting of the convention, and we are glad
-to see that our Philadelphia brethren are prepared to welcome them in a liberal
-and cordial spirit. They will both receive and communicate benefit. Their
-presence will add weight and authority to the convention; while, independent
-of its official proceedings, they cannot but derive advantages from acquaintance
-and intercourse with the numerous able members of the profession who will, as
-delegates, attend the meeting.</p>
-
-<p>Great care should be exercised in the selection of delegates; they should not
-only, above all, be men who will attend, but men who have at heart the position
-and advancement of phar­ma­ceu­tists.</p>
-
-<p>We hope that their election will take place as early as possible, that they may
-have time fully to consider the objects of the convention, and the wants and
-wishes of the institutions they represent. It would be well, too, if early notice of
-their election should be communicated to Mr. Proctor, or some other of the members
-residing at Philadelphia, and their names should be published. The convention
-will have much to discuss and determine upon, while its duration will
-necessarily be limited. Were the names of its members early announced, an
-interchange of opinion might take place between, not to forstall the active of the
-convention, but to promote and expedite it. For this purpose, if deemed desirable
-our own columns are freely tendered.</p>
-
-</div><!--chapter dedtrl-->
-
-<div class="chapter">
-<div><span class="xxpn" id="p161">{161}</span></div>
-<h2 class="h2nobreak"><span class="hsmall">NEW YORK</span>
-JOURNAL OF PHARMACY.
-<span class="hsmall"><span class="hdate">
-JUNE, 1852.</span></span></h2>
-</div><!--chapter-->
-
-<h3>ON THE PREPARATION OF PURE BARIUM COMPOUNDS.
-<span class="hsmall">
-BY HENRY WURTZ.</span></h3>
-
-<p>The preparation of the compounds of barium in a state of
-absolute purity is a subject which has not generally received
-much attention from Phar­ma­ceu­ti­cal chemists, in consequence
-of the hitherto limited application of these compounds, except
-in chemical analysis. The time, however, is undoubtedly close
-at hand, when new developments in the arts, will create a demand
-for pure barium compounds, as well as for very many
-other products now considered as pertaining exclusively to the
-laboratory. Indeed, efforts have already been made to introduce
-the <i>chlorate of barytes</i> to the notice of pyrotechnists as a
-means of producing a green fire unequalled in beauty, and the
-pure carbonate has been for some time in use in England, in
-the manufacture of superior varieties of plate and flint glass.
-The precipitated or purified native sulphate is also preferred
-as a water color pigment to white lead, being far more durable
-than the latter. I may here be permitted to mention a practical
-application of the carbonate which has occurred to myself.
-I have found that sulphate of lime is totally precipitated from
-its solution by mixing therewith an equivalent quantity of the
-precipitated or finely pulverized natural
-carbonate of barytes, <span class="xxpn" id="p162">{162}</span>
-of course with the formation of sulphate of barytes and carbonate
-of lime. It is by no means improbable that this property
-may be made available in removing sulphate of lime from
-spring or sea water which is to be used in steam boilers, thus
-preventing the formation of the troublesome incrustation which
-so often occurs, especially when it is considered that the sulphate
-of barytes which would be formed, might easily be reconverted
-into carbonate and used over again. Again, sulphate
-of lime might be removed in the same way from the brine in
-salt works, thus contributing to the purity of the salt produced.</p>
-
-<p>Recent improvements in chemical analysis have greatly increased
-the usefulness of barium compounds in the laboratory,
-especially of the carbonate, to which the late investigations of
-Professor H. Rose, and of Ebelmen have given a place in the
-very first rank among the reagents valuable to the chemist.
-Any suggestion, therefore, concerning the preparation of barium
-compounds in a pure state, cannot be considered as useless.</p>
-
-<p>The sulphate of baryta is the only compound which occurs
-in sufficient abundance to be an economical source of the other
-barium compounds, and the enormous though illegitimate use
-of this substance in the adulteration of white lead, is so far fortunate
-as to render it an easy matter to obtain it in any required
-quantity, already in a state of fine powder which is so
-desirable in chemical operations.</p>
-
-<p>The sulphate of baryta is always reduced to the state of sulphide
-of barium, by exposing it to a red heat in intimate
-admixture with some carbonaceous substance, such as powdered
-charcoal, rosin, oil or flour. It is exceedingly difficult, however,
-if not impossible, to effect in this manner a complete
-decomposition of the sulphate. Indeed, it is probable that in
-most cases the quantity of sulphide obtained, is not more than
-half that which is equivalent to the sulphate employed. A
-modification which promises to be far more economical was
-proposed by Dr. Wolcott Gibbs. His proposal was to submit
-the sulphate to the action of a current of common coal gas at a
-red heat. It is evident that in this way
-a perfect decomposition <span class="xxpn" id="p163">{163}</span>
-may readily be accomplished, especially if the powdered sulphate
-is stirred during the operation, so as to expose fresh surfaces
-to the action of the gas.</p>
-
-<p>The mass obtained after the reduction of the sulphate is
-submitted to the action of boiling water, and a solution obtained,
-which, according to Professor H. Rose,<a class="aftntanc" href="#fn12" id="fnanch12">12</a>
-contains principally
-hydrate of baryta and sulphohydrate of sulphide of barium
-BaS. HS. formed by the reaction of equal equivalents of water
-and proto-sulphide of barium. It almost invariably contains
-also a quantity of lime, probably in the form of sulpho-hydrate
-of sulphide of calcium, or of hydrate of lime, proceeding from
-the almost constant concurrence of sulphate of lime with native
-sulphate of baryta. From the presence of this lime originates
-the principal difficulty in preparing pure barium compounds
-from this substance. Thus when the carbonate is prepared
-from the solution by precipitation, with carbonate of soda, or a
-current of carbonic acid gas, it is found contaminated with carbonate
-of lime, which is fatal to its use as a reagent in analysis.
-Also in examining many specimens of commercial <i>chloride of
-barium</i>, which is prepared from this solution by the addition of
-chloro-hydric acid, boiling to separate sulpho-hydric acid gas
-which is evolved, filtration to separate the sulphur which is
-precipitated and cry­stal­li­za­tion, I have always found it to
-contain a small quantity of chloride of calcium, which I have
-found it impossible to separate entirely by repeated recry­stal­li­za­tions.
-It has been proposed<a class="aftntanc" href="#fn13" id="fnanch13">13</a>
-to separate the chloride of
-calcium from chloride of barium by the use of very strong alcohol,
-in which the latter when anhydrous, is insoluble. This
-method is rather expensive and troublesome as it involves the
-evaporation to dryness of the chloride of barium solution, the
-reduction of the previously ignited residue to a very fine powder
-and digestion in strong alcohol. Attempts were made after
-some previous experimentation, in which it was
-found that an <span class="xxpn" id="p164">{164}</span>
-aqueous solution of <i>oxalate of baryta</i> precipitated chloride of
-calcium, but not chloride of barium, to separate the lime from
-a chloride of barium solution by addition of oxalate of baryta,
-or simply of a little oxalic acid, but it was soon found that oxalate
-of lime was somewhat soluble in a solution of chloride of
-barium, so that a solution of oxalate of baryta, gave no precipitate
-in a mixture of solutions of chloride of barium and chloride
-of calcium. It was found also that the precipitate formed by
-a little oxalic acid in a lime solution, could be re-dissolved by
-addition of chloride of barium. It may also be mentioned,
-though irrelevant to the subject, that it was found that oxalate
-of lime was soluble in solutions of chloride of calcium, of ammonia,
-and of chloro-hydrate of ammonia.</p>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch12" id="fn12">12</a>
-Poggendorff’s Annalen, 55,416.</p></div>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch13" id="fn13">13</a>
-Gmelin’s Handbuch, 2,158.</p></div>
-
-<p>The well known property of carbonate of baryta which the
-recent investigations of Professor H. Rose have rendered so
-important in the analysis of phosphates, of completely precipitating
-lime from its solution by a sufficiently long contact therewith,
-furnishes us, however, with a perfectly easy and cheap
-method of purifying the chloride of barium solution. In fact a
-solution of chloride of barium to which chloride of calcium has
-been added, having been treated with a little carbonate of baryta,
-and allowed to stand in contact with it for two days, with
-occasional agitation, was found on filtration to be free from
-lime. The only objection to this method, is the considerable
-length of time required; but I must here describe an elegant
-modification which was communicated to me by Dr. Wolcott
-Gibbs, and tested by him in his laboratory; that is to add first
-to the solution of chloride of barium containing lime, a little
-solution of hydrate of baryta and then to pass through it a current
-of carbonic acid gas. The precipitate immediately formed
-contains of course all the lime.</p>
-
-<p>The only impurity which is prevalent in commercial chloride
-of barium besides lime, is strangely enough, a trace of <i>lead</i>
-which is almost always present and sometimes in such quantity
-that the solution is immediately
-blackened by sulphuric <span class="xxpn" id="p165">{165}</span>
-acid.<a class="aftntanc" href="#fn14" id="fnanch14">14</a>
-This is, however, very easily removed, either before or
-after the separation of the lime by the process of Dr. Gibbs, by
-passing a little sulpho-hydric acid gas into the solution, gently
-heating for a short time and filtering.</p>
-
-<p>Commercial chloride of barium thus purified is probably the
-most convenient source of the other compounds of barium when
-required pure. Thus pure carbonate of baryta may be prepared
-from it by precipitation with carbonate of ammonia, or with
-carbonate of soda, which is free from silica, sulphuric acid and
-phosphoric acid.<a class="aftntanc" href="#fn15" id="fnanch15">15</a></p>
-
-<div class="dkeeptogether">
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch14" id="fn14">14</a>
-It may be that leaden pans are used for the evaporation
-or cry­stal­li­za­tion of the commercial chloride of barium, which would
-sufficiently account for the presence of lead in the product.</p></div>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch15" id="fn15">15</a>
-New York Journal of Pharmacy, 136.</p></div>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>RESULTS OF THE EXAMINATION OF SEVERAL
-PARCELS OF ALEPPO SCAMMONY.
-<span class="hsmall">
-BY B. W. BULL.</span></h3>
-</div><!--section-->
-
-<p>Since the publication of an article upon Virgin Scammony
-in a previous number of this Journal, I have had an opportunity
-of examining four different varieties of scammony received
-from Constantinople, under the names, Aleppo Scammony,
-first; Aleppo Scammony, second; Tschangari Scammony and
-Skilip Scammony.</p>
-
-<p>No. 1. <i>Aleppo Scammony, first</i>. This occurs in large amorphous
-pieces weighing one or more pounds; is not covered
-with any calcareous powder. The fractured surface presents a
-dark greenish resinous appearance. The specific gravity will
-be found below. The caseous odor is not so
-decided in this <span class="xxpn" id="p166">{166}</span>
-specimen as in some of the other varieties, confirming, as will
-be seen from its composition, as adduced farther on, the remark
-made in the article above alluded to, in regard to the insecurity
-of relying upon the odor as a means of judging of the quality
-of scammony.</p>
-
-<p>No. 2. <i>Aleppo Scammony, second.</i> Of this a sample of about
-one pound was received. This is in amorphous pieces; it differs
-from the previous specimen in its fracture which is non-resinous
-and horny, it is of a much lighter color, and has a
-grayish tinge. The scammony odor is more decided. This
-variety receives the prefix <i>Aleppo</i> improperly, as it does not
-come from that locality, and is said to be made by pressing
-the root, though the quantity of insoluble organic matter
-which it contains, seems to indicate some other impurity, intentionally
-added.</p>
-
-<p>No. 3. <i>Tschangari Scammony</i>, derives its name from the
-place of production. It appears to be a variety not found in
-market here. It resembles in fracture the last mentioned, and
-is like that, in amorphous pieces. Its odor is more decided
-than that of any of the others.</p>
-
-<p>No. 4. <i>Skilip Scammony.</i> This specimen appears to have
-undergone some deterioration, and evinces a disposition to
-mould. Some of the pieces are marked exteriorly, as if placed
-in a bag when soft, and dried in this way. It is destitute of the
-caseous odor, and has a mouldy smell. Fracture, non-resinous,
-and grayish, like the last mentioned varieties.</p>
-
-<p>These three latter varieties are always to be obtained in Constantinople,
-we are informed, while the first quality Aleppo, is
-only produced in small quantity, and is soon out of market.</p>
-
-<p>The difference in composition of the different varieties will
-be found annexed, the numbers referring to those given above.
-All of them indicate the presence of starch by the test with
-iodine. <span class="xxpn" id="p167">{167}</span></p>
-
-<div class="dtablebox dkeeptogether">
-<table class="fsz6" summary="">
-<tr>
- <th></th>
- <th>No. 1.</th>
- <th>No. 2.</th>
- <th>No. 3.</th>
- <th>No. 4.</th></tr>
-<tr>
- <td class="pleft"><p class="pleft phanga pleft">Specific gravity,</p></td>
- <td class="pright borbtm">1.150</td>
- <td class="pright borbtm">1.325</td>
- <td class="pright borbtm">1.339</td>
- <td class="pright borbtm">1.311</td></tr>
-<tr>
- <th></th>
- <th>Per cent.</th>
- <th>per cent.</th>
- <th>per cent.</th>
- <th>per cent.</th></tr>
-<tr>
- <td class="pleft"><p class="pleft phanga pleft">Resinous matter, water, and loss.</p></td>
- <td class="pright">86.88&#x2007;</td>
- <td class="pright">55.42&#x2007;</td>
- <td class="pright">64.10&#x2007;</td>
- <td class="pright">34.00&#x2007;</td></tr>
-<tr>
- <td class="pleft"><p class="pleft phanga pleft">Vegetable substance, insoluble in ether,</p></td>
- <td class="pright">8.10&#x2007;</td>
- <td class="pright">38.00&#x2007;</td>
- <td class="pright">23.17&#x2007;</td>
- <td class="pright">59.43&#x2007;</td></tr>
-<tr>
- <td class="pleft"><p class="pleft phanga pleft">Inorganic matter,</p></td>
- <td class="pright">5.02&#x2007;</td>
- <td class="pright">6.58&#x2007;</td>
- <td class="pright">12.73&#x2007;</td>
- <td class="pright">6.57&#x2007;</td></tr>
-<tr>
- <td></td>
- <td class="pright"><span class="tdsum">100.000</span></td>
- <td class="pright"><span class="tdsum">100.000</span></td>
- <td class="pright"><span class="tdsum">100.000</span></td>
- <td class="pright"><span class="tdsum">100.000</span></td></tr>
-</table>
-<p class="fsz6">New York, May, 1852.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>WHAT IS MONESIA?
-<span class="hsmall">
-BY E. DUPUY,</span>
-<span class="htiny">PHARMACEUTIST, NEW YORK CITY.</span></h3>
-</div><!--section-->
-
-<p>Dorvault in the <i>Officine</i> gives it “as the product of a foreign
-bark never found in commerce, but described by Mr. Bernard
-Derosne, (who, according to the same authority is the
-only possessor of it,) as being found in voluminous thick pieces,
-filled with extractive. The color is dark brown, excepting the
-epidermis which is grayish. It contains tannin and a red coloring
-matter, analoguous to cinchonic red, also an acrid one and salts.”
-Virey attributed it to a <i>Chrysophi lum.</i>; Martens says it is
-the <i>Mohica</i> of the Brazilians; according to Mr. Constant Berrier,
-it bears in that country sundry other names: <i>furanhem</i>,
-<i>guaranhem</i>, <i>buranché</i>, etc. Duchesne in his <i>Répertoire des
-Plantes utiles et Vénéncuses du Globe</i>, and Descourtils in his
-<i>Flore médicale des Antilles</i> mentions the <i>Cainito Chrysophillum</i>
-the bark of which is tonic, astringent
-and febrifuge. In <span class="xxpn" id="p168">{168}</span>
-examining some extract of Monesia I was struck with the striking
-resemblance in its properties with the extract of logwood,
-(<i>Hematoxylon Campechianum</i>) both possessing the same astringent
-sweetish taste, precipitating salts of iron, etc. Descourtils,
-who practiced medicine for a long time in the West
-India islands, says “it is recommendable in dysentery and
-diarrhea after the inflammatory period.” and to that effect prescribes
-the decoction of one ounce of the wood or a drachm of
-the extract added to an infusion of orange tree leaves, or Cascarilla
-bark, per diem. Besides, Dr. Wood in the U. S. Dispensatory,
-mentions its frequent use in some parts of the United
-States, “in that relaxed condition of the bowels, which is apt to
-succeed to cholera infantum,” and also in the same complaints
-as mentioned by Descourtils. Though both the decoction of the
-wood and the solution of the extract are officinal in our national
-Pharmacopeia, so far as my means of observation go, they are
-seldom, if ever, prescribed in New York, and yet I have repeatedly
-prepared solutions of the Monesia, prescribed by our city
-practitioners. The extract of log-wood being so similar in its
-medicinal action, I am strongly inclined to think that it is the
-same substance, though perhaps obtained from other sources;
-and as the price of it is so much higher than that of the other,
-it would be desirable to obtain the results of comparative experiments
-made to test their relative value, and whether the
-extract of <i>Hematoxylon Campechianum</i> should not be prescribed
-as answering for all therapeutical purposes, the mysterious
-Monesia of Derosne?</p>
-
-<hr class="hr34" />
-
-<div class="section">
-<div><span class="xxpn" id="p169">{169}</span></div>
-<h3>THE PHARMACOLOGY OF MATICO:
-WITH FORMULA FOR ITS PREPARATION.
-<span class="hsmall">
-BY DORVAULT.</span></h3>
-</div><!--section-->
-
-<p>As matico is daily attracting more and more the attention of
-practitioners, its pharmacology demands consideration. It is
-well known that this new Peruvian plant has been lauded as an
-efficacious remedy in leucorrhea and gonorrhea, as a vulnerary,
-and above all as an excellent hemostatic, both external and
-internal.</p>
-
-<p>We shall, in the present paper, content ourselves with making
-known the principal phar­ma­ceu­ti­cal forms which this substance
-is capable of assuming, reserving all other considerations
-for a later period. A long and careful experience will be needed
-to establish the relative value of each of the subjoined forms.</p>
-
-<h4>POWDER OF MATICO.</h4>
-
-<p>Matico can be easily reduced to an impalpable powder. This
-powder is of a yellowish green, and its odor, when fresh is more
-fragrant than that of the plant itself. To preserve it well, it
-should be kept in well stopped bottles.</p>
-
-<p>Matico powder can be advantageously used externally in
-sprinkling over bleeding parts, in plugging the nasal fossœ and
-in epithems for contusions. Internally it may be used moistened
-with a little sweetened water under the form of electuary
-or in pills.</p>
-
-<div class="dtablebox"><div class="nowrap">
-<h4>INFUSION OF MATICO.</h4>
-<table summary="">
-<tr>
- <td class="pleft">Bruised matico,</td>
- <td class="pleft">&#x2007;&#x2008;&#x2007;10 to 20 grammes.</td></tr>
-<tr>
- <td class="pleft">Boiling water,</td>
- <td class="pleft">1,000 grammes.</td></tr>
-</table></div></div><!--dtablebox-->
-
-<p>Let it infuse until cold and strain it. This infusion is amber-colored,
-and possesses the aromatic odor of the plant. It is not
-unpleasant to take, but may be rendered more agreeable by
-the addition of sugar, or an appropriate syrup.</p>
-
-<p>For external use, lotions, embrocations, lavements and injections,
-30, 40 or even 50 grammes of matico may be
-used to the <span class="xxpn" id="p170">{170}</span>
-same quantity of water, and it may be submitted to a slight
-decoction. If, in this mode of operation, it parts with some
-volatile oil, it gains a small portion of resin.</p>
-
-<div class="dtablebox"><div class="nowrap">
-<h4>DISTILLED WATER, OR HYDROLATE OF MATICO.</h4>
-<table summary="">
-<tr>
- <td class="pleft">Bruised matico,</td>
- <td class="pleft">&#x2007;&#x2008;100 parts.</td></tr>
-<tr>
- <td class="pleft">Water,</td>
- <td class="pleft">1,000 parts.</td></tr>
-</table></div></div>
-
-<p>Draw off by distillation, 500 parts of hydrolate.</p>
-
-<p>The product is colorless throughout the distillation, except
-the first few drops, which are milky.</p>
-
-<p>Hydrolate of matico has an odor of turpentine stronger than
-the plant itself. It is covered with globules, or a light layer of
-a volatile oil, almost colorless, and of the consistence of castor
-oil.</p>
-
-<p>If the volatile oil be, as authors have advanced, one of the
-active principles of matico, then the hydrolate must be to a
-certain extent efficacious. The hemostatic waters of Binelli,
-Broechieri, Tisseraud, &amp;c., over their property to the volatile
-oil of turpentine.</p>
-
-<p>The hydrolate may be employed both externally and internally.</p>
-
-<h4>EXTRACT OF MATICO.</h4>
-
-<p>The one which appears to us the preferable is the hydro-alcoholic.
-Introduce some rather coarse matico powder into the
-apparatus for lixiviation, pour on it the alcohol at 56° so as to
-imbibe all the powder, leave it 24 hours, open the lower cock,
-pour the same alcohol over the same matico, until the latter is
-exhausted, and then evaporate the liquid in the vapour bath, till
-it is brought to the consistence of an extract. The product is
-black, with a marked odor of matico, and a bitter taste. It is
-only partially soluble, either in alcohol or water.</p>
-
-<p>The extract of matico may be used internally in the form of
-pills, lozenges, syrup and electuary, and externally, dissolved
-or softened in the form of plasters, embrocations, plugs, lavements
-and injections.</p>
-
-<p>Matico furnishes about <sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>4</sub>
-of its weight of the hydro-alcoholic
-extract.</p>
-
-<div><span class="xxpn" id="p171">{171}</span></div>
-
-<div class="dtablebox"><div class="nowrap">
-<h4>SYRUP OF MATICO.</h4>
-<table summary="">
-<tr>
- <td class="pleft">Bruised matico,</td>
- <td class="pleft">&#x2007;&#x2008;100 parts.</td></tr>
-<tr>
- <td class="pleft">Water,</td>
- <td class="pleft">1,000 parts.</td></tr>
-</table></div></div>
-
-<p>Distil till you obtain 100 parts. Draw off the residue from
-the retort, press the matico, add to the product 700 parts of
-sugar; mix it so as to have by the addition of the hydrolate a
-syrup of ordinary consistence; filter it by Demarest’s method.</p>
-
-<p>Thus prepared, matico syrup is brownish, limpid and of an
-aromatic taste, which is not disagreeable; it contains all the
-principles, active, volatile or fixed, of the substance.</p>
-
-<p>It may be administered pure, or diluted with water. It is
-one of the easiest and most efficacious modes of administering
-matico in cases of internal hemorrhage or of flour albus.</p>
-
-<p>It represents 1-10 of its weight of matico. The spoonful being
-30 grammes, would represent 2 grammes; the tea-spoonful
-being 5 grammes, would represent <sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub> gramme.</p>
-
-<div class="dtablebox"><div class="nowrap">
-<h4>MATICO PILLS.</h4>
-<table summary="">
-<tr>
- <td class="pleft">Powdered matico,</td>
- <td class="pleft">20 grammes.</td></tr>
-<tr>
- <td class="pleft">Powdered marsh mallow</td>
- <td class="pleft">&#x2007;2 grammes.</td></tr>
-<tr>
- <td class="pleft">Syrup of gum,</td>
- <td class="pleft">Q. S.</td></tr>
-</table></div></div>
-
-<p>Make secundum artem 100 pills rolled in lycopodium. They
-are of a dark green. The weight of each pill from 40 to 50
-centigrammes, each containing 20 centigrammes of matico,
-give from 2 to 25 daily.</p>
-
-
-<div class="dtablebox">
-<h4>EXTRACT OF MATICO PILLS.</h4>
-Hydro-alcoholic
-extract of matico, 10 grammes.</div>
-
-<p>Divide secundum artem into 100 pills, which will each contain
-10 centigrammes. They are blackish. Being smaller
-they possess the advantage of being more easily swallowed.</p>
-
-<div class="dtablebox"><div class="nowrap">
-<h4>OINTMENT OF EXTRACT OF MATICO.</h4>
-<table summary="">
-<tr>
- <td class="pleft">Extract of matico,</td>
- <td class="pleft">&#x2007;5 grammes.</td></tr>
-<tr>
- <td class="pleft">Weak alcohol,</td>
- <td class="pleft">&#x2007;5 grammes.</td></tr>
-<tr>
- <td class="pleft">Lard,</td>
- <td class="pleft">20 grammes.</td></tr>
-</table></div>
-</div>
-
-<p>Make an ointment, secundum artem.</p>
-
-<div><span class="xxpn" id="p172">{172}</span></div>
-
-<div class="dtablebox"><div class="nowrap">
-<h4>TINCTURE OF MATICO.</h4>
-<table summary="">
-<tr>
- <td class="pleft">Bruised matico,</td>
- <td class="pleft">100 parts.</td></tr>
-<tr>
- <td class="pleft">Alcohol at 85°,</td>
- <td class="pleft">400 parts.</td></tr>
-</table></div></div>
-
-<p>Macerate for 10 days, express and filter. The tincture may
-also be obtained by lixiviation from the powder.</p>
-
-<p>It is used both internally and externally as a vulnerary; it
-must in the first instance be diluted with water.</p>
-
-<p>Matico not being poisonous, practitioners can trace its application
-through the widest range.</p>
-
-<div class="dkeeptogether">
-<p>We will again repeat that we only give these formulæ that
-they may be experimented on; we shall hereafter give further
-comments on the choice to be made amongst them.—<i>Bulletin
-Thèr: 30th January, 1852.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>CHEMICAL RESEARCH ON CROTON OIL.
-<span class="hsmall">
-BY M. DUBLANC.</span> <span class="htiny">
-Director of the Laboratory of the
-Central Pharmacy of the Parisian Hospitals.</span></h3>
-</div><!--section-->
-
-<p>Some interesting researches have been instituted to ascertain,</p>
-
-<ul class="ulin1">
-<li class="lihanga"><i>a.</i> Whether the croton oil contains within itself an acid
-volatile at a low temperature?</li>
-
-<li class="lihanga"><i>b.</i> Is this acid the principle of its action, and can it be preserved
-if it be separated from the oil, and diminished
-if it be allowed to evaporate?</li>
-</ul>
-
-<p>In order to answer both questions, the following operations
-have been instituted by this chemist.</p>
-
-<p>The seeds of croton, deprived of their husks, ground at the
-mill, and subject to pressure, yield a certain quantity of oil.—If
-the residuum be mixed with double its quantity of alcohol
-and pressed again, it yields a liquid which is a
-mixture of oil <span class="xxpn" id="p173">{173}</span>
-and alcohol. This liquid, when distilled, will yield more oil.
-Both oils are filtered, after having been allowed to settle.</p>
-
-<p>The produce of this first operation is the natural croton oil,
-such as it exists in the seeds, which is of a brown amber color, viscid,
-having a peculiar smell, and possessed of great acidity, by
-which if applied to the skin, it produces an irritation varying
-in intensity according to its quantity, and the duration of time
-during which it has been applied. One drop, for instance,
-causes a blister in twelve hours.</p>
-
-<p>If a piece of litmus paper be dipped in this oil, it turns red,
-and re acts acid; and the red color, though not deep, resists
-the action of the air and of a hot furnace.</p>
-
-<p>The oil obtained by distillation from a solution in alcohol is
-rather more dark, viscid, and acid, than that obtained by simple
-expression.</p>
-
-<p>The blue paper dipped in the oil obtained by distillation,
-reddens, and retains the color under the same circumstances as
-the former.</p>
-
-<p>The second operation, however, offers already a fact which is
-of great value in deciding the question about the acidity of the
-croton oil. If you dip the litmus paper in the fluid which is
-gained by distillation, no traces of a change of color is visible;
-when, on the other hand, if you dip it in the oil which remains
-in the distilling apparatus, it changes the color as quickly as if
-dipped in the oil previous to distillation. The same is the
-case if the residuum is again acted upon with water or alcohol,
-the distilled fluid has no traces of acidity.</p>
-
-<p>However, since the contrary opinion is entertained by good
-authorities, we must add other facts in corroboration of our own.</p>
-
-<p>Croton oil was extracted by the action of ether upon the
-seeds. The ethereal solution containing croton oil in suspension
-was acid: it was placed in a glass vessel with two openings.
-One of them admitted a straight tube, and reached to the bottom
-of the vessel, admitting the introduction of external air:
-the other communicated with
-Woulfe’s apparatus, composed, <span class="xxpn" id="p174">{174}</span></p>
-
-<p>1. Of the globular tube after Liebig, containing blue solution
-of litmus.</p>
-
-<p>2. Another globular tube filled with alcohol.</p>
-
-<p>3. An angular tube in connection with a large vessel full of
-water, giving an inferior running to the liquid, and causing the
-air to pass across the thick layer of ethereal oil, to lead the
-volatile principles in contact with the liquor destined to retain
-them. The apparatus being arranged, it was put in action by
-causing the water to run which was contained in the large vessel.
-The vacuum having begun, air was introduced to the bottom of
-the ethereal liquid, keeping up this action till the ether was totally
-evaporated. Consequently, the air has agitated the liquid long
-enough to remove in a state of vapour all the ether which was
-contained in the mixture. Nevertheless, the tincture of Turnesol,
-which opposed the passage of the vapours of ether and
-water, did not change into red, which would have happened if
-the volatile principles should have contained any acid. Neither
-did the alcohol which was acted upon by the same current exhibit
-any sign of acid. The air saturated with ether arrived in
-the vessel to replace the water had no acid property; its action
-upon the eye-lids and nostrils was pungent and irritating, but
-not that of an acid. Another experiment was made with the
-same apparatus, having always in view to cause a great quantity
-of air to pass through croton oil. But this time, instead of
-causing the current to pass through a mass of ethereal solution,
-it was caused to pass through pure croton oil. The large vessel
-was this time not quite filled with water, allowing space to
-introduce on its upper part two sponges, one filled with oil,
-the other with ether. Things being thus arranged, the liquid
-was set running, and the air rushed through the oil, coming in
-at the bottom of the liquid and spreading through the surface,
-causing a lengthened ebullition. The mass of air employed in
-this operation was not below two centimetres. The tincture of
-litmus contained in the globular tubes was not altered; the oil
-contained in the sponge was neither acid, pungent, or corrosive.
-The ether acted upon by too much air
-had disappeared, the <span class="xxpn" id="p175">{175}</span>
-sponge was dry. These two proofs appear to be conclusive,
-and to show that the croton oil does not contain an active volatile
-acid, otherwise it would have been made manifest by being
-carried away by the ether in the first case, or by its proper
-volatility in the second.</p>
-
-<p>Is it, however, possible to separate the active volatile principle
-from the mere neutral oil? It has been said by several
-authors that the croton oil was composed of two different oils,
-but this was a mere statement which required to be proved by
-facts. To solve this problem, the oil employed in the experiments
-was obtained by means of ether. The seeds of croton
-yield by expression 35 per cent.; treated by ether, they
-yield from 52 to 55 per cent. If treated by ether, the
-ether obtained by distillation is free from acid, all the acid remaining
-in the oil. When a certain fixed quantity of this oil
-is put in contact with ten times its weight of strong alcohol, the
-alcohol dissolves 6 per cent. of its own weight, and the oil 50
-per cent.</p>
-
-<p>The portion of the insoluble oil has lost its color, its smell, a
-part of its pungency, and all its acidity.</p>
-
-<p>The portion of oil which has been dissolved in alcohol, when
-separated from this menstruum by evaporation, is more viscid,
-more colored, more pungent, and acid. The oil which is not
-dissolved, can be acted upon again by alcohol; by this second
-operation, it yields some parts to the alcohol, and the remainder
-loses all its specific qualities. The action of alcohol upon oil
-in successive operation, can be followed up to its last limits.</p>
-
-<p>Twenty volumes of oil mixed with 100 volumes of alcohol,
-will be followed by the reduction of five volumes of oil. In
-the next operation, when the alcohol is renewed, the volume of
-the columns of oil lowers only three volumes instead of five.
-By a fourth operation, the oil loses not a single volume. When
-reduced to this state, the croton oil is slightly amber-colored,
-without smell, taste, or acidity; it can be taken in the mouth
-without causing any sensation. It is soluble in all proportions
-in ether. Its specific gravity is, 92 compared with that of
-water. <span class="xxpn" id="p176">{176}</span></p>
-
-<p>Thus we find by experiments an evident proof of the co-existence
-of a sweet oil with the pungent croton oil.</p>
-
-<p>All the specific properties of the croton oil are carried over
-in that dissolved by alcohol.</p>
-
-<p>Is it possible by further processes to separate these active
-principles from the oily matter that contains them?</p>
-
-<p>To solve this question we resorted to the following experiment:―</p>
-
-<p>We took two kilogrammes of croton oil, and for several
-days we left it in contact with half a kilogramme of alcohol.
-A distinct separation took place. The upper part, composed
-of oil and alcohol, did not represent the exact quantity employed;
-which is explained by the power which the oil has to
-dissolve 10 per cent. of alcohol. The upper part being decanted,
-it was necessary to remove the alcohol, to avoid the inconvenience
-which might have arisen by employing heat for
-this purpose. Water was added to this liquid, which having
-become turbid, ether was added. Thus the oil came with the
-ether to the surface. The ether was removed by free evaporation.
-During this lengthened process, the effluvia was so pungent
-as to affect the eyes and nostrils of the operator, and cause
-blisters to rise on his face. The oil thus obtained is dark-brown,
-opaque, thick, possessed of a strong smell and acidity. Applied
-to the skin, it causes almost instantaneous pain, followed
-by a blister. It is soluble in all proportions in alcohol and
-ether. Mixed with nine parts of its volume of olive oil, it
-forms a liquid possessing specific qualities stronger than those
-of common croton oil.</p>
-
-<p>These facts prove the mobility of the active principles of
-croton oil, and the possibility of succeeding in obtaining them
-free from all fatty matter by chemical ingenuity, a task which
-will be the object of further experiments.</p>
-
-<p>The results from the above experiments are the following:―</p>
-
-<p>1. That the croton oil does not contain a volatile acid.</p>
-
-<p>2. That the sensible acid in croton oil is fixed or retained in
-the oil, and cannot be separated from it by a heat at 212° Fahr.,
-or even by distillation. <span class="xxpn" id="p177">{177}</span></p>
-
-<p>3. That the acrid volatile principle, which exists in this oil,
-possesses not the qualities of an acid, and has hitherto withstood
-the chemical operations which were instituted to extract it.</p>
-
-<p>4. That the active principles of croton oil are capable of being
-separated from one part of the oil, and concentrated in the
-other.</p>
-
-<p>5. That croton oil is not homogeneous in its composition, but
-is formed of two parts, one inert, of which alcohol is unable to
-dissolve more than one-tenth, and a more soluble part, which
-carries with it all the active principles.</p>
-
-<p>6. That the greatest degree of concentration of the active
-principles, is by acting upon a large quantity of oil with a small
-quantity of alcohol.</p>
-
-<div class="dkeeptogether">
-<p>7. That either may be usefully employed in manufacturing
-croton oil.—<i>Repertoire de Pharmacie.</i>—<i>From the Annals
-Pharmacy</i>, 1852.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON ALOINE, THE CRYSTALLINE CATHARTIC
-PRINCIPLE OF BARBADOES ALOES.
-<span class="hsmall">
-BY JOHN STENHOUSE, L.L.D., F.R.S.L., &amp; E.</span></h3>
-</div><!--section-->
-
-<p>About two months ago I received from my friend, Mr.
-Thomas Smith, apothecary, Edinburgh, a quantity of a brownish
-yellow crystalline substance which he had obtained from
-Barbadoes aloes. Mr. Smith’s process consisted in pounding
-the previously dried aloes with a quantity of sand, so as to prevent
-its agglutinating, macerating the mass repeatedly with
-cold water, and then concentrating the liquors <i>in vacuo</i> to the
-consistence of a syrup. On remaining at rest in a cool place
-for two or three days, the concentrated extract became filled
-with a mass of small granular crystals of
-a brownish yellow <span class="xxpn" id="p178">{178}</span>
-color. This is the crude substance to which Mr. Smith has
-given the name of Aloine, and which appears to constitute the
-cathartic principle of aloes. The brownish yellow crystals obtained
-in this way are contaminated with a greenish brown
-substance, which changes to brownish black on exposure to the
-air, and still more rapidly when it is boiled. In order to purify
-the crystals of aloine, therefore, they must first be dried by
-pressure between folds of blotting-paper, and then repeatedly
-crystallized out of hot water till they have only a pale sulphur
-yellow color. The aqueous solutions of aloine must on no
-account be boiled, but simply heated to about 150° F., as at
-212° F. aloine is rapidly oxidized and decomposed. By dissolving
-the purified crystals of aloine in hot spirits of wine,
-they are deposited, on the cooling of the solution, in small prismatic
-needles arranged in stars. When these crystals have a
-pale yellow color, which does not change when they are dried
-in the air they may be regarded as pure aloine.</p>
-
-<p>Aloine is quite neutral to test-paper. Its taste is at first
-sweetish, but soon becomes intensely bitter. Aloine is not very
-soluble either in cold water or in cold spirits of wine; but if the
-water or the spirits of wine are even slightly warmed, the solubility
-of the aloine is exceedingly increased: the color of these
-solutions is pale yellow. Aloine is also very readily dissolved
-by the carbonated and caustic fixed alkalies in the cold, forming
-a deep orange yellow solution, which rapidly grows darker,
-owing to the oxidation which ensues. The effects of ammonia
-and its carbonate are precisely similar. When aloine is boiled
-either with alkalies or strong acids, it is rapidly changed into
-dark brown resins. A solution of bleaching powder likewise
-gives aloine a deep orange color, which soon changes to dark
-brown. Aloine produces no precipitate in solutions either of
-corrosive sublimate, nitrate of silver, or neutral acetate of lead.
-It also yields no precipitate with a dilute solution of subacetate
-of lead; but in a concentrated solution it throws down a deep
-yellow precipitate, which is pretty soluble in cold water, and is
-therefore difficult to wash. This precipitate is
-by no means <span class="xxpn" id="p179">{179}</span>
-very stable; and when it is exposed even for a short time to
-the air, it becomes brown.</p>
-
-<p>When powdered aloine is thrown, in small quantities at a
-time, into cold fuming nitric acid, it dissolves without evolving
-any nitrous fumes, and forms a brownish-red solution. On
-adding a large quantity of sulphuric acid, a yellow precipitate
-falls, which, when it is washed with water to remove all adhering
-acid and then dried, explodes when it is heated. It
-plainly, therefore, contains combined nitric acid. I could not,
-however, succeed in obtaining this compound in a crystalline
-state, as when it was dissolved in spirits, it appeared to be
-decomposed. When aloine is digested for some time with
-strong nitric acid, much nitrous gas is evolved, and it is converted
-into chrysammic acid, but without the formation of any
-nitro-picric acid, as is always the case when crude aloes is subjected
-to a similar treatment. A quantity of aloine was boiled
-with a mixture of chlorate of potash and muriatic acid. The
-acid solution was evaporated to dryness, and digested with
-strong spirits of wine. The greater portion of the spirits was
-removed by distillation; and the remainder, when left to spontaneous
-evaporation; yielded a syrup which could not be made
-to crystallize. Not a trace of chloranil was produced.</p>
-
-<p>When aloine is destructively distilled, it yields a volatile oil
-of a somewhat aromatic odor, and also a good deal of resinous
-matter. When aloine is heated on platinum foil it melts, and
-then catches fire, burning with a bright yellow flame, and
-emitting much smoke. It leaves a somewhat difficultly combustible
-charcoal, which, when strongly heated, entirely disappears,
-not a trace of ashes being left.</p>
-
-<p>A quantity of aloine dried <i>in vacuo</i> was analyzed with chromate
-of lead in the usual way.</p>
-
-<p>I. 0.2615 grm. aloine gave 0.5695 carbonic acid and 0.14
-water.</p>
-
-<p>II. 0.2415 grm. aloine gave 0.5250 carbonic acid and 0.126
-water. <span class="xxpn" id="p180">{180}</span></p>
-
-<div class="dtablebox"><div class="nowrap">
-<table summary="">
-<tr>
- <th></th>
- <th colspan="2">Hydrated aloine.</th>
- <th colspan="2">Found numbers.</th></tr>
-<tr>
- <th></th>
- <th colspan="2">Calculated numbers.</th>
- <th>I.</th>
- <th>II.</th></tr>
-<tr>
- <td class="pleft">34 C</td>
- <td class="pright">2550.0</td>
- <td class="pright">59.47</td>
- <td class="pright">59.39</td>
- <td class="pright">59.24</td></tr>
-<tr>
- <td class="pleft">19 H</td>
- <td class="pright">237.5</td>
- <td class="pright">5.54</td>
- <td class="pright">5.97</td>
- <td class="pright">5.79</td></tr>
-<tr>
- <td class="pleft">15 O</td>
- <td class="pright">1500.0</td>
- <td class="pright">35.09</td>
- <td class="pright">34.64</td>
- <td class="pright">34.97</td></tr>
-<tr>
- <td class="pright"></td>
- <td class="pright"><span class="tdsum">4287.5</span></td>
- <td class="pright"><span class="tdsum">100.00</span></td>
- <td class="pright"><span class="tdsum">100.00</span></td>
- <td class="pright"><span class="tdsum">100.00</span></td></tr>
-</table></div></div>
-
-<p>The formula derivable from these analyses is C<sub>34</sub>&#x202f;H<sub>19</sub>&#x202f;O<sub>15</sub>,
-which, as we shall presently see, is = C<sub>34</sub>&#x202f;H<sub>18</sub>&#x202f;O<sub>14</sub> +HO, or
-aloine with one equivalent of water.</p>
-
-<p>The aloine which had been dried <i>in vacuo</i> was next heated
-in the water-bath for five or six hours, and was also subjected
-to analysis.</p>
-
-<p>I. 0.251 grm. aloine dried at 212° F. gave 0.550 carbonic
-acid and 0.128 water.</p>
-
-<p>II. 0.2535 grm. aloine dried at 212° F. gave 0.564 carbonic
-acid and 0.129 water.</p>
-
-<p>III. 0.234 grm. aloine dried at 212° F. gave 0.521 carbonic
-acid and 0.114 water.</p>
-
-<div class="dtablebox"><div class="nowrap">
-<table summary="">
-<tr>
- <th></th>
- <th colspan="2">Calculated numbers.</th>
- <th>I.</th>
- <th>II.</th>
- <th>III.</th></tr>
-<tr>
- <td class="pleft">34 C</td>
- <td class="pright">2550</td>
- <td class="pright">61.07</td>
- <td class="pright">60.51</td>
- <td class="pright">60.67</td>
- <td class="pright">60.72</td></tr>
-<tr>
- <td class="pleft">18 H</td>
- <td class="pright">225</td>
- <td class="pright">5.39</td>
- <td class="pright">5.66</td>
- <td class="pright">5.65</td>
- <td class="pright">5.42</td></tr>
-<tr>
- <td class="pleft">14 O</td>
- <td class="pright">1400</td>
- <td class="pright">33.54</td>
- <td class="pright">33.83</td>
- <td class="pright">33.68</td>
- <td class="pright">33.86</td></tr>
-<tr>
- <td class="pright"></td>
- <td class="pright"><span class="tdsum">4175</span></td>
- <td class="pright"><span class="tdsum">100.00</span></td>
- <td class="pright"><span class="tdsum">100.00</span></td>
- <td class="pright"><span class="tdsum">100.00</span></td>
- <td class="pright"><span class="tdsum">100.00</span></td></tr>
-</table></div></div>
-
-<p>The aloine employed in these analyses was prepared at three
-different times. These results give C<sub>34</sub>&#x202f;H<sub>18</sub>&#x202f;O<sub>14</sub> as the formula
-of anhydrous aloine, that dried <i>in vacuo</i> being a hydrate with
-one equivalent of water.</p>
-
-<p>When the aloine was allowed to remain in the water-bath for
-more than six hours, it continued slowly to lose weight, apparently
-owing to its undergoing partial decomposition by the
-formation of a brownish resin. The loss of weight gradually
-continued for a week or more, but became very rapid when the
-aloine was heated to 302° F., when it melted, forming a dark
-brownish mass, which when cooled became as
-hard and brittle <span class="xxpn" id="p181">{181}</span>
-as colophonium. It still, however, contained a good deal of
-unaltered aloine, as I ascertained by crystallizing it out with
-hot spirits and analyzing it. Much of the aloine, however, had
-been changed, most probably by oxidation, into a dark brown
-un­cry­stal­li­za­ble resin.</p>
-
-<p><span class="smcap">B<b>ROM-ALOINE.</b></span>—When an excess of bromine is poured into a
-cold aqueous solution of aloine, a bright yellow precipitate is
-immediately produced, the amount of which increases on
-standing, while at the same time the supernatant liquid becomes
-very acid from containing free hydrobromic acid. The precipitate,
-after it has been washed with cold water to remove adhering
-acid, is dissolved in hot spirits of wine; and on the cooling
-of the solution it is deposited in bright yellow needles
-radiating from centres, which attach themselves to the bottom
-and sides of the containing vessel.</p>
-
-<p>The crystals of brom-aloine are considerably broader than
-those of aloine, and have a richer yellow color and a higher
-lustre. Brom-aloine is quite neutral to test-paper, is not so soluble
-in either cold water or cold spirits of wine as aloine, but
-dissolves very readily in hot spirits of wine.</p>
-
-<p>I. 0.421 grm. substance dried in vacuo gave 0.547 carbonic
-acid and 0.103 water.</p>
-
-<p class="pin2">0.856 grm. gave 0.848 bromide of silver = 42.16 Br.</p>
-
-<p>II. 0.300 grm. substance gave 0.391 carbonic acid and 0.078
-water.</p>
-
-<p class="pin2">0.661 grm. substance gave 0.649 bromide of silver = 0.2762
-Br. = 41.78 per cent.</p>
-
-<div class="dtablebox"><div class="nowrap">
-<table summary="">
-<tr>
- <th></th>
- <th colspan="2">Calculated numbers.</th>
- <th>I.</th>
- <th>II.</th></tr>
-<tr>
- <td class="pleft">34 C</td>
- <td class="pright">2550.00</td>
- <td class="pright">35.73</td>
- <td class="pright">35.43</td>
- <td class="pright">35.53</td></tr>
-<tr>
- <td class="pleft">15 H</td>
- <td class="pright">187.50</td>
- <td class="pright">2.62</td>
- <td class="pright">2.71</td>
- <td class="pright">2.86</td></tr>
-<tr>
- <td class="pleft">14 O</td>
- <td class="pright">1400.00</td>
- <td class="pright">19.63</td>
- <td class="pright">19.70</td>
- <td class="pright">19.83</td></tr>
-<tr>
- <td class="pleft">&#x2007;3 Br</td>
- <td class="pright">2998.89</td>
- <td class="pright">42.02</td>
- <td class="pright">42.16</td>
- <td class="pright">41.78</td></tr>
-<tr>
- <td class="pright"></td>
- <td class="pright"><span class="tdsum">7136.39</span></td>
- <td class="pright"><span class="tdsum">100.00</span></td>
- <td class="pright"><span class="tdsum">100.00</span></td>
- <td class="pright"><span class="tdsum">100.00</span></td></tr>
-</table></div></div>
-
-<p>The brom-aloine employed in these analyses was prepared at
-two different times. It is plain therefore
-from these results, <span class="xxpn" id="p182">{182}</span>
-that this bromine compound is aloine, C<sub>34</sub>&#x202f;H<sub>18</sub>&#x202f;O<sub>14</sub> in which 3
-equivs. of hydrogen are replaced by 3 equivs. of bromine.—The
-formula of brom-aloine therefore is C<sub>34</sub>&#x202f;H<sub>15</sub>&#x202f;O<sub>14</sub>&#x202f;Br<sub>3</sub>.</p>
-
-<p>When a stream of chlorine gas was sent for a considerable
-time through a cold aqueous solution of aloine, a deep yellow
-precipitate was produced. It contained a great deal of combined
-chlorine; but as it could not be made to crystallize, it
-was not subjected to analysis. In the present instance, and in
-those of several other feeble organic principles, such as orcine,
-chlorine appears to act some what too strongly, so that the constitution
-of the substance is destroyed, and merely un­cry­stal­li­za­ble
-resins are produced. Bromine, on the other hand, is much
-more gentle in its operations, and usually simply replaces a
-moderate amount of the hydrogen in the substance, so that, as
-in the case of orcine and aloine, crystalline compounds are produced.</p>
-
-<p>It has long been known to medical practitioners, that the
-aqueous extract of aloes is by far the most active preparation
-of that drug. The reason of this is now very plain, as the concentrated
-extract of aloes obtained by exhausting aloes with
-cold water consists chiefly of aloine, by much the larger portion
-of the resin being left undissolved. Mr. Smith informs me, that
-from a series of pretty extensive trials, from 2 to 4 grs. of aloine
-have been found more effective than from 10 to 15 grs. of ordinary
-aloes. Aloine is, I should think, therefore, likely ere long, to
-supersede, at least to a considerable extent, the ad­min­i­stra­tion
-of crude aloes.</p>
-
-<p>I endeavored to obtain aloine by operating on considerable
-quantities of Barbadoes, Cape and Socotrine aloes. These were
-macerated in cold water, and the aqueous solutions obtained were
-concentrated to the state of thin extracts on the water-bath. I
-was quite unsuccessful in every instance. The impurities contained
-in the extracts in these different kinds of aloes appear,
-when in contact with the oxygen of the air, to act upon the
-aloine so as effectually to prevent it from crystallizing. Aloine
-can only, therefore, be obtained in a crystalline
-state by <span class="xxpn" id="p183">{183}</span>
-concentrating the cold aqueous solution of aloes <i>in vacuo</i>; though,
-after the aloine has once been crystallized, and it is freed from
-the presence of those impurities which appear to act so injuriously
-upon it, the aloine may be quite readily crystallized out
-of its aqueous solutions in the open air.</p>
-
-<p>Though aloine has as yet only been obtained from Barbadoes
-aloes, I have scarcely any doubt that it also exists both in Cape
-and Socotrine aloes. The amount of aloine in Cape aloes, is,
-however, in all probability, much smaller than in either of the
-other two species; for Cape aloes is well known to be a much
-feebler cathartic, and to contain a mass of impurities. In corroboration
-of this opinion, I would refer to the fact already
-mentioned in a previous part of this paper, viz. that when aloine
-is digested with nitric acid, it is converted into Dr. Schunck’s
-chrysammic acid. Now it has been satisfactorily ascertained
-that all the three species of aloes yield chrysammic acid, of
-which in fact they are the only known sources. Cape aloes, as
-might have been expected, yields by far the smallest amount
-of chrysammic acid together with much oxalic and some nitro-picric
-acids. There appears, therefore, great reason to believe
-that all the three kinds of aloes contain aloine.</p>
-
-<p>Since the above was written, I have learned from Mr. Smith
-that he has not succeeded in obtaining crystallized aloine from
-either Cape or Socotrine aloes. Mr. Smith does not doubt that
-both of these species of aloes also contain aloine, though, most
-probably contaminated with so much resin, or some other substances,
-as prevents it from crystallizing. What tends to
-confirm Mr. Smith in this opinion is the observation he has
-made, that when the crude crystals of aloine are allowed to
-remain in contact with the mother liquor of the Barbadoes
-aloes, they disappear and become un­cry­stal­li­za­ble. I have also
-observed a similar occurrence in the mother-liquors of tolerably
-pure aloine. These become always darker and darker; so that
-if we continue to dissolve new quantities of aloine in them, at
-length scarcely any of it crystallizes out, and the whole becomes
-changed into
-a dark-colored magma. <span class="xxpn" id="p184">{184}</span></p>
-
-<p>In the year 1846, M. E. Robiquet published an account of
-an examination he had made of Socotrine aloes. By treating
-the concentrated aqueous solution of this species of aloes with
-basic acetate of lead, he obtained a brownish yellow precipitate,
-which was collected on a filter and washed with hot water.
-On decomposing this lead compound with sulphuretted hydrogen
-and evaporating the solution to dryness, he obtained an
-almost colorless varnish, consisting of a scaly mass, which was
-not in the least degree crystalline. M. E. Robiquet subjected
-his substance, which he called aloetine, to analysis, and obtained
-the following result:―</p>
-
-<div class="dtablebox"><div class="nowrap">
-<table summary="">
-<tr>
- <td class="pleft">&#x2007;8&#160;C&#160;=</td>
- <td class="pleft">&#x2007;27.7 per cent.</td></tr>
-<tr>
- <td class="pleft">14 H =</td>
- <td class="pleft">&#x2007;10.8 per cent.</td></tr>
-<tr>
- <td class="pleft">10 O =</td>
- <td class="pleft">&#x2007;61.5 per cent.</td></tr>
-<tr>
- <td></td>
- <td class="pleft"><span class="tdsum">100.0</span></td></tr>
-</table></div></div>
-
-<div class="dkeeptogether">
-<p>It is plain, therefore, that M. E. Robiquet’s aloetine, if it
-really is a definite organic principle, which I very much
-question, is certainly a very different substance from the aloine
-which has formed the subject of the present notice.—<i>London
-and Edinburgh Philosophical Magazine.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON HENRY’S MAGNESIA.
-<span class="hsmall">
-BY DR. MOHR.</span></h3>
-</div><!--section-->
-
-<p>In England, under this name is sold a calcined magnesia, at
-a very high price, which is not to be obtained in any other way.
-Many English travelers, as well as most of their countrymen,
-believe that they possess a very large knowledge of medicines,
-because such things as blue pills, calomel, sweet spirits of nitre,
-and laudanum they administer without
-medical advice, and <span class="xxpn" id="p185">{185}</span>
-bring this magnesia with them to our shops when they wish a
-recipe to be dispensed, which contains calcined magnesia as
-one of the ingredients. By such opportunities, I became acquainted
-with the purity and beauty of this preparation, and
-its peculiar silky gloss and whiteness. With a view to discover
-its method of preparation, I made the following research:―</p>
-
-<p>By heating to redness the ordinary carbonate of magnesia, it
-is not to be obtained. The ordinary magnesia of commerce,
-which produces by a red heat a fine calcined magnesia, I exposed
-in a crucible, to a strong white heat. It solidified, and
-was of a yellow color, and had become so hard that it was only
-with the greatest labor that it could be powdered and sifted.
-Prepared in this way, it cannot be used. I now prepared some
-carbonate of magnesia, observing that Henry’s was very dense,
-without reference to that result, which was very fine, by precipitation
-in the heat. The process by which the flocculent
-magnesia of commerce is obtained, is not explained in any
-chemical works. Pure sulphate of magnesia, free from iron,
-was dissolved in distilled water, and a solution of carbonate of
-soda added to it as long as anything was precipitated by a boiling
-heat. The ebullition was continued until the mixture ceased
-to evolve carbonic acid, and set aside for decantation. When
-decanted, fresh distilled water was added to the precipitate,
-and the whole again boiled, and afterwards placed on a filter
-and washed with hot distilled water, until the liquid passing
-from the filter gave no trace of sulphuric acid. The precipitate,
-when pressed and dried, was very white and dense. It
-was exposed to an intense white heat in a closely-covered Hessian
-crucible for one hour. When the crucible was opened, I
-found a beautifully white magnesia, finely granulated. Where
-it had come in contact with the crucible, it had acquired a
-yellow color, from the peroxide of iron contained in the crucible.
-The yellow portion alone adhered firmly to the crucible
-and the rest was perfectly white, and readily removed. In
-acids, this magnesia was with difficulty dissolved, although ultimately
-completely soluble therein. By a
-repetition of this <span class="xxpn" id="p186">{186}</span>
-process, an identical result was obtained. The magnesia thus
-produced in small lumps exhibited by transmitted light a slight
-rosy tint, and by reflected light, a very white color. In these
-respects, it agrees perfectly with Henry’s. To determine its
-comparative density, a cubic inch measure was filled with its
-powder, and weighed. As the results of three trials, it contained
-respectively 10,74, 11,19, and 11,18 grammes of the powder.
-Two experiments with Henry’s magnesia gave 7, and 7,2
-grammes. Three of the carbonate of magnesia, prepared
-by heat, gave 12,68, 12,9, and 12,5 grm. One of the ordinary
-calcined magnesia gave 1,985 grm.; and one of the ordinary
-carbonate of magnesia, 1,4 grm.</p>
-
-<p>The calcined magnesia, as above prepared, contains some
-hard particles, which are very difficult to pulverize. In attempting
-to powder them, I remarked that this magnesia, which
-was washed before being burnt until no traces of sulphuric acid
-could be detected, now afforded an evidence of a small portion
-still being present. This same observation I have previously
-made in the preparation of oxide of zinc. To remove this contamination,
-I recommend that carbonate of magnesia should
-first be lightly burnt, and then well washed with hot water, and
-again burnt with a very strong heat.</p>
-
-<div class="dkeeptogether">
-<p>The above determinations of the density of the magnesias
-must not be confounded with their specific gravity. To ascertain
-the latter is a task of great difficulty, for Rose, in attempting
-it, obtained such discrepant results, that he has withheld
-them. The specific gravity of Henry’s magnesia, as near as it
-could be ascertained, is from 2,50 to 2,67. The magnesia prepared
-according to my process, gave 3,148 as its specific
-weight.—<i>Buchner’s Repertorium, in Annals of Pharmacy.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>MEDICINE AND PHARMACY IN BRAZIL.</h3>
-</div><!--section-->
-
-<p>In the entire Brazilian empire, there are two national faculties
-of medicine, termed <i>Escola Imperial de Medecina</i>, one
-established at Rio de Janeiro, the other
-at Bahia—the present <span class="xxpn" id="p187">{187}</span>
-and former capitals of Brazil. Both are constituted exactly
-alike in laws, forms, number of professors, modelled, with very
-trifling difference, after the constitution of the <i>Ecole de Médecine</i>
-of Paris. Each college consists of fourteen professors, and
-six substitute professors, with a director and a vice-director,
-answering to our own dean and vice-dean of the faculty. The
-latter are named by Government, from a triple list sent up by
-the professors every third year, and discharge the ordinary duties
-of their chairs, being only exempt from attending the examinations.
-They possess a limited controling power over
-their college, and constitute the official channel of communication
-with Government and public bodies, on all matters relating
-to public health, prisons, &amp;c. The duties of professor-substitute
-are explained in the name. When illness, or public
-employment—the latter not unusual in Brazil—interferes with
-the duties of the professor, his chair is supplied by the substitute:
-both are appointed, as in France, by <i>concours</i>. Most of
-the older members have graduated in Portugal, Scotland,
-France, or Italy. Both classes receive a fixed income from the
-State, and derive no emolument whatever from pupils and examination
-fees, &amp;c. which are applied to public purposes connected
-with the college. The income of the professor was fixed
-at twelve hundred <i>mil-reis</i> per annum—(about three hundred
-pounds) when first established; and that of the professor-substitute
-at eight hundred <i>mil-reis</i>. Both enjoy the right of retirement
-on their full salary, after twenty years’ service, or when
-incapacitated by age or infirmities. A travelling professor is
-elected by <i>concours</i> by the faculty, every four years, for the
-purpose of investigating, in the different countries of Europe,
-the latest improvements and discoveries in medicine and the
-collateral sciences, an account of which he regularly transmits,
-in formal reports, to his college. His expenses are defrayed by
-the State.</p>
-
-<p>The medical faculty consists of the following chairs:—1,
-physics; 2, botany; 3, chemistry; 4, anatomy; 5, physiology;
-6, external pathology; 7, internal pathology;
-8, materia <span class="xxpn" id="p188">{188}</span>
-medica; 9, hygiene; 10, operations; 12, midwifery; 13, clinical
-medicine; 14, clinical surgery.</p>
-
-<p>In addition to the professors, there is a secretary (medical),
-treasurer, librarian, and chemical assistant—all elected by the
-faculty.</p>
-
-<p>The order of study is as follows:—first year, medical physics
-and medical botany; second year, chemistry and general and
-descriptive anatomy; third year, anatomy and physiology;
-fourth year, external pathology, internal pathology, pharmacy
-and materia medica; fifth year, operative medicine and midwifery;
-sixth year, hygiene, history of medicine, and legal
-medicine.</p>
-
-<p>All examinations are public, and the subjects are drawn by
-lot.</p>
-
-<p>The titles conferred by the faculty, are only three, viz., Doctor
-in Medicine, Apothecary, and Midwife. The latter is specially
-educated and examined.</p>
-
-<p>In each chief city there are commonly three or four large
-hospitals—the Misericordia, or Civil Hospital, possessed of
-ample funds from endowments, legacies, and certain taxes; the
-Military and Naval Hopitals; and in Rio, Bahia, and Pernambuco,
-Leper Hospitals. There are also infirmaries attached to
-convents. Private subscriptions to institutions are utterly
-unknown.</p>
-
-<p>The academical session lasts for eight months—from 1st
-March to 30th October—lectures being delivered daily (with
-some exceptions) by the professors or their substitutes. The
-professors of clinical medicine and surgery have the right of
-selecting their cases from the Misericordia Hospital.</p>
-
-<p>The student, previous to matriculation, must take his degree
-in arts; and the curiculum is the same for all, viz., six years
-to obtain the degree of Doctor in Medicine. The examinations
-are conducted as in Paris. For the degree of Doctor in Surgery—which,
-however, is not essential—a subsequent and special
-examination must be undergone, as in France.</p>
-
-<p>All students are classified, on entering
-college, into <i>medical</i> <span class="xxpn" id="p189">{189}</span>
-and <i>phar­ma­ceu­ti­cal</i>; and both are obliged to obtain the degree
-in arts before they can be matriculated, and to have completed
-their sixteenth year. The phar­ma­ceu­ti­cal student obtains his
-diploma of pharmacy after three years study; while that of
-medicine can only be obtained after six years. The student of
-pharmacy is obliged to repeat the courses of medical physics,
-botany, chemistry, pharmacy and materia medica; while one
-course only of each is required from the medical pupil. The
-phar­ma­ceu­ti­cal student is obliged to attend for three years in
-a pharmacy, after the conclusion of his academical studies. He
-then undergoes an examination by the faculty, and publicly
-defends a thesis to obtain his diploma. His duty afterwards,
-as apothecary, is strictly limited to the sale of drugs, and the
-compounding of prescriptions. He is never consulted professionally;
-and, did he attempt to apply a remedy for the cure
-of any disease, he would be immediately fined fifty <i>mil-reis</i> by
-the municipality, for the first, and an increasing fine for every
-subsequent offence; and, did he still persist, his licence would
-be withdrawn. On the other hand, the medical practioner is
-strictly prohibited from the compounding or sale of medicines,
-in any shape or form.—<i>Dundas’s Sketches of Brazil.</i></p>
-
-<hr class="hr34" />
-
-<div class="section">
-<h3>CHEMICAL EXAMINATION OF BROOM.
-<span class="hsmall">
-(CYTISUS SCOPARIUS D. C.)</span>
-<span class="hsmall">
-BY DR. STENHOUSE.</span></h3>
-</div><!--section-->
-
-<p>The broom plants examined by Dr. Stenhouse, had an uncommonly
-bitter taste. The watery decoction, evaporated
-down to a tenth part, leaves a gelatinous residue, which consists
-chiefly of scoparin. This is a yellow colored substance, which,
-when purified, can be got in stellate crystals, and is easily soluble
-in boiling water and spirit of wine. Dr. Stenhouse, from
-five ultimate analyses, assigns it to the
-constitution C<sub>21</sub>&#x202f;H<sub>11</sub>&#x202f;O<sub>10</sub>.</p>
-
-<p>Scoparin is, according to an extensive series of experiments
-by Dr. Stenhouse, the diuretic principle of broom, which has
-been recognised by Mead, Cullen, Pearson,
-Pereira, and others, <span class="xxpn" id="p190">{190}</span>
-as one of the most efficacious remedies in dropsy. The dose
-for an adult is 5 or 6 grains. Its diuretic action begins in 12
-hours, and the urine under its use is more than doubled in
-quantity.</p>
-
-<p>From the mother liquor of the crude scoparin, Dr. S. obtained,
-by distillation, a colorless oily liquid, which, when purified,
-was found to be a new volatile organic base spartein. This
-has a peculiarly bitter taste, and possesses powerful narcotic
-properties. A single drop dissolved by means of acetic acid,
-affected a rabbit so much, that it lay stupified for 5 or 6 hours.
-Another rabbit, which took four grains, first went into a state
-of violent excitement, then fell into sopor and died in three
-hours. The author observes that shepherds have long been acquainted
-with the excitant and narcotic action of broom.</p>
-
-<div class="dkeeptogether">
-<p>The proportion of Scoparin and spartein, varies very much
-in plants grown in different localities, which probably explains
-the very different accounts given by practitioners of its activity
-as a drug. The author suggests that it would be better to employ
-pure scoparin free from admixture of spartein.—<i>Edin.
-Monthly Jour. of Medical Science.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="chapter dedtrl">
-<h3>EDITORIAL.</h3>
-
-<hr class="hr12" />
-
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">P<b>OISONING</b></span>
-<span class="smmaj">BY</span>
-<span class="smcap">T<b>INCTURE</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">A<b>CONITE.</b></span></h4>—The frequent use of the strong tincture
-of aconite root, as an external application, has, as might have been expected, given
-rise to repeated accidents, from the accidental or careless internal ad­min­i­stra­tion
-of that powerful substance in an overdose. An instance has occurred within a
-day or two, where an attendant administered a tea-spoonful of the tincture, which
-had been directed to be used as a liniment for a rheumatic affection. An emetic
-of sulphate of zinc was administered by the physician, and within five minutes
-after the poison had been swallowed, free vomiting was produced. This continued
-for several hours, though the external application of
-mustard poultices to <span class="xxpn" id="p191">{191}</span>
-the pit of the stomach, and the ad­min­i­stra­tion of strong coffee, with small doses
-of laudanum, were employed to check it. The man was naturally very stupid,
-and could give no clear account of his sensations. He made no complaint of his
-throat, until his attention was directed to it, when he said it was sore and that
-he had difficulty in swallowing. He had a strange, as he termed it, bursting
-sensation in his limbs, with constant sickness and retching, and great debility.
-He looked alarmed and anxious, and was restless. The pupils were at first
-dilated, then nearly natural, and afterwards again dilated. The extremities
-were cold and moist, the pulse early intermitting and weak, became extinct at
-the wrist, and the action of the heart was feeble and irregular. Stimulants
-were administered internally, but could not be retained, brandy and water
-with carbonate of ammonia was afterwards given in injections, per anum. and the
-temperature of the extremities maintained by mustard poultices, and the application
-of heat. After an interval of seven or eight hours the pulse again became
-perceptible, and the man gradually recovered.</div>
-
-<p>The char­ac­ter­is­tic symptoms produced by poisoning with aconite, are a peculiar
-numb tingling sensation produced in the tongue and lips, a sensation in
-the throat, as if the palate were enlarged and elongated, and resting upon the
-root of the tongue, irritability of the stomach, a numb creeping or tingling sensation
-felt in the limbs, or over the whole surface, and depressed action of
-the heart, and consequent prostration and coldness of the extremities. Death
-when it occurs, seems to depend on the depressing effect produced upon the
-heart. From this it would seem that the proper treatment would be, 1st, to promote
-the evacuation of the poison by mild means. 2nd, to maintain the circulation,
-by keeping the patient as quiet as possible in a horizontal posture, by the
-application of sinapisms and external warmth to the extremities, and by the
-ad­min­i­stra­tion of stimulants by the mouth or when they cannot be retained, by
-the rectum, and 3d, to control, if possible, the vomiting.</p>
-
-<p>Pereira states that aconite, when dropped in the eye, or when taken internally
-in poisonous doses, produces contraction of the pupils, and that with the exception
-of opium, it is the only article which does so. In the above case, and in one
-other, which was likewise seen by the writer, the pupils were dilated, and the
-same condition was observed in several cases which have been communicated to
-him.</p>
-
-<div class="dkeeptogether">
-<p>The above case is note-worthy from the great severity of the symptoms endangering
-the patients life, which followed the ad­min­i­stra­tion of a single tea-spoonful of
-the poison. It must have been absorbed too, with great promptness, since the vomiting,
-which took place in five minutes afforded no relief. This probably depended
-on the stomach being empty at the time. Much of the difference observed in
-the effects produced by the same dose, too, doubtless depends on the variation of
-the strength of the tincture, caused either by the employment of different formulæ
-in its preparation, or by the occasional use of decayed and inferior roots in
-making it.</p>
-
-<hr class="hr34" /></div>
-
-<div><span class="xxpn" id="p192">{192}</span></div>
-
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">S<b>PURIOUS</b></span>
-<span class="smcap">S<b>ULPHATE</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">Q<b>UININE.</b></span></h4>—We understand that the article referred to in
-the subjoined note, has likewise been offered for sale in this city. It bears the
-label of Pelletier, Delondres &amp; Levaillant. We hope our Western friends will be
-on their guard against this atrocious swindle.</div>
-
-<blockquote>
-
-<p class="pfirst"><span class="smcap">T<b>O</b></span>
- <span class="smmaj">THE</span>
-<span class="smcap">E<b>DITOR</b></span>
- <span class="smmaj">OF</span>
-<span class="smmaj">THE</span>
- <span class="smcap">N<b>EW</b></span>
-<span class="smcap">Y<b>ORK</b></span>
- <span class="smcap">J<b>OURNAL</b></span>
-<span class="smmaj">OF</span>
- <span class="smcap">P<b>HARMACY</b>:―</span></p>
-
-<p>Dear Sir,—I would direct the attention of druggists and apothecaries to an article
-sold in New York, purporting to be quinine, put up so as to resemble the
-French.</p>
-
-<p>It has somewhat the appearance of that article, but upon examination will be
-found to be totally devoid of bitterness, &amp;c. I should suppose it to be mannite.</p>
-
-<p>I am led to believe that 500 ounces have already been shipped to the West,
-and some has been sold in this vicinity.</p>
-
-<div class="dkeeptogether">
-<p>I hope that your numerous subscribers may profit by this hint, and that the
-parties selling the same as quinine, may be frustrated in their nefarious traffic.</p>
-
-<p class="psignature">Your obedient servant, R. J. D.</p>
-
-<p><span class="smcap">B<b>ROOKLYN</b>,</span> May 28, 1852.</p>
-
-<hr class="hr34" /></div>
-</blockquote>
-
-<div class="dkeeptogether">
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">M<b>AGANESE.</b></span></h4>—Some attention
-has lately been given, in France, to a variety of preparations of
-maganese. Maganese is commonly found associated with iron in minute
-quantities. It appears to be an invariable constituent of the blood,
-and in certain diseases, in which the iron, normally contained in
-that fluid, is deficient, the maganese would seem to be deficient in
-similar proportion. It is said that the preparations of maganese,
-given in connection with those of iron, in such diseases, produce
-effects which cannot be obtained from iron alone. Various formulæ have
-been offered for its ad­min­i­stra­tion. Commonly similar salts of the
-two articles, as the sulphate, lactate, carbonate, &amp;c., are given
-together, the manganese being to the iron in the proportion of from
-<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub> to <sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>3</sub>. The subject
-would seem to deserve further inquiry.</div>
-
-<hr class="hr34" /></div>
-
-<div class="divh4ord"><h4 class="h4runin">
-<img class="iglyph-a" src="images/u261b.index.jpg"
- width="148" height="84" alt="☛" /><strong>OUR
-EXCHANGES.</strong></h4>—Owing to a variety of circumstances,
-the Journal has not been forwarded with proper regularity to
-the Editors of the Journals in our own Country, with whom we
-would desire to exchange. Exchanges and books intended for us
-should be directed “<span class="smcap">T<b>O</b></span> <span
-class="smmaj">THE</span>
-<span class="smcap">E<b>DITOR</b></span>
-<span class="smmaj">OF</span>
-<span class="smmaj">THE</span> <span
-class="smcap">N<b>EW</b></span>
-<span class="smcap">Y<b>ORK</b></span>
-<span class="smcap">J<b>OURNAL</b></span> <span
-class="smmaj">OF</span>
-<span class="smcap">P<b>HARMACY</b>,”</span>
-care of <span class="smcap">G<b>EORGE</b></span> D. <span
-class="smcap">C<b>OGGESHALL</b>,</span> 809 Broadway, or of T. B.
-<span class="smcap">M<b>ERRICK</b>,</span> No. 10 Gold Street.
-<i>Foreign Exchanges</i> may be sent through the house of H. <span
-class="smcap">B<b>AILLIERE</b>,</span> London, or J. B. <span
-class="smcap">B<b>AILLERE</b>,</span> Paris.</div>
-
-</div><!--chapter dedtrl-->
-
-<div class="chapter">
-<div><span class="xxpn" id="p193">{193}</span></div>
-<h2 class="h2nobreak"><span class="hsmall">NEW YORK</span>
-JOURNAL OF PHARMACY.
-<span class="hsmall"><span class="hdate">
-JULY, 1852.</span></span></h2>
-</div><!--chapter-->
-
-<h3>NOTES IN PHARMACY, No. 3.</h3>
-
-<div class="divh4ord"><h4 class="h4runin nowrap"><span class="smcap">E<b>XTR.</b></span>
-<span class="smcap">L<b>IQ.</b></span>
-<span class="smcap">C<b>UBEBÆ.</b></span></h4>—The formula for this preparation, made
-officinal in the lately revised U. S. Pharmacopœia, appearing
-to me to afford rather an ethereal oil, than what may be properly
-called a fluid extract, I am induced to make known the
-process which I have been accustomed to adopt, during some
-years, to obtain what I conceive to be a true extract, containing,
-in an agreeably administrable form, all and the whole of
-the properties belonging to the berry, and which has given
-much satisfaction in practice, particularly to patients, some of
-whom who have had extensive experience in the use of anti-gonnorrhæl
-compounds, I have heard state that it is the only
-thing of the kind they had ever taken which was not disagreeable
-to the stomach. I take of</div>
-
-<div><ul class="ulstnz">
-<li>Pulv. Cubeb. crud. <img class="iglyph-a" src="images/u2114.l.b.bar.jpg"
- width="58" height="84" alt="℔" />i</li>
-<li>Ether. Sulph.</li>
-<li>Sp. Vin Rect.</li>
-<li>Aquæ Puræ āā q. s.</li></ul></div>
-
-<p>The coarsely powdered cubebs, being lightly packed in a
-displacement funnel, I pour upon it as much of a mixture of
-equal parts of ether and spirit of wine, as it will imbibe, and,
-having covered closely the top of the apparatus with moistened
-bladder, and corked the lower aperture, allow it to stand for
-twenty-four hours. I then uncork it, and after
-it has ceased <span class="xxpn" id="p194">{194}</span>
-dropping, displace the remainder with Sp. Vin. Rect. until
-the original quantity (generally a pint,) be obtained; this I set
-aside in an open and shallow vessel to <i>evaporate spontaneously</i>,
-until all the ether, and most of the spirit has passed off, reducing
-the quantity to about one half. I then obtain, by displacement
-with diluted alcohol, another pint of the liquid, exposing
-it in the same manner, until three-fourths of the quantity
-is evaporated spontaneously as before; again another pint is
-obtained by displacement with water, (this will be a proof
-spirit tincture,) which is added to the former, and allowed to
-lose by the same means, about one-fourth, or sufficient to leave
-a resulting quantity of one and a half pints, which will contain
-about eight ounces of alcohol. The displacement with water is
-continued to exhaustion, when enough fluid will be obtained to
-raise the quantity, when added to that already prepared, to
-two and a half pints, which is transferred to a proper bottle,
-and there is dissolved in it sixteen ounces of white sugar, yielding,
-in toto, three pints of fluid extract, equal to one pound
-of the berries, one
-<span class="nowrap">f<img class="iglyph-a" src="images/u0292.ezh.jpg"
- width="37" height="84" alt="ʒ" />i</span>
-of which represents
-<span class="nowrap"><img class="iglyph-a" src="images/u2108.scruple.jpg"
- width="47" height="84" alt="℈" />j</span> of the dry
-powder. The dregs, when dried, are destitute of sensible properties,
-appearing to be merely ligneous remains, and the loss
-in weight, when time is had, may be easily calculated and
-compared with the recorded analyses. The extract has the appearance
-of a somewhat thick, brownish colored liquid, possessing
-the peculiar taste and smell of the cubebs in a remarkable
-degree, remaining homogeneous for some time after agitation,
-and showing after settling a large proportion of the
-oleaginous constituents of the berry. Having aimed more at
-efficiency than beauty in this preparation, I claim for it the
-former rather than the latter, and if it should not invite the
-eye, it will be found very agreeable to the palate. Fluid extract
-of valerian may be prepared by the same process, and,
-indeed, all those of a volatile nature, whose active principles
-are soluble in any of the above menstrua.</p>
-
-<div class="divh4ord"><h4 class="h4runin nowrap">
-<span class="smcap">U<b>NG.</b></span>
-<span class="smcap">A<b>QUÆ</b></span>
-<span class="smcap">R<b>OSÆ.</b></span></h4>—The great trouble with this preparation
-is, that the water will separate from it after a time,
-giving it a <span class="xxpn" id="p195">{195}</span>
-lachrymose and unhandsome appearance. This defect is completely
-remedied by using <i>only one half the quantity</i> of Aq.
-Rosæ, by which a better consistence and much nicer preparation
-is obtained, and one more, in accordance with the soubriquet
-“Cold Cream,” which is given to it by the fair sex, for whose
-use, as a cosmetic, it is far superior to the <i>highly scented</i>, and
-irritating fancy article of the same name. It is also an admirable
-unirritating, cooling, dressing for surgical use; but I would
-remark, <i>en passant</i>, that it is a very unfit medium for the composition
-of ointments, for which purpose it is sometimes prescribed
-to the annoyance of the apothecary. In such cases the
-physician should be apprised that the addition of a drop of oil of
-rose to simple cerate would answer his purpose much better, as
-the odor only is the quality desired. I think the above note
-might not be undeserving the attention of the next revisers of
-the Pharmacopœias.</div>
-
-<div class="divh4ord"><h4 class="h4runin nowrap">
-<span class="smcap">U<b>NG.</b></span>
-<span class="smcap">P<b>ERUVIAN.</b></span></h4> It is sometimes difficult to make this ointment
-smooth, as, though readily miscible at first, continued trituration
-causes the balsam to separate, and like the colored person
-who “the more he was called, the more he would not
-come,” the more it is rubbed, the more it separates. This hostility
-to union is readily overcome by the addition of ten drops
-or so of alcohol for each drachm of the balsam. It is perhaps
-unnecessary to state that this difficulty will not be had when
-the balsam is adulterated with alcohol—a good practical test of
-the purity of the article.</div>
-
-<div class="divh4ord"><h4 class="h4runin nowrap">
-<span class="smcap">P<b>HARMACEUTICAL</b></span>
-<span class="smcap">E<b>THICS.</b></span></h4>—Morality being at present in the
-ascendant, as it should always be, it may not be inappropriate,
-though more important than practical, to “make a note” of
-some fashionable practices prevalent amongst the more ostentatious
-phar­ma­ceu­tists of the day, savoring much more strongly
-of “Quackery,” to use a vulgar phrase, than Art Unions, &amp;c.
-are pronounced by legal wisdom to do of the “Lottery.” I allude,
-for example, to the system of <i>getting up</i>, under some
-mystified appellation, certain preparations, as “Brown’s Elixir,”
-“White’s Essence,” or
-“Black’s Compound,”—something or <span class="xxpn" id="p196">{196}</span>
-other, which are merely the ordinary preparations of the shop,
-or could easily be prepared if they were worth the trouble, but
-under <i>assumed names</i>, are heralded forth at the <i>ne plus ultra</i>
-of phar­ma­ceu­ti­cal perfectibility. I do not envy a reputation
-so acquired, nor do I wish to speak of it in that spirit, but to
-point out its inconsistency with correct principles, and designate
-it as unworthy of honorable ambition. Such preparations
-generally “hail” from some obscure place or person, but are
-occasionally dabbled with by others who should give themselves
-to better things. It is self evident, from the nature of
-his calling, that the exclusive duty of the apothecary <i>per se</i>, is
-to make, as faithfully or skilfully as he may, the various preparations
-of the Pharmacopœia, as therein set down, when he is
-called upon to do so, and to compound accurately the prescriptions
-of the physician. If, by long experience or increased skill,
-he may have been led to any real discovery or improvement,
-the minutiæ of which he does not choose to divulge, (the reverse
-of which would be the more generous,) its nature should be
-stated, when relating to a preparation, in terms distinct enough
-at least, to convey an idea of its real composition and medical
-properties: thus tinctures should not be misnamed Essences or
-Extracts; Fluid Extracts, or Concentrated Infusions, Elixirs;
-Syrups, Panaceas, &amp;c. thus avoiding the inconsistency of condemning,
-if not morally, at least <i>constitutionally</i>, the more open
-mountebank who plunders your pockets, while the beam is in
-your own eye. It is also perhaps worthy of remark that the
-necessity does not appear any longer to exist of retaining those
-prescriptively excellent preparations made by some, no doubt,
-very respectable apothecary in London, claiming, with a dozen
-others, to be the sole possessor of the original receipt. They
-are imported at a very high price, and as the composition of
-most, perhaps all, is, or can be known, might be made by any
-apothecary here as well as in London. Some of them might be
-deserving of adoption into the Pharmacopœia, as have been
-Dover’s Powder, Daffy’s Elixir, &amp;c. already. It is said by
-connoisseurs in wines, that madeira is very
-much improved by <span class="xxpn" id="p197">{197}</span>
-crossing the line; but I am not aware that phar­ma­ceu­ti­cal preparations
-are at all benefitted by crossing the ocean. Their
-<i>genuineness</i>, too, has become a by-word. By the way, I was
-gravely informed by a certain importer, the other day, of whom
-I enquired concerning one of these <i>genuine</i> articles, that it was
-obtained directly from the inventor. I was at a loss to imagine
-the “modus transitûs,” nor had I the hardihood to enquire, the
-good man having been gathered to his fathers scores of years
-ago.</div>
-
-<div class="dkeeptogether">
-<p>Various are the unworthy practices, one or two of which are
-thus curtly alluded to, deserving of a more studied notice and
-severe censure, than I am able or willing to give them. Such
-matters, though not exactly “putting money in the purse,”
-should be attended to. The purging of our profession—for it is
-one—of them, would be a highly meritorious service.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>CHLORIC ETHER.
-<span class="hsmall">
-BY J. F. HOLTON, PROFESSOR OF BOTANY IN THE NEW YORK
-COLLEGE OF PHARMACY.</span></h3>
-</div><!--section-->
-
-<p>In the early part of this century, some chemists in Holland
-found a peculiar oily fluid of very fragrant smell, resulted from
-the action of chlorine on Olefiant gas. It is generally known
-as the Dutch liquid; it has been called also chloric ether and
-bichloric ether. Its composition is
-C<sub>4</sub>&#x202f;H<sub>2</sub>&#x202f;O<sub>2</sub>.</p>
-
-<p>In 1831, Mr. Samuel Guthrie of Sackets Harbor, in this
-State, distilled alcohol from the so called chloride of lime, and
-obtained a product so closely resembling the Dutch liquid that
-he though it identical. From some relations to formic acid, it
-was afterwards called Chloroform, and chloroformid. Its composition
-is C<sub>4</sub>&#x202f;HO<sub>3</sub>. In 1847,
-anaésthetic properties brought <span class="xxpn" id="p198">{198}</span>
-chloroform prominently before the public. We find an article
-by Prof. B. Silliman, Jr., in the American Journal of Science,
-new series, vol., 5, p. 240, in which it is stated that “the terms
-chloric ether, bichloric ether, perchloride of formyle, Dutch oil
-and oil of Dutch chemists, are all synonyms of chloroform.”</p>
-
-<p>In a recent visit of the writer at New Haven he saw a prescription
-of “chloric ether.” Being reminded of the singular
-error in the Journal printed there, he inquired into the nature
-of the article dispensed. It proved to be a solution of chloroform
-in alcohol, and on his return to this city he found the
-same practice here to a small extent. The proportions in the
-article bearing this name vary greatly; often it seems that the
-mere contents of the wash-bottle are in this way disposed of,
-containing of course a large proportion of water. Mr. Currie,
-one of our most careful and consciencious chemists, usually
-prepares it so as to contain 10 per cent. in bulk of chloroform.
-A more convenient formula would be, chloroform 1 part, alcohol
-10 parts. Some such article under the name of Tinctura
-Chloroformi ought to have place in our pharmacopœia.</p>
-
-<p>But to our confusion the term chloric ether is applied to yet
-another, and entirely a different body, formed by the distillation
-of alcohol and hydrochloric acid, the composition of which is
-C<sub>4</sub>&#x202f;H<sub>5</sub>&#x202f;O. This is also called
-hydrochloric ether and muriatic ether.</p>
-
-<p>But to neither of these four substances does the name chloric
-ether properly belong. Were there such a thing, it would
-be obtained from the action of chloric acid on alcohol, a reaction
-which is prevented by the decomposition of the chloric
-acid by the alcohol, to which it gives part of its oxygen, forming
-acetic acid.</p>
-
-<div class="dkeeptogether">
-<p>This subject is not of so much importance intrinsically as it is
-by way of illustrating the extreme importance of rigid adhesion to
-systematic nomenclature as the only means of saving us from dangerous
-errors and inextricable confusion.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div><span class="xxpn" id="p199">{199}</span></div>
-<h3>ON THE PREPARATION OF PURE MAGNESIA.
-<span class="hsmall">
-BY HENRY WURTZ, M. A.</span></h3>
-</div><!--section-->
-
-<p>The preparation of few substances presents such difficulties
-as that of <i>Pure Magnesia</i>.</p>
-
-<p>It seems, however, at first glance, that the cheapness and
-general purity of the sulphate which occurs in commerce, would
-render this an easy task. Unfortunately, however, no simple
-process has yet been proposed for obtaining pure magnesia from
-the sulphate. The usual course is to precipitate from the boiling
-solution with carbonate of soda, and to expel the carbonic
-acid from the magnesia alba thus obtained, by ignition. On
-trying this process, however, it was found that the carbonate of
-magnesia thus precipitated could not be freed from soda by washing.
-After an enormous quantity of hot distilled water had
-passed through it on the filter, the slight residue left by evaporation
-of the washings, still gave the soda tinge to flame.</p>
-
-<p>It is true that the trace of the soda compound thus retained
-might probably be washed out of the magnesia after its ignition,
-but the difficulty and tedium of the operation of washing the
-very voluminous precipitate, together with the expense attendant
-upon the necessity of using <i>pure</i> carbonate of soda, to
-avoid the presence of silica, phosphoric acid, and other impurities,
-which, if present, would inevitably contaminate the magnesia,
-induced me to reject this method. In fact this method,
-which was formerly almost used universally by analysts for the
-<i>determination</i> of magnesia is now rejected by them, except
-in some unavoidable cases.<a class="aftntanc" href="#fn16" id="fnanch16">16</a></p>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch16" id="fn16">16</a>
-<i>H. Ross’s Handbuch</i>, last
-edition, 2, 33.</p></div>
-
-<p>The substitution of carbonate of ammonia for carbonate of soda
-is inadmissible with any regard to economy, on account of the
-existence of the soluble double sulphates of ammonia and magnesia.
-A trial was made to decompose sulphate of magnesia
-by mixing its anhydrous powder with a large quantity of carbonate
-of ammonia, and igniting, but the
-only trace of <span class="xxpn" id="p200">{200}</span>
-decomposition which appeared was a slight alkaline re-action of the
-aqueous solution of the mass.</p>
-
-<p>I must here mention an impurity which I have met with in
-commercial sulphate of magnesia, and this is a double sulphate
-of magnesia and potash, which occurs in small crystals, apparently
-rhombohedrons, among the rectangular prisms of the
-Epsom salt. It may probably be separable by re­crys­tal­li­za­tion,
-though this, with sulphate of magnesia, is rather a difficult
-affair.</p>
-
-<p>The method which I adopted for preparing pure magnesia
-was the ignition of the nitrate prepared from the commercial
-<i>magnesia alba</i>. The impurities in the commercial carbonate
-which I made use of were sulphate and chloride, a surprisingly
-large quantity of silica, a trace of phosphoric acid easily detectable
-by molybdate of ammonia, oxide of iron, alumina, lime,
-alkalies and some organic matter. A small excess of this impure
-article was added to commercial nitric acid and the whole
-boiled; the silica, oxide of iron, alumina and phosphoric acid
-were thus separated by the excess of magnesia and the filtered
-solution contained no trace of either of them; the solution was
-slightly colored by organic matter.</p>
-
-<p>Either of two methods may now be adopted for separating
-the <i>lime</i>.</p>
-
-<p>One is to add a late excess of ammonia, then a little oxalic
-acid, and filter. To this method, besides the expense of so large
-a quantity of <i>pure</i> ammonia the necessity of the subsequent decomposition
-and expulsion by heat of the very large quantity
-of nitrate of ammonia formed is a serious objection.</p>
-
-<p>Unsuccessful attempts were made to separate the lime by
-adding oxalic acid immediately to the neutral solution of nitrate
-of magnesia. It was found upon experiment that oxalate of lime
-is somewhat soluble in a solution of nitrate of magnesia.</p>
-
-<p>The other method, which is preferable, consists in adding to
-the solution a little sulphate of magnesia, and then a quantity
-of alcohol, but not enough of the latter to produce any immediate
-precipitation. If a precipitate
-is formed immediately, <span class="xxpn" id="p201">{201}</span>
-water is added, for, singularly enough, it was found that the
-liquid filtered from this first precipitate still contained lime.
-In the course of time the sulphate of lime separates in the form
-of small crystals.</p>
-
-<p>The filtered liquid is now evaporated in porcelain dishes, and
-the residue transferred to porcelain crucibles, or still better,
-to platinum dishes, and the nitric acid expelled by a gentle
-heat. By a slight modification I have succeeded in shortening
-this operation very much, that is by adding, from time to time,
-powdered carbonate of ammonia to the mass, and stirring with
-a glass rod, or a platinum spatula. When no more red gases
-are evolved the heat is raised to redness for a few minutes.
-The mass thus obtained requires washing with pure water to
-separate alkaline salts and some sulphate of magnesia which it
-still contains.</p>
-
-<div class="dkeeptogether">
-<p>Magnesia thus prepared was found, by a most rigid qualitative
-analysis, to be perfectly pure. I am aware, however, that
-the process is a troublesome one, and it is very much to be
-desired that some one would present us with a simple and
-direct process of obtaining pure magnesia from the sulphate.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON TINCTURE OF IPECACUANHA.
-<span class="hsmall">
-BY G. F. LEROY, OF BRUSSELS.</span></h3>
-</div><!--section-->
-
-<p>Officinal preparations during reposition or preservation, when
-placed in situations proper to preserve them from all changes,
-yet undergo such important modifications, that the pharmaceutist
-is frequently obliged to reject them as worthless. We are
-accustomed to consider alcoholic tinctures, by reason of the vehicle
-used in their preparation, as amongst the most stable of
-officinal preparations; and therefore
-very few <span class="xxpn" id="p202">{202}</span>
-pharmacologists have observed the changes they undergo. Amongst those
-whose attention has been drawn to the subject, I may particularly
-cite: 1st, Baumé, who has remarked that tincture of saffron
-deposits a substance analagous to amber.—(<i>Elements of
-Pharmacy</i>, 2d <i>ed.</i> 1789.)</p>
-
-<p>2nd. Guibourt, who presented to the Academy of Medicine
-at Paris, some observations on the changes in its composition
-which tincture of iodine undergoes according to the time when
-it was prepared, (year 1846.)</p>
-
-<p>3rd. Bastick, with the desire of ascertaining the nature of
-the changes to which alcoholic preparations are subject, placed
-various tinctures, during several months, in situations similar to
-those of a pharmacy, that is to say, exposed to a temperature
-varying from 60° to 80° Fahrenheit, in bottles half filled, and
-to which air was, from time to time, admitted.</p>
-
-<p>On examining them, some time afterwards, he found that
-most of them had undergone active fermentation in a greater
-or less degree, and that the alcohol had gradually become converted
-into acetic acid. The tinctures had generally lost their
-color and taste, and contained <i>a precipitate which was partially
-re-soluble</i> in a proportion of alcohol corresponding to that
-which had been decomposed.—(<i>Phar­ma­ceu­ti­cal Journal and
-Transactions</i>, 1848.)</p>
-
-<p>The tinctures prepared with weak alcohol are the most subject
-to this species of change.</p>
-
-<p>4th. Tincture of kino changes so with time, that it passes
-from the liquid to the gelatinized state. This change even affords
-an excellent test when it is suspected that catechu may
-have been substituted for kino in this preparation.—(<i>Dorvault,
-Officine</i>, 1850, 3d. ed.)</p>
-
-<p>In general, pharmacologists consider that tinctures only deteriorate
-by the evaporation of the alcohol used in their preparation,
-and that this evaporation has the effect of concentrating
-them too much, and of giving rise to the precipitation of a
-part of the principles which were held in solution.</p>
-
-<p>I do not entirely concur in this opinion; on
-the contrary, I <span class="xxpn" id="p203">{203}</span>
-believe that, in many cases, the precipitates which are formed
-in the tinctures, do not arise from the evaporation of a part of
-the vehicle, but from a modification which takes place in a part
-of the principles held in solution, and which, becoming less
-soluble, or even insoluble, are precipitated.</p>
-
-<p>Amongst these precipitates I shall place that which is almost
-uniformly found in tincture of ipecacuanha.</p>
-
-<p>Druggists generally are aware that this tincture, shortly after
-its preparation, throws down a deposite of a yellowish white
-color, very light, and increasing daily; that when separated by
-filtration a new deposit immediately commences, and recourse
-must again be had to filtering.</p>
-
-<p>It is only after three or four filterings, at intervals of five or
-six weeks, that the formation of this deposit can be arrested.
-In the course of July of this year, I prepared from the <i>Belgian
-Pharmacopœia</i>, some tincture of ipecacuanha, to be used in the
-preparation of some syrup of the same.</p>
-
-<p>Desiring to follow the different phases which it presents, and
-to study, as far as possible, the nature of the precipitate
-formed in it, (for as yet I believe that no research has been directed
-to this subject.) I took advantage of the opportunity
-which this preparation afforded me.</p>
-
-<p>About six weeks after its preparation, this tincture contained
-a deposit which was yellowish white, tolerably abundant, very
-light, and rising on being shaken.</p>
-
-<p>I again suffered the precipitate to form, and after some days,
-I decanted the clear liquor, and threw the deposit on a filter.
-I afterwards mixed the decanted liquors and that which was
-filtered, in a bottle.</p>
-
-<p>The precipitate remaining on the filter, I repeatedly washed.
-I put it to dry spontaneously, but perceiving, after twenty-four
-hours, that it was becoming the prey of a number of little cryptogami,
-formed in the same manner as in animal gelatine which
-dries slowly in the air, I hastened the desication by carrying
-the filter into a medium of from 30°
-to 35° centigrade. <span class="xxpn" id="p204">{204}</span></p>
-
-<p>This deposit, during the process of drying, loses its hydrogen,
-changes color, becoming reddish brown, and is slightly translucid,
-when very dry it is friable.</p>
-
-<p>The quantity obtained in this first filtering, weighed 5
-grains of the Netherland weights, or 0,3250 milligrammes;
-from an ounce or 32 grammes of roots, employed towards the
-end of October, I again saved the deposit which was formed:
-it weighed 1 grain, Netherland, or 0,065 milligrammes.</p>
-
-<p>At present, at the end of November, a third deposition is
-taking place, and will be collected to be added to the others.</p>
-
-<p>During the whole time the tincture had no effect either upon
-blue or red litmus paper.</p>
-
-<p><i>Physical properties.</i> The precipitate is solid, friable, of a
-reddish color, slightly translucent, without taste.</p>
-
-<p><i>Chemical properties.</i> Ether, alcohol, water, cold or boiling,
-have no action upon it; dilute hydrochloric, sulphuric and
-nitric acids, have no action when cold. Concentrated nitric
-acid, when cold, produces no effect upon it, but if heated to
-ebullition it attacks it actively, becoming of a brownish red color.
-Put in a glass tube closed by one only of its extremities, the
-other being furnished with two pieces of litmus paper, the one becomes
-blue, the other red. If the tube is placed in the flame of a
-spirit lamp, in a few instants the matter swells and the reddened
-paper becomes again blue.</p>
-
-<p>Placed on a slip of platina, and exposed to the flame of a
-spirit lamp, it swells, giving out a strong odor of burnt animal
-matter; it burns without flame and leaves a white ash. This
-ash treated by reagents, has the char­ac­ter­is­tics of lime.</p>
-
-<p>As may be seen by this short exposition, the deposit is by no
-means a product resulting from the evaporation of a part of the
-alcohol, which holds in solution the principles that are deposited,
-but a particular organic matter united to lime, which is
-formed at the expense of the azotized principle contained in the
-roots of the ipecac. What is the azotised principle which concurs
-in the formation of this substance? Certainly it
-is not one <span class="xxpn" id="p205">{205}</span>
-of those which are commonly met with in vegetables, otherwise
-the phenomenon which is observed in the tincture of ipecac
-would be observed in the tinctures made with the other roots.
-Is it the emetine which is decomposed? If that be the case,
-the tincture of ipecac would be considered rightly an uncertain
-preparation.</p>
-
-<p>From the character assigned by M. Willigh to his ipecacuan
-acid, as well as to the tribasic salt of lead, (Journal de Chimie
-et de Pharmacie, Octobre, 1851,) it will be readily understood,
-how I at first thought, without, however, having made any serious
-researches, that it might be this acid united with the lime, to
-which the precipitate was owing. But the analysis made by
-that chemist, which denotes the absence of nitrogen in its composition,
-does not permit us to entertain this idea.</p>
-
-<div class="dkeeptogether">
-<p>As will readily be perceived, my researches are far from
-complete, as I had not a sufficient quantity of the precipitate at
-my disposition. But while waiting to complete them, I did
-not wish to delay acquainting the learned world with a fact
-which appears to me extraordinary and until now unique, and
-at the same time to call to it the attention of those better
-situated than myself to pursue such researches.—<i>Presse Medicale
-Belge.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON THE MODE OF ASCERTAINING THE PURITY
-OF ESSENTIAL OIL OF BITTER ALMONDS.</h3>
-</div><!--section-->
-
-<p>Mr. Redwood laid before the meeting some samples of <i>oil
-of bitter almonds</i>, prepared by different makers, together with
-the results of experiments he had made with the view of ascertaining
-whether or not they had been subjected to adulteration.</p>
-
-<p>He stated, that his attention had been directed to the subject
-by more than one of the dealers in this article, in consequence
-of its having been represented that some of
-the samples had <span class="xxpn" id="p206">{206}</span>
-been adulterated with alcohol, an inference which had been
-drawn from the fact that the suspected samples had a much
-lower specific gravity than others met with in commerce.</p>
-
-<p>He had been furnished with five samples from different
-makers, the specific gravities of which were as follows:―</p>
-
-<div><ul class="ulstnz">
-<li>1. <span class="spwanada">1052.4</span></li>
-<li>2. <span class="spwanada">1055.2</span></li>
-<li>3. <span class="spwanada">1067.</span></li>
-<li>4. <span class="spwanada">1081.</span></li>
-<li>5. <span class="spwanada">1082.2</span></li></ul>
-</div>
-
-<p>The merchants having no better mode of testing the quality
-of this oil than by its flavor, its specific gravity, and other
-physical characters, it was important to ascertain what reliance
-could be placed on this class of observations. It was well known
-that spirit was sometimes mixed with it, the effect of which
-would be to reduce its specific gravity, and this addition, to the
-extent to which it would be likely to be made, would not impair
-the flavor of the oil, or alter its sensible characters in any
-other way than is above stated. The light oils were, therefore,
-very naturally suspected to have been reduced with alcohol.</p>
-
-<p>The experiments he had made in reference to this subject
-had fully satisfied him that the specific gravity of essential oil
-of bitter almonds, within certain limits, could not be relied on
-as affording evidence of purity or adulteration. The specimens
-on the table, to which he had already referred, although differing
-in specific gravity to the extent of nearly thirty grains in
-the thousand grain-measures, he believed to be all free from
-adulteration.</p>
-
-<p>Before describing the tests which he had found to afford the
-most satisfactory indications, he described the proximate constituents
-of the crude oil, which vary considerably in proportion
-in different samples, and hence the differences in density and in
-some of the properties of the oil.</p>
-
-<p>According to Liebig and Gregory, crude oil of bitter almonds
-consists of <i>hyduret of benzoyle</i>, <i>hydrocyanic acid</i>, <i>benzoic acid</i>,
-and <i>benzoine</i>, and these probably are not its only constituents.
-Of these the two first may be said to be essential constituents,
-and the others accidental, being the result
-of changes which <span class="xxpn" id="p207">{207}</span>
-the hyduret of benzoyle, or true oil of bitter almonds, undergoes.</p>
-
-<p>The <i>hyduret of benzoyle</i> has the ordinary characters of an
-essential oil. When pure it is a colorless, transparent liquid,
-the specific gravity of which is 1043. It possesses the peculiar
-almond flavor, and is not poisonous. This, which is the true
-oil of bitter almonds, ought to constitute about eighty-five or
-ninety per cent. of the crude oil. When oil of vitriol is added
-to pure hyduret of benzoyle the mixture acquires a dark reddish
-brown color, but no other visible change takes place.</p>
-
-<p>If the hyduret of benzoyle be exposed to the air it speedily
-becomes oxidized, and by the substitution of an atom of
-oxygen for one of hydrogen it is converted into benzoic acid.
-The <i>benzoic acid</i> present in oil of bitter almonds is the result
-of this transformation, and sometimes it occurs to such an extent
-that it is deposited from the oil in crystals. Benzoic acid is not
-colored by the action of oil of vitriol.</p>
-
-<p><i>Benzoine</i> is also a product of a remarkable change which
-hyduret of benzoyle, when mixed with hydrocyanic acid, is liable
-to undergo. Like benzoic acid, it is a solid crystalline body,
-but unlike benzoic acid, when mixed with oil of vitriol, it forms
-a violet colored compound.</p>
-
-<p>The characters and properties of <i>hydrocyanic acid</i> are too
-well known to require notice. It is this constituent, which is
-sometimes present to the extent of eight or ten per cent., that
-gives to oil of bitter almonds its poisonous properties.</p>
-
-<p>In examining oil of bitter almonds, with the view of determining
-whether it be pure or not, it is necessary to consider the
-influence on the action of the reagents employed, of variations
-in the number and proportions of the several constituents present.
-This is especially the case with reference to the use of
-oil of vitriol as a test.</p>
-
-<p>On adding <i>oil of vitriol</i> to the samples of oil under notice,
-it was found that it formed with all of them a clear but very dark
-colored mature, from which no separation took place. The
-color of the mixture thus produced, however,
-differed to a <span class="xxpn" id="p208">{208}</span>
-greater or less extent in each case. The lightest of the oils
-produced a reddish-brown color, similar to that afforded by
-pure hyduret of benzoyle, while the heaviest oil formed a bright
-red mixture, having a shade of violet, and those of intermediate
-density gave intermediate shades of color.</p>
-
-<p>These results, viewed in connection with the differences of
-density in the different specimens, were at first thought to indicate
-that the light specimens had some admixture foreign to
-the oil, but on examining the action of the test on pure hyduret
-of benzoyle and the other legitimate constituents of the crude
-oil, it was evident that such an inference could not be justly
-drawn, and, indeed, suspicion now seemed rather to attach to
-the heavy oil. Subsequent experiments, however, showed
-that the light oil distils at a lower temperature than the heavy,
-and that if the heaviest specimens were distilled with water,
-the first portions that passed over produced precisely the same
-reaction as the light specimens above referred to, while the last
-portions that passed over, and especially the oil obtained from
-the water by distilling it, after saturating it with common salt,
-produced with oil of vitriol a splendid crimson color, the purity
-and intensity of which could hardly be surpassed.</p>
-
-<p>It thus became pretty evident that the differences in the reaction
-of oil of vitriol with the different specimens of oil under
-notice, arose from variations in the circumstances under which
-the oils were distilled, and it seemed probable that the heavy
-oil had been obtained by distilling the almond cake with water,
-to which a large quantity of salt had been added, so as to raise
-the point of ebullition, while the light oil either was the product
-of a process in which less salt had been added to the water,
-or consisted of the first portions distilled.</p>
-
-<p>In order to obtain more satisfactory evidence of the absence
-of spirit, or other foreign substance, from these samples of oil,
-<i>nitric acid</i> was used as a test. If oil of bitter almonds be mixed
-with about twice its volume of nitric acid, of specific gravity
-1.420, no immediate action occurs. The greater part of the oil
-floats over the surface of the acid, and, if the
-former be free <span class="xxpn" id="p209">{209}</span>
-from adulteration, no change of color takes place within several
-hours in either; but after the lapse of three or four days crystals
-of benzoic acid will begin to be formed from the oxidation
-of the hyduret of benzoyle by the nitric acid, and these will increase
-in quantity until the whole becomes a solid mass of crystals,
-which will gradually assume a bright emerald green color.
-This reaction is very char­ac­ter­is­tic. If spirit be present in the
-oil to the extent of eight or ten per cent., the acid, after a few
-minutes, will begin to react upon this, and a violent effervescence
-will shortly ensue, accompanied by the disengagement of
-nitrous vapors.</p>
-
-<p>By using strong nitric acid, of specific gravity not less than
-1.5, the presence of a very minute quantity of spirit may be detected.
-The pure oil, when mixed with an equal volume of
-this strong acid, forms a clear and uniform mixture, from which
-nothing separates, and which undergoes but a very slight change
-of color and no other visible alteration. The presence of two
-or three per cent. of spirit, however, is sufficient to cause a violent
-reaction and the disengagement of nitrous vapors.</p>
-
-<div class="dkeeptogether">
-<p>After trying several other reagents, the foregoing were those
-which were found to afford the most satisfactory results, and
-appeared to be conclusive with regard to those adulterations,
-likely to be practised.—<i>Phar­ma­ceu­ti­cal Journal, London.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON HOFFMAN’S ANODYNE LIQUOR.
-<span class="hsmall">
-BY WILLIAM PROCTER, JR.</span></h3>
-</div><!--section-->
-
-<p>Perhaps in no preparation in general use does the practice
-of manufacturers, and the requirements of pharmacopœial authorities,
-more widely differ than in the
-compound spirit of <span class="xxpn" id="p210">{210}</span>
-ether, universally known as Hoffman’s Anodyne Liquor. According
-to the United States and London Pharmacopœias it
-consists of three fluid drachms of heavy oil of wine (Oleum
-Ethereum, <span class="nowrap">U. S. P.,)</span> dissolved in a mixture of eight fluid ounces
-of ether and sixteen fluid ounces of alcohol. The Edinburgh
-Pharmacopœia has only the simple spirit of ether, without
-the oil of wine, whilst the Dublin Pharmacopœia of 1850
-under the name of Spiritus Æthereus Oleosus, gives the following
-formula, which includes the preparation of the oil of wine
-and its subsequent solution, to make the anodyne:—Mix a pint
-of alcohol and a pint and a half of oil of vitriol in a glass matrass,
-adapt a Liebig’s condenser, and by heat distil until a
-black froth rises. Separate the lighter etherial liquid in the
-receiver, expose it for 24 hours in a capsule, wash the residual
-oil with water, and dissolve it in a mixture of five fluid ounces
-of ether, and ten fluid ounces of alcohol. In France, Hoffman’s
-anodyne consists of equal parts of ether and alcohol,
-without oil of wine.</p>
-
-<p>Owing to the careless or intentionally mystified manner of
-expressing himself, it is impossible now to ascertain whether
-the original preparation of Hoffman (published in 1732) was
-constant in its strength, as now recommended by the Pharmacopœia.
-Beaumé, (as quoted in Macquer’s Chem. Dict., London,
-1771,) says, in speaking of the rectification of sulphuric
-ether, “By distilling the liquor in the first receiver, together
-with a very small quantity of oil of tartar, by a very gentle
-heat of a lamp furnace, about two pounds and four ounces of
-pure ether may be obtained; and afterwards, when a new receiver
-is adapted, and a stronger heat applied, from eight to
-ten ounces of aromatic liquor, which makes a good <i>anodyne
-mineral liquor of Hoffman</i>, will be distilled.”</p>
-
-<p>The third edition of Lewis’ Dispensatory, published at Dublin,
-1768, has the following formula for this preparation, which
-appears to be what the apothecaries of that day employed:―</p>
-
-
-<p>“<i>Hoffman’s Mineral Anodyne Liquor.</i>”</p>
-
-<blockquote>
-
-<p>Into half a pound of concentrated oil of vitriol,
-placed in a <span class="xxpn" id="p211">{211}</span>
-large glass retort, pour by little and little, through a long stemmed
-funnel, one pint and a half of highly rectified spirit of
-wine. Stop the mouth of the retort, digest for some days, and
-then distil with a very gentle heat. At first a fragrant spirit
-of wine will arise; and after it a more fragrant volatile spirit,
-to be caught in a fresh receiver. The receiver being again
-changed, a sulphurous, volatile, acid phlegm comes over, and
-at length a <i>sweet oil of vitriol</i>, which should be immediately
-separated, lest it be absorbed by the phlegm. Mix the first
-and second spirits together, and in [every] two ounces of this
-mixture dissolve twelve drops of the sweet oil. If the liquor
-has any sulphurous smell, re-distil it from a little salt of tartar.</p>
-
-<p>“Whether this is the exact preparation, so much recommended
-and so often prescribed by Hoffman as an anodyne
-and anti-spasmodic, we cannot determine. We learn from his
-own writings that his anodyne liquor was composed of the dulcified
-spirit of vitriol, [crude ether] and the aromatic oil which
-rises after it; but not in what proportions he mixed them together.
-The College of Wirtemburg seems to think that all
-the oil was mixed with all the spirit obtained in one operation
-without regard to the precise quantities.”</p></blockquote>
-
-<p>The product of this recipe must have been analogous to the
-present officinal spirit, the formula for which is evidently
-modeled after it. The great excess of alcohol distills over first,
-until the boiling point rises to the ether producing temperature,
-when ether is obtained, and finally the sulphurous oily product.
-The recipe gives no direction to isolate the oil of wine before
-measuring it, which is perhaps less necessary, as the ethereal part
-of the distillate is removed previously to the production of the oil
-which is found in the receiver in globules, and not in solution.</p>
-
-<p>The process now adopted by the manufacturers in this city,
-avoids the isolation of the oil of wine, and from the nature of
-the conditions the product is liable to vary in the proportions
-of its ingredients, not only in different laboratories, but at different
-operations in the same laboratory. In the preparation
-of ether it is usual in this city to push the process as
-far as <span class="xxpn" id="p212">{212}</span>
-possible, as long as the residue is not so concentrated as to eliminate
-much permanent gas. In the rectification of this first
-crude product, the distillate is reserved as rectified ether as
-long as its specific gravity marks 54° Beaumé, or there about.
-By continuing the process the product is found to consist of
-ether, alcohol and water, impregnated with oil of wine. Every
-one who has made ether, knows how very liable the product is
-to vary with an ill regulated heat; on the one hand unaltered
-alcohol will pass over, if the temperature is too low, whilst too
-great a heat, especially towards the last of the process, will favor
-the formation of oil of wine and sulphurous acid. This last
-distillate, therefore, will vary in composition, and it is from this
-that Hoffman’s anodyne is made in some of the best of our laboratories.
-<i>There is no known practicable method of ascertaining
-the per centage of heavy oil of wine in this liquid.</i> The
-means used by the manufacturer are founded on the sensible
-properties of an arbitrary standard specimen of Hoffman’s anodyne
-previously made, and on the degree of opalesence or milkiness
-it produces when added to a certain measure of water.—This
-milkiness is occasioned by the oil of wine present; but
-experience has shown that the degree of milkiness is not strictly
-in proportion to the quantity of oil present, the relative proportion
-of ether and alcohol, and perhaps water present in the
-anodyne liquid has a marked influence on the phenomenon;
-if too much alcohol, the milkiness is not produced, or but partially;
-if too much ether, oily globules separate and float with
-but moderate opalescence. In converting this second etherial
-distillate into commercial Hoffman’s anodyne, the operator has
-to make several essays, sometimes adding water, sometimes alcohol
-or ether, until the taste, the smell, and the opalescence
-agree, as nearly as can be approached, with his standard specimen.
-In the process of rectification it is probable that at least
-a part of the heavy oil of wine is decomposed, with the production
-of the light oil or etherole, and that the commercial Hoffman’s
-anodyne differs in this respect, as well as in containing
-a much smaller proportion of oil of wine, from that
-of the Pharmacopœia. <span class="xxpn" id="p213">{213}</span></p>
-
-<p>To get a better idea of the preparation in use here, authentic
-specimens were obtained from four of our largest manufacturing
-chemists, and compared with compound spirit of ether
-made for the occasion strictly according to the United States
-Pharmacopœia. Their density was carefully taken with the
-1000 grs. bottle.</p>
-
-<div class="dtablebox"><div class="nowrap">
-<table summary="">
-<tr>
- <th></th>
- <th>specific gravity<br />at 60° F.</th></tr>
-<tr>
- <td class="pleft">A, Wetherill &amp; Brothers,</td>
- <td class="pcenter">.8925</td></tr>
-<tr>
- <td class="pleft">B, Smith, Pemberton &amp; Co.</td>
- <td class="pcenter">.8723</td></tr>
-<tr>
- <td class="pleft">C, Rosengarten &amp; Dennis,</td>
- <td class="pcenter">.8495</td></tr>
-<tr>
- <td class="pleft">D, Powers &amp; Weightman,</td>
- <td class="pcenter">.8394</td></tr>
-<tr>
- <td class="pleft">E, U. S. Pharmacopœia</td>
- <td class="pcenter">.8151</td></tr>
-</table></div></div>
-
-<p>Equal measures of each specimen and distilled water were
-mixed together; they all produced opaque milky liquids; globules
-of oil of wine soon separated from the mixture with E,
-and floated on the surface, while the liquid gradually lost its
-opacity as more of the oil arose. The mixture with D became
-less opaque by standing, a small portion of oil rising to the surface.
-The mixture with A, B and C retained their opacity
-without apparent separation of oil of wine, A being the most so.</p>
-
-<p>A was the mildest and least repulsive to the taste, because
-least ethereal. C was the next least ethereal, but had pungency
-not arising from ether. B was more ethereal than the preceding,
-not­with­stand­ing its greater specific gravity. D was
-yet more charged with ether. E presented sensible properties
-differing from all the others, being more etherial and aromatic,
-but without a peculiar taste noticeable in the other specimens,
-more especially in C.</p>
-
-<p>When <span class="nowrap">2&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub></span>
-fluid drachms of each specimen was shaken in graduated
-tubes with 60 grains of carbonate of potassa, they were
-de-hydrated somewhat in the ratio of their specific gravities.
-A and B dissolved the salt readily by a few minutes’ agitation,
-and the separated aqueous alkaline solution equalled a third of
-the bulk of the mixture. In C and D only about half of the
-salt was dissolved, whilst in E the salt was merely rendered
-pasty.</p>
-
-<p>To get an idea of the proportion of ether
-present in these <span class="xxpn" id="p214">{214}</span>
-specimens, a solution of dry chloride of calcium in an equal
-weight of water, was made. Five parts of this solution was
-mixed with three parts of each of specimens of Hoffman’s anodyne,
-in tall tubular vials, corked, well agitated and allowed to
-stand for twelve hours. In A, B and C, no separation of ether
-occurred, but in each of them a few globules arose to the surface,
-consisting chiefly of light oil of wine. In D a stratum of
-ether holding oil of wine in solution, equal to one seventh of
-the bulk of the spirit used, or nearly half a part. Whilst in E
-the super-stratum of ether equalled one-third of the spirit used,
-and had a light yellow color, due to the oil of wine.</p>
-
-<p>These data will give an approximative idea of their compositions;
-it would appear that A was chiefly alcohol and water,
-with but little ether; that B contained almost as much water
-as A, but less alcohol and more ether; that C contained much
-less water than A or B, but less ether and more alcohol than
-B, and more ether and less alcohol than A; that D contained
-rather more water than C, but more ether and less alcohol than
-either of the preceding; and lastly that E contains more ether,
-and less alcohol and water than either of the others.</p>
-
-<p>In regard to the proportion of ethereal oil, the experiments
-give no positive clue. It would appear that B and D contained
-the most among the commercial specimens, and that D approaches
-nearest the composition of the officinal spirit, yet all
-of them when compared with the officinal are deficient in this
-ingredient.</p>
-
-<p>It must be apparent from these results, that the opacity of a
-mixture of Hoffman’s anodyne and water, is no index of the
-proportion of oil of wine the former contains, that property being
-dependent apparently on the state of combination in which
-the oil exists, nor would we pronounce on the medicinal value
-of the specimens, a task belonging to the physician. Whatever
-curative reputation the compound spirit of ether may have
-earned, certainly belongs to the commercial spirit, and not to
-that of the Pharmacopœia, which is not to be had in the shops.</p>
-
-<p>The exact nature of the liquid left after
-the rectification of <span class="xxpn" id="p215">{215}</span>
-ether is an inquiry well worthy of further investigation. The
-alcohol of commerce is not a homogenous substance. Besides
-water, it contains odoriferous oily matter, produced in the original
-fermentation, and which is not wholly removed in the
-rectification of whiskey. This matter, modified by the action
-of sulphuric acid and heat, with the volatile substances generated
-during the ether process, are contained in it. It may also
-be that the ether in this residue is more intimately combined
-with water than in a mere mixture of water, alcohol, and ether
-of the same strength, as suggested to me by Mr. Pemberton.</p>
-
-<p>The question very naturally arises, why do not the manufacturers
-prepare the officinal Hoffman’s anodyne, or why do
-they not furnish the ethereal oil of the Pharmacopœia, that the
-apothecary may make it himself by simple mixing? There are
-several reasons. 1st, the apothecary, the physician, and to a
-large extent the consumer, have become accustomed to the present
-commercial preparation, and the majority, both of apothecaries
-and physicians, would reject the true officinal spirit, if
-presented to them, as not correctly made; 2d, druggists, as a
-general rule, would refuse to pay the greatly increased price,
-absolutely required to remunerate the manufacturer, for the
-greater consumption of time and materials, and increased skill
-and risk in manipulation. Having, on several occasions, prepared
-the officinal oil of wine and Hoffman’s anodyne, I can
-corroborate the statements of Mr. Kent, at p. 255, relative to
-the small yield, and consequent costliness of officinal heavy oil
-of wine. The so-called oil of wine, which is imported into this
-city from England, and which is sometimes employed for
-making the officinal spirit, is an ethereal solution of etherole,
-one specimen yielding only seven per cent. of it. And 3d, in
-the preparation of ether, the residue left in the still after the
-rectification of the ether above 54° Beaumé, must either be
-thrown away, or converted to the only use to which it can be
-applied with advantage, viz., Hoffman’s anodyne. It is for
-this reason that the price of the commercial “anodyne” is so
-low, being about fifteen
-cents per pound. <span class="xxpn" id="p216">{216}</span></p>
-
-<div class="dkeeptogether">
-<p>It may become a question in the next revision of the Pharmacopœia,
-whether it would not be better to reconstruct the
-formula for compound spirit of ether, somewhat on the plan of
-the manufacturers, or that quoted at page <a href="#p213" title="go to p. 213">213,</a> from Lewis’s
-Dispensatory, so as to render it more practicable and likely to
-be followed. Of course it should be done with due consideration
-of the difficulties involved in the production of a spirit of
-uniform strength.—<i>American Journal of Pharmacy.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON GUTTA TABAN.
-<span class="hsmall">
-BY BERTHOLD SEEMANN.</span></h3>
-</div><!--section-->
-
-<p>The Taban (<i>Isonandra Gutta</i>, Hook.), which was formerly
-so plentiful [in Singapore], has long since been extinct. A
-few isolated trees may here and there occur, but they are very
-scarce, and I have not been able to obtain even the sight of
-one. Several of the white residents keep in their gardens as
-a curiosity, a plant or two, but they grow very slowly. It must
-ever be an object of regret, that on the first introduction of the
-Taban gum, its proper name was not promulgated. Now everybody
-in Europe and America speaks of Gutta Percha, when, in
-fact, all the time they mean the Gutta Taban. The substance
-termed by the Malays “Gutta Percha” is not the produce of
-the <i>Isonandra Gutta</i>, Hook., but that of a botanically unknown
-tree, a species of <i>Ficus</i>, I am told. The confusion of these two
-names has become a popular error—an error which science
-will have to rectify.</p>
-
-<p>The exportation of the indigenous Gutta Taban from Singapore
-commenced in 1844, but as early as the end
-of 1847, all, <span class="xxpn" id="p217">{217}</span>
-or at least most, of the trees had been exterminated. That at
-present shipped from the place, is brought in coasting vessels
-from the different ports of Borneo, Sumatra, the Malayan peninsula,
-and Jahore Archipelago.<a class="aftntanc" href="#fn17" id="fnanch17">17</a>
-The difference existing in
-its appearance and property is owing to the intermixture of
-Gutta Percha, Jelotong, Gegrek, Litchu, and other inferior
-Guttas, made by the natives in order to increase the weight.—Though
-far from being extinct in the Indian Archipelago, Gutta
-Taban will every year be more difficult to obtain, as the
-coast region is said to be pretty well cleared, and a long transport
-from the interior must, by augmenting the labor, increase
-the value of the article.</p>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch17" id="fn17">17</a>
-“The total export of Gutta Taban from Singapore has been:―</p>
-
-<div class="dtablebox"><div class="nowrap">
-<table summary="">
-<tr>
- <td class="pleft">In 1844</td>
- <td class="pleft">&#x2007;&#x2007;&#x2008;&#x2007;&#x2007;1 picul</td></tr>
-<tr>
- <td class="pleft">In 1845</td>
- <td class="pleft">&#x2007;&#x2007;&#x2008;169 picul</td></tr>
-<tr>
- <td class="pleft">In 1846</td>
- <td class="pleft">&#x2007;5,364 picul</td></tr>
-<tr>
- <td class="pleft">In 1847</td>
- <td class="pleft">&#x2007;9,296 picul</td></tr>
-<tr>
- <td class="pleft">In 1848 to the 1st of July</td>
- <td class="pleft">&#x2007;6,768&#160;picul</td></tr>
-<tr>
- <td class="pcenter">Total</td>
- <td class="pleft"><span class="tdsum">21,598</span>&#160;piculs.</td></tr>
-</table></div></div>
-
-<p class="pcontinue">valued
-at 274,190 Spanish dollars. About 270,000 trees have probably
-been felled during the three and a half years that the trade has
-existed, and the value of each tree has thus on an average, been about
-a dollar.”—J. R. Logan, “<i>On the Range of the Gutta Taban Collectors,
-and present Amount of Import into Singapore</i>.” Mr. Logan has promised
-an article on the various substances intermixed with the Taban, a
-subject of the highest interest; but he has hitherto disappointed his
-readers.</p></div>
-
-<p>A few months after the publication of your first account
-of the plant, in January, 1847, an article on the same subject
-appeared in the <i>Journal of the Indian Archipelago</i>, by one of
-its most able contributors, Dr. T. Oxley. As that article contains
-many statements not contained in yours, and as it may
-possibly have escaped your notice, I shall make a few extracts
-from it.</p>
-
-<blockquote>
-
-<p>“The Gutta Taban tree belongs to the natural order <i>Sapotaceæ</i>,
-but differs so much from all described genera, that I am
-inclined to consider it a new one. I shall, therefore, endeavor
-to give its general character, leaving the honor of naming it to
-a more competent botanist, especially as,
-from want of <span class="xxpn" id="p218">{218}</span>
-complete specimens, I have not quite satisfied myself regarding the
-stamens and fruit.</p>
-
-<p>“The tree is from sixty to seventy feet high, from two to three
-feet in diameter. In its general aspect it resembles the Durian
-(<i>Durio Zibethinus</i>, Linn.), so much so as to strike the most
-superficial observer. The leaves are alternate, obovate-lanceolate,
-entire, coriaceous, their upper surface is of a pale green,
-and their under surface covered with a close, short, reddish-brown
-hair. The flowers are axillary, from one to three in the
-axils, supported on short curved pedicels, and numerous along
-the extremities of the branches. The calyx is inferior, persistent
-coriaceous, divided into six sepals, which are arranged in
-double series. The corolla is monopetalous, hypogenous, and
-divided, like the calyx, into six acuminate segments. The stamens,
-inserted into the throat of the corolla, are in a single
-series, and variable in number, but to the best of my observation,
-their normal number is twelve; they are most generally
-all fertile. The anthers are supported on slender bent filaments,
-and open by two lateral pores. The ovary is superior,
-terminated by a long single style, and six-celled; the cells are
-monospermous. The fruit is unknown to me.</p>
-
-<p>“Only a short time ago the Taban tree was tolerably abundant
-on the Island of Singapore, but already, (middle of 1847)
-all the large timber has been felled. Its geographical range,
-however, appears to be considerable, it being found all up the
-Malayan peninsula, as far as Penang, where I have ascertained
-it to be plentiful. Its favorite localities are the alluvial tracts
-on the foot of hills, where it forms the principal portion of the
-jungle.</p>
-
-<p>“The quantity of solid gutta obtained from each tree varies
-from five to twenty catties, so that, taking the average of ten
-catties, which is a tolerably liberal one, it will require the destruction
-of ten trees to produce one picul. Now, the quantity
-exported from Singapore to Europe, from the 1st of January,
-1845, to the middle of 1847, amounted to 6,918
-piculs, to obtain <span class="xxpn" id="p219">{219}</span>
-which, 69,180 trees must have been sacrificed! How much
-better would it be to adopt the method of tapping the tree
-practised by the Burmese, in obtaining the caoutchouc, than to
-continue the present process of
-extermination.”<a class="aftntanc" href="#fn18" id="fnanch18">18</a></p></blockquote>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch18" id="fn18">18</a>
-T. Oxley, in the <i>Journal of the Indian Archipelago</i>, vol.
-i, p. 22–30.</p></div>
-
-<div class="dkeeptogether">
-<p>A mercantile house in Singapore lately received from Manilla
-a gum which was supposed by those who sent it to be
-Gutta Taban, but proved a different substance. It was accompanied
-by specimens of the tree producing it, and a note stating
-that the gum abounded in the Philippine Islands. As it will
-probably make its appearance in England, and perhaps become
-of some importance, I may add that those specimens presented
-to me by the merchant, belong to the genus <i>Ficus</i>; but whether
-to a new or an already described species, want of books
-prevented me from determining.—<i>Hooker’s Jour. of Botany.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON GAMBIR.
-<span class="hsmall">
-BY BERTHOLD SEEMAN.</span></h3>
-</div><!--section-->
-
-<p>Black pepper (<i>Piper Nigrum</i>, Linn.) and Gambir (<i>Uncaria
-Gambir</i>, Roxb.) are grown in great quantities [in Singapore],
-and exclusively by the Chinese, for both these articles are so
-exceedingly cheap, that Europeans have not deemed it worth
-their while to engage in the speculation. Pepper and Gambir
-plantations are always combined, because the refuse of the
-gambir leaves serve as an excellent manure for the pepper; and
-moreover, what is of equal, if not greater importance, kills the
-Lalang, (<i>Andropogon caricosus</i>, Linn.), a plant which, like
-the couch-grass (<i>Triticum repens</i>, Linn.), spreads with astonishing
-rapidity over the fields, growing so close together and
-so high, that within a short spate of
-time valuable plantations <span class="xxpn" id="p220">{220}</span>
-are rendered useless, and many have to be given up from the
-utter impossibility of freeing the ground from this weed.</p>
-
-<div class="dkeeptogether">
-<p>The process by which gambir is extracted and prepared is
-simple. The leaves are boiled in water, until all their astringent
-property is extracted. The decoction is then poured into
-another vessel, in which it becomes inspissated, and, when
-nearly dry, is cut in small square pieces, and thus brought into
-the market. M’Culloch states that sago is used in thickening
-it. This, however, at least in Singapore, is not the case; but,
-instead of sago, a piece of wood is dipped into the vessel, by
-which the desired effect is produced. It must, indeed, be an
-extraordinary substance, the mere dipping of which into the
-fluid can cause it to become a thickened mass. I was very
-eager to obtain a piece of this wood; unluckily, the Chinaman
-whose laboratory I visited, could not be persuaded to part with
-his, and a friend of mine, who was exerting himself to procure
-a sample, had not succeeded at the time of the Herald’s departure:
-he promised, however, to send it to England, accompanied
-by the Malayan name, and specimens of the tree.—<i>Hooker’s
-Journal of Botany.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON THE GALBANUM PLANT.
-<span class="hsmall">
-BY F. A. BUSHE.</span></h3>
-</div><!--section-->
-
-<p>The author states, that in his travels in Persia he discovered
-the plant which yields galbanum. In June, 1848, he found it
-on the declivities of the Demawend. It is a ferula, from the
-stalks of which a liquid issues abundantly, by the odor and nature
-of which he immediately recognised galbanum, and his
-guides assured him, moreover, that galbanum is gathered from
-this plant. The author has not
-yet distinctly determined <span class="xxpn" id="p221">{221}</span>
-the plant. It appears to differ from <i>Ferula erubescens</i> (<i>Annales
-des Sciences</i>, iii., Sér. 1844, p. 316,) only by the absence
-of commissural vitæ; but as neither Aucher-Eloy, nor Kotschy,
-who have both collected the Ferula erubescens, make any
-mention of its yielding galbanum, the author is in doubt whether
-his plant be the same, or a variety of it. Don’s genus
-galbanum (Trib. Sibrinæ) and Lindley’s Opaïdia (Trib. Smyrneæ)
-do not agree with the plant seen by Bushe, unless that
-both of these authors have made their descriptions from imperfect
-fruits, or that there exist other plants which yield galbanum.—The
-plant which Bushe describes is called in some parts of
-Persia, <i>Khassuch</i>, (not <i>Kasneh</i>, which means Cichor intybus,
-nor Gäshnis, which is Coriand. sativum), and appears to be
-confined to certain districts of Persia. In the whole large district
-of the Elburs-chain, from the south-east angle to the south-west
-angle of the Caspian Sea, it is only found in the neighborhood
-of the Demawend; but here at an elevation of from 4000
-to 8000 feet, and even on the declivity of the top of the Demawend.
-It exists neither on the mountains of Talysch, nor in
-the districts of Karadagh and Tabris. It is said to re-appear
-on the Mount Alwend, near Hamadan, and in the neighborhood
-of the great salt desert. Near Hamadan Aucher-Eloy
-has gathered his Ferula erubescene, and this supports the supposition
-that the author’s plant is the same. In the salt desert
-itself Bushe did not meet with it again. The inhabitants of the
-Demawend collect the gum resin, which issues spontaneously
-from the lower part of the stalk; they do not make incisions in
-the plant; but it is not at this place that the galbanum is collected
-for commercial purposes. When fresh, the gum resin is
-white like milk, liquid, and somewhat glutinous. In the air
-it soon becomes yellow, elastic, and finally solid. The odor
-is rather strong, unpleasant, and similar to that of our commercial
-galbanum.—<i>Central Blatt</i>, für
-1852, No. xiii.</p>
-
-<hr class="hr34" />
-
-<div class="chapter dedtrl">
-<div><span class="xxpn" id="p222">{222}</span></div>
-<h3>EDITORIAL.</h3>
-
-<hr class="hr12" />
-
-<div class="divhhang2"><h4 class="h4runin">
-<span class="smcap">T<b>HE</b></span>
-<span class="smcap">P<b>REVENTION</b></span>
-<span class="smmaj">AND</span>
-<span class="smcap">C<b>URE</b></span>
-<span class="smmaj">OF</span>
-<span class="smmaj">MANY</span>
-<span class="smcap">C<b>HRONIC</b></span>
-<span class="smcap">D<b>ISEASES</b></span>
-<span class="smmaj">BY</span>
-<span class="smcap">M<b>OVEMENTS.</b></span></h4> An exposition
-of the principles and practice of these movements, for the correction of
-the tendencies to disease in infancy, childhood and youth, and for the cure
-of many morbid affections of adults. <span class="smcap">B<b>Y</b></span>
-M. <span class="smcap">R<b>OTH</b>,</span> M. D., London, 1851.</div>
-
-<p>Open quackery was at one time contented with the market-place and the stage;
-its merits and achievements were announced only by the lungs of its professors
-and their assistants. We have changed all that. Quackery has improved with
-the age. It has got possession of the newspapers, and forces its way in the pulpit;
-it has its colleges and graduates, it edits journals and writes books; but it
-has changed its form, not its spirit; at bottom it is as shameless, and lying and
-rediculous as ever. While its essence is eternal its form is constantly changing.
-A variety springs up, flourishes, attains its maturity, then dies away, to be replaced
-by another, or to be revived in a distant country or a future generation.
-The facilities of intercommunication afforded by railroad and steam vessels yield
-the same advantage to imposture and credulity, that they give to science and
-truth. We import nonsense and humbug as well as silks and dry goods. But
-as was observed on another occasion, home manufacture has sprung up, and we
-have become exporters as well as importers. Spiritual knocking are set off against
-Mesmerism; Thompsonianism is sent in exchange for Hygeia; native Sarsaparillas
-have driven the foreign from the market; Mormonism goes a long way to
-balance Homeopathy, while the “Great Harmonican,” in size, in pretension and
-in absurdity, is scarcely to be rivalled any where in the present age.</p>
-
-<p>The newest delusion that pretends to be a system, Kinesipathy, is, in the country
-of its origin, already several years old. It comes to us from Sweden, and recommends
-the treatment of diseases by means of various exercises, and above all,
-blows on different parts of the body. All these are set forth with the greatest
-gravity, and defined and commented on with as much precision as if the author
-was bringing forward a National Pharmacopœia. In the treatment of disease
-the motives, positions, and blows, are varied in the strangest, and often most ludicrous
-manner. Witness the following <i>prescription</i> for gonorrhea, which is
-complete except as the author states “some movements depending on particular
-circumstances.”</p>
-
-<p>1. “Percussion on the sacrum in the stride standing position.</p>
-
-<p>2. “Transversal chopping on the neck in the sitting position.</p>
-
-<p>3. “Pressure above the os pubis in the lying position, with elevated back,
-while the separated and bent legs are drawn towards the abdomen. Vibration
-of the perineum, in the same position.”</p>
-
-<p>“The treatment begins with percussing the sacrum, in the stride standing position,
-which in the first day or two not only allays and relieves the more violent
-inflammation and copious secretion, but also changes the whole state of the disease
-in such a manner, that the following treatment
-by movements, (different <span class="xxpn" id="p223">{223}</span>
-according to the state of the patient,) produces an increased flow of arterial
-blood in the upper extremities, and the cure is very much accelerated. In the
-first stage, during which only moderate stitching pains, tension, and little secretion
-appears; the percussion on the sacrum alone is sufficient, if repeated three
-or four times daily. If the symptoms become more violent, and accompanied by
-chordee and pain during urinating, &amp;c., then other movements are necessary,
-then make use of the transversal chopping of the neck, which acts strongly
-against the chordee, and of the pressure above the os pubis in the above mentioned
-lying position, which increases the venous absorption of the bladder and
-sexual organs, by its effect on the excited nerves of these parts. In the second
-period if the urinating is very difficult, the perineum swollen and painful, the
-discharge mixed with blood, and fever is present, then a more general treatment
-is necessary. To increase the more local absorption in the urethra, vibrations
-along the whole tract of the perineum from before backward are employed.”</p>
-
-<p>That percussion on the sacrum has long been known as a remedial measure in
-moral complaints we are perfectly aware, but that it was to become an article of
-materia medica is something new under the sun!</p>
-
-<p>Kinesipathy has not yet, we believe, been formally introduced into the United
-States, but we hear that a new set of quacks, who call themselves Psychologists,
-have adopted something from its rules, and are employing “percussions and flagellations”
-as one of their means for the cure of the various ills that flesh is heir too.</p>
-
-<div class="dkeeptogether">
-<p>After all some partial truth, long well known and acted on by the profession,
-as is the case in most successful quackeries, underlies Kinesipathy. Exercise and
-stimulation of the external surface, are in themselves exceedingly beneficial, and
-under the influence of a charlatan, patients will submit to a discipline, which if
-directed by a physician would never receive more than momentary attention.</p>
-
-<hr class="hr34" /></div>
-
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">P<b>HARMACY</b></span>
-<span class="smmaj">IN</span>
-<span class="smcap">R<b>ICHMOND.</b></span></h4>—We are glad to see the following call to the Apothecaries
-of Richmond, in the July number of the American Journal of Pharmacy,
-and we hope that the example will be imitated in all our towns, in which the
-number of phar­ma­ceu­tists is sufficient to form a society. Mutual association is
-the best means of promoting the true interests and standing
-of the profession.</div>
-
-<p>“The undersigned, believing that by friendly co-operation among themselves,
-their respectability will be increased; their standing in the community will become
-more elevated, faults in their profession be remedied, evils to which they
-are now subjected be removed; that their art may be more systematized, and
-better regulated; a more friendly feeling towards each other be excited amongst
-them, their mutual interests advanced, and the public good promoted; do most
-earnestly call upon their brethren, engaged in Phar­ma­ceu­ti­cal pursuits, to meet
-at the Gentlemen’s Parlor, Exchange Hotel, on Friday evening, 11th inst., at 8
-o’clock, for the purpose of considering the advantages that would result to all of
-them, from the formation of some organized Association, that would
-have for its <span class="xxpn" id="p224">{224}</span>
-object the above named desirable ends; as well as to encourage among themselves
-mutual improvement in the knowledge so necessary to a proper discharge of
-those duties, (both to themselves and the public,) which their situations as men
-occupying positions among the most responsible in life, impose upon them.</p>
-
-<div class="dkeeptogether">
-<p>As the organization which it is now proposed to form, would contemplate the
-good of all its Members, it is most earnestly hoped that all the Druggists and
-Apothecaries who feel any interest in this important subject, will cordially unite
-their intelligence and talents in an effort to accomplish the above named ends,
-and that the proper preliminary steps will be taken for the formation of a society
-of the Apothecaries in this city, which will prove beneficial to its members, an
-honor to their profession, and a credit to the city of Richmond.”</p>
-
-<div><ul class="ulstnz">
-<li><span class="smcap">A<b>NDREW</b></span>
-<span class="smcap">L<b>ESLIE,</b></span></li>
-<li>S. M. <span class="smcap">Z<b>ACHRISSON,</b></span></li>
-<li><span class="smcap">P<b>URCELL,</b></span>
-<span class="smcap">L<b>ADD</b></span>
-&amp; <span class="smcap">C<b>O.,</b></span></li>
-<li><span class="smcap">S<b>EABROOK</b></span>
-&amp; <span class="smcap">R<b>EEVE,</b></span></li>
-<li><span class="smcap">A<b>DIE</b></span>
-&amp; <span class="smcap">G<b>RAY,</b></span></li>
-<li><span class="smcap">P<b>EYTON,</b></span>
-<span class="smcap">J<b>OHNSTON</b></span>
-&amp; <span class="smcap">B<b>RO.,</b></span></li>
-<li>H. <span class="smcap">B<b>LAIR,</b></span></li>
-<li><span class="smcap">C<b>HAS.</b></span>
-<span class="smcap">M<b>ILLSPAUGH,</b></span></li>
-<li><span class="smcap">A<b>LEX.</b></span>
-<span class="smcap">D<b>UVAL</b>.</span></li></ul>
-</div>
-
-<p><i>Richmond, June 8th, 1852.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">S<b>UPPOSITORIES</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">B<b>UTTER</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">C<b>ACAO.</b></span></h4>—Butter of cacao has of late been largely
-employed in the formation of suppositories, for which it is admirably adapted,
-by its consistence, and by the facility with which it becomes liquid at the temperature
-of the body. Some times a good deal of difficulty is encountered in incorporating
-it with laudanum, chloroform, extracts and solutions. In such cases
-M. Stanislas Martin recommends that the butter be first moulded in the desired
-form, and that then a cavity be formed in it, by means of an iron wire slightly
-warmed, sufficiently large to contain the prescribed medicine. The orifice can
-then be closed with a thin layer of the butter of cacao, formed by rubbing a morsel
-of it upon an iron spatula, or the blade of a knife slightly warmed in a spirit
-lamp.</div>
-
-<div class="dkeeptogether">
-<p>A number of the suppositories thus prepared beforehand, can be preserved in
-envelopes which serve them for a mould, these being removed only when they
-are about to be used.</p>
-
-<hr class="hr34" /></div>
-
-<h4>DELEGATES TO THE CONVENTION FOR 1852.</h4>
-
-<p>At a meeting of the College of Pharmacy of the City of New York, held June
-28th, Messrs. George D. Coggesshall, William Hegeman and L. S. Haskell, were
-elected Delegates from this College to the National Phar­ma­ceu­ti­cal Convention,
-to meet at Philadelphia, on the first Monday in October next. It was resolved
-that in case of any disability of either of their number to attend, the remaining
-delegates should be authorised to fill the vacancy.</p>
-
-<p>The re-issue of President Guthrie’s official call for the meeting of the Convention
-was expected in time for this number of the Journal, but has not been received.
-It will doubtless appear in our next with a further notice of this important
-subject.</p>
-</div><!--chapter dedtrl-->
-
-<div class="chapter">
-<div><span class="xxpn" id="p225">{225}</span></div>
-<h2 class="h2nobreak"><span class="hsmall">NEW YORK</span>
-JOURNAL OF PHARMACY.
-<span class="hsmall"><span class="hdate">
-AUGUST, 1852.</span></span></h2>
-</div><!--chapter-->
-
-<h4>AMOUNT OF LOSS IN POWDERING VARIOUS
-DRUGS.</h4>
-
-<p>The following results are from the mill returns of a drug
-house in this city. They show the actual loss incurred in powdering
-these different articles, and are, so far, of service by indicating
-the practical loss arising from the process.</p>
-
-<p>As the per centage of loss varies very much with the quantity
-subjected to the process, <i>ceteris paribus</i>, the quantities of each
-parcel are also given.</p>
-
-<div class="dtablebox">
-<table class="fsz6" summary="">
-<tr>
- <td colspan="2"></td>
- <th>Quan-<br />tity<br />lbs.</th>
- <th>Per-<br />cen-<br />tage<br />of<br />loss</th>
- <th>Quan-<br />tity<br />lbs.</th>
- <th>Per-<br />cen-<br />tage<br />of<br />loss</th>
- <th>Quan-<br />tity<br />lbs.</th>
- <th>Per-<br />cen-<br />tage<br />of<br />loss</th>
- <th>Quan-<br />tity<br />lbs.</th>
- <th>Per-<br />cen-<br />tage<br />of<br />loss</th></tr>
-<tr>
- <td class="pleft phanga fsz6" colspan="2">SALTS, CRYSTALINE<br />SUBSTANCES, &amp;c.</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Acid. Tartaric.</td>
- <td class="pright">556</td>
- <td class="pright">1.08</td>
- <td class="pright">1426</td>
- <td class="pright">1.61</td>
- <td class="pright">723</td>
- <td class="pright">1.38</td>
- <td class="pright">256</td>
- <td class="pright">4.95</td></tr>
-<tr>
- <td class="pright"></td>
- <td class="pright"></td>
- <td class="pright">554</td>
- <td class="pright">1.44</td></tr>
-<tr>
- <td class="pright"></td>
- <td class="pleft phanga">Cobalt (Arsenic),</td>
- <td class="pright">122</td>
- <td class="pright">1.63</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Aluminæ &amp; Potassæ Sulph.</td>
- <td class="pright">74</td>
- <td class="pright">5.40</td>
- <td class="pright">49</td>
- <td class="pright">6.12</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Ammoniæ Muriat.</td>
- <td class="pright">202</td>
- <td class="pright">8.41</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Potassæ Nitrat.</td>
- <td class="pright">500</td>
- <td class="pright">3.98</td>
- <td class="pright">190</td>
- <td class="pright">2.36</td>
- <td class="pright">500</td>
- <td class="pright">1.80</td>
- <td class="pright">90</td>
- <td class="pright">3.06</td></tr>
-<tr>
- <td></td>
- <td class="pright"></td>
- <td class="pright">300</td>
- <td class="pright">8.17</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">——— Sulphat.</td>
- <td class="pright">63</td>
- <td class="pright">1.59</td>
- <td class="pright">98</td>
- <td class="pright">3.06</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">——— Bitartrat.</td>
- <td class="pright">1166</td>
- <td class="pright">.43</td>
- <td class="pright">2121</td>
- <td class="pright">.47</td>
- <td class="pright">1007</td>
- <td class="pright">.49</td>
- <td class="pright">1115</td>
- <td class="pright">.44</td></tr>
-<tr>
- <td></td>
- <td></td>
- <td class="pright">1115</td>
- <td class="pright">.41</td>
- <td class="pright">1160</td>
- <td class="pright">.52</td>
- <td class="pright">1116</td>
- <td class="pright">.44</td>
- <td class="pright">2650</td>
- <td class="pright">.37</td></tr>
-<tr>
- <td></td>
- <td></td>
- <td class="pright">1068</td>
- <td class="pright">.47</td>
- <td class="pright">1163</td>
- <td class="pright">.43</td>
- <td class="pright">1155</td>
- <td class="pright">.43</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Sodæ Biborat.</td>
- <td class="pright">110</td>
- <td class="pright">20.91</td>
- <td class="pright">50</td>
- <td class="pright">10.00</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Soap, Olive Oil, white,</td>
- <td class="pright">62</td>
- <td class="pright">33.33</td></tr>
-<tr>
- <td class="pleft phanga fsz6" colspan="2">VEGETABLE<br />SUBSTANCES, BARKS.</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Canella Alba,</td>
- <td class="pright">67</td>
- <td class="pright">4.48</td>
- <td class="pright">50</td>
- <td class="pright">4.04</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Cassia,</td>
- <td class="pright">30</td>
- <td class="pright">5.00</td>
- <td class="pright">74</td>
- <td class="pright">5.40</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Cinchona Maracaibo,</td>
- <td class="pright">165</td>
- <td class="pright">3.94</td>
- <td class="pright">174</td>
- <td class="pright">4.25</td>
- <td class="pright">921</td>
- <td class="pright">4.56</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga" id="p226">Cinchona Flava, (Calisaya)</td>
- <td class="pright">30</td>
- <td class="pright">5.00</td>
- <td class="pright">47</td>
- <td class="pright">4.25</td>
- <td class="pright">40</td>
- <td class="pright">5.00</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">——— Rubra,</td>
- <td class="pright">44</td>
- <td class="pright">4.54</td>
- <td class="pright">160</td>
- <td class="pright">4.05</td>
- <td class="pright">59</td>
- <td class="pright">5.08</td>
- <td class="pright">96</td>
- <td class="pright">4.66</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Mezerion,</td>
- <td class="pright">32</td>
- <td class="pright">7.81</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Myrica Cerifera,</td>
- <td class="pright">85</td>
- <td class="pright">3.53</td>
- <td class="pright">92</td>
- <td class="pright">4.34</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Prinos verticill.</td>
- <td class="pright">24</td>
- <td class="pright">4.16</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Prunus Virginian.</td>
- <td class="pright">50</td>
- <td class="pright">4.00</td></tr>
-<tr>
- <td class="pleft phanga fsz6" colspan="2">BERRIES.</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Capsicum,</td>
- <td class="pright">166</td>
- <td class="pright">3.67</td>
- <td class="pright">95</td>
- <td class="pright">3.15</td>
- <td class="pright">64</td>
- <td class="pright">4.69</td>
- <td class="pright">80</td>
- <td class="pright">3.75</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Cubeba,</td>
- <td class="pright">68</td>
- <td class="pright">4.32</td>
- <td class="pright">50</td>
- <td class="pright">4.00</td>
- <td class="pright">79</td>
- <td class="pright">3.77</td>
- <td class="pright">54</td>
- <td class="pright">3.70</td></tr>
-<tr>
- <td></td>
- <td></td>
- <td class="pright">92</td>
- <td class="pright">3.26</td></tr>
-<tr>
- <td class="pleft phanga fsz6" colspan="2">GUMS AND RESINS.</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Aloes Soct,</td>
- <td class="pright">220</td>
- <td class="pright">7.27</td>
- <td class="pright">320</td>
- <td class="pright">5.23</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Acacia,</td>
- <td class="pright">225</td>
- <td class="pright">4.00</td>
- <td class="pright">217</td>
- <td class="pright">3.64</td>
- <td class="pright">121</td>
- <td class="pright">4.13</td>
- <td class="pright">75</td>
- <td class="pright">4.69</td></tr>
-<tr>
- <td></td>
- <td></td>
- <td class="pright">64</td>
- <td class="pright">3.12</td>
- <td class="pright">93</td>
- <td class="pright">3.76</td>
- <td class="pright">64</td>
- <td class="pright">3.12</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Catechu,</td>
- <td class="pright">70</td>
- <td class="pright">4.28</td>
- <td class="pright">71</td>
- <td class="pright">4.89</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Euphorbium,</td>
- <td class="pright">52</td>
- <td class="pright">3.84</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Gambogia,</td>
- <td class="pright">31</td>
- <td class="pright">4.84</td>
- <td class="pright">38</td>
- <td class="pright">3.89</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Kino,</td>
- <td class="pright">50</td>
- <td class="pright">4.00</td>
- <td class="pright">44</td>
- <td class="pright">3.41</td>
- <td class="pright">44</td>
- <td class="pright">3.40</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Mastiche,</td>
- <td class="pright">15</td>
- <td class="pright">8.47</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Myrrha,</td>
- <td class="pright">117</td>
- <td class="pright">4.27</td>
- <td class="pright">35</td>
- <td class="pright">5.71</td>
- <td class="pright">5.69</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Opium,</td>
- <td class="pright">70</td>
- <td class="pright">7.14</td>
- <td class="pright">75</td>
- <td class="pright">6.66</td>
- <td class="pright">100</td>
- <td class="pright">5.00</td></tr>
-<tr>
- <td></td>
- <td></td>
- <td class="pright">50</td>
- <td class="pright">6.00</td>
- <td class="pright">61</td>
- <td class="pright">8.94</td>
- <td class="pright">25</td>
- <td class="pright">6.00</td>
- <td class="pright">95</td>
- <td class="pright">8.42</td></tr>
-<tr>
- <td></td>
- <td></td>
- <td class="pright">81</td>
- <td class="pright">4.93</td>
- <td class="pright">63</td>
- <td class="pright">6.72</td>
- <td class="pright">100</td>
- <td class="pright">7.25</td>
- <td class="pright">75</td>
- <td class="pright">6.00</td></tr>
-<tr>
- <td></td>
- <td></td>
- <td class="pright">131</td>
- <td class="pright">6.46</td>
- <td class="pright">62</td>
- <td class="pright">6.78</td>
- <td class="pright">27</td>
- <td class="pright">8.25</td>
- <td class="pright">155</td>
- <td class="pright">5.63</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Sanguis Draconis,</td>
- <td class="pright">10</td>
- <td class="pright">5.00</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Scammonium Lachrym,</td>
- <td class="pright">29</td>
- <td class="pright">6.89</td>
- <td class="pright">9</td>
- <td class="pright">8.33</td>
- <td class="pright">14</td>
- <td class="pright">3.57</td></tr>
-<tr>
- <td></td>
- <td></td>
- <td class="pright">45</td>
- <td class="pright">4.44</td>
- <td class="pright">35</td>
- <td class="pright">2.86</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Tragacantha,</td>
- <td class="pright">30</td>
- <td class="pright">5.00</td>
- <td class="pright">35</td>
- <td class="pright">4.28</td></tr>
-<tr>
- <td class="pleft phanga fsz6" colspan="2">HERBS.</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Aconite,</td>
- <td class="pright">38</td>
- <td class="pright">5.26</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Cicuta,</td>
- <td class="pright">35</td>
- <td class="pright">5.71</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Digitalis,</td>
- <td class="pright">47</td>
- <td class="pright">4.25</td>
- <td class="pright">32</td>
- <td class="pright">4.34</td>
- <td class="pright">28</td>
- <td class="pright">3.57</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Lobelia,</td>
- <td class="pright">28</td>
- <td class="pright">4.38</td>
- <td class="pright">34</td>
- <td class="pright">4.61</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Hyoscyamus,</td>
- <td class="pright">40</td>
- <td class="pright">8.75</td></tr>
-<tr>
- <td class="pleft phanga fsz6" colspan="2">FLOWERS.</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Arnica,</td>
- <td class="pright">17</td>
- <td class="pright">5.88</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Caryophyllus,</td>
- <td class="pright">28</td>
- <td class="pright">5.36</td>
- <td class="pright">55</td>
- <td class="pright">2.72</td>
- <td class="pright">50</td>
- <td class="pright">4.00</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Humulus,</td>
- <td class="pright">268</td>
- <td class="pright">4.10</td>
- <td class="pright">195</td>
- <td class="pright">5.12</td>
- <td class="pright">222</td>
- <td class="pright">3.80</td>
- <td class="pright">252</td>
- <td class="pright">3.57</td></tr>
-<tr>
- <td></td>
- <td></td>
- <td class="pright">218</td>
- <td class="pright">4.11</td>
- <td class="pright">193</td>
- <td class="pright">4.14</td></tr>
-<tr>
- <td class="pleft phanga fsz6" colspan="2">FRUIT.</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Colocynth.&#xfeff;<a
- class="aftntanc" href="#fn19" id="fnanch19">[19]</a></td>
- <td class="pright">26</td>
- <td class="pright">65.38</td>
- <td class="pright">55</td>
- <td class="pright">69.09</td></tr>
-<tr>
- <td class="pleft phanga fsz6" colspan="2">LEAVES.</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Buchu,</td>
- <td class="pright">104</td>
- <td class="pright">.96</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Senna Alex.</td>
- <td class="pright">41</td>
- <td class="pright">3.61</td>
- <td class="pright">26</td>
- <td class="pright">5.66</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Senna Indic.</td>
- <td class="pright">50</td>
- <td class="pright">3.96</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Uva Ursi,</td>
- <td class="pright">42</td>
- <td class="pright">4.70</td>
- <td class="pright">50</td>
- <td class="pright">4.00</td></tr>
-<tr>
- <td class="pleft phanga fsz6" colspan="2">ROOTS.</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Calamus,</td>
- <td class="pright">27</td>
- <td class="pright">7.41</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga" id="p227">Cimicifuga Racemosa,</td>
- <td class="pright">69</td>
- <td class="pright">4.34</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Colomba,</td>
- <td class="pright">194</td>
- <td class="pright">4.13</td>
- <td class="pright">95</td>
- <td class="pright">2.52</td>
- <td class="pright">79</td>
- <td class="pright">3.79</td>
- <td class="pright">94</td>
- <td class="pright">4.25</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Cucuma, ground,</td>
- <td class="pright">650</td>
- <td class="pright">3.08</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Gentiana, ground,</td>
- <td class="pright">227</td>
- <td class="pright">2.20</td>
- <td class="pright">280</td>
- <td class="pright">2.50</td>
- <td class="pright">149</td>
- <td class="pright">2.68</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">——— powdered,</td>
- <td class="pright">72</td>
- <td class="pright">4.17</td>
- <td class="pright">71</td>
- <td class="pright">4.22</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Glyyrrh.</td>
- <td class="pright">156</td>
- <td class="pright">3.84</td>
- <td class="pright">145</td>
- <td class="pright">4.13</td>
- <td class="pright">70</td>
- <td class="pright">4.11</td>
- <td class="pright">313</td>
- <td class="pright">4.15</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Helleborus,</td>
- <td class="pright">58</td>
- <td class="pright">4.31</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Hydrastis canad.</td>
- <td class="pright">37</td>
- <td class="pright">5.40</td>
- <td class="pright">50</td>
- <td class="pright">5.00</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Ictodes Fœtidus,</td>
- <td class="pright">25</td>
- <td class="pright">4.00</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Inula,</td>
- <td class="pright">50</td>
- <td class="pright">4.00</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Ipecac.</td>
- <td class="pright">99</td>
- <td class="pright">4.44</td>
- <td class="pright">80</td>
- <td class="pright">3.75</td>
- <td class="pright">109</td>
- <td class="pright">4.13</td>
- <td class="pright">73</td>
- <td class="pright">4.76</td></tr>
-<tr>
- <td></td>
- <td></td>
- <td class="pright">96</td>
- <td class="pright">4.17</td>
- <td class="pright">321</td>
- <td class="pright">3.42</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Iris Flor.</td>
- <td class="pright">232</td>
- <td class="pright">3.02</td>
- <td class="pright">138</td>
- <td class="pright">3.62</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Jalap,</td>
- <td class="pright">141</td>
- <td class="pright">4.52</td>
- <td class="pright">331</td>
- <td class="pright">3.76</td>
- <td class="pright">193</td>
- <td class="pright">4.39</td>
- <td class="pright">201</td>
- <td class="pright">4.23</td></tr>
-<tr>
- <td></td>
- <td></td>
- <td class="pright">271</td>
- <td class="pright">3.13</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Rheum Indic.</td>
- <td class="pright">96</td>
- <td class="pright">4.16</td>
- <td class="pright">78</td>
- <td class="pright">3.84</td>
- <td class="pright">75</td>
- <td class="pright">4.00</td>
- <td class="pright">40</td>
- <td class="pright">3.75</td></tr>
-<tr>
- <td></td>
- <td></td>
- <td class="pright">96</td>
- <td class="pright">4.14</td>
- <td class="pright">87</td>
- <td class="pright">3.44</td>
- <td class="pright">98</td>
- <td class="pright">3.57</td>
- <td class="pright">314</td>
- <td class="pright">4.46</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">——— Russicum,</td>
- <td class="pright">28</td>
- <td class="pright">3.57</td>
- <td class="pright">63</td>
- <td class="pright">4.76</td>
- <td class="pright">30</td>
- <td class="pright">4.17</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Sanguinaria,</td>
- <td class="pright">50</td>
- <td class="pright">3.96</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Salep,</td>
- <td class="pright">67</td>
- <td class="pright">6.66</td>
- <td class="pright">25</td>
- <td class="pright">4.00</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Scilla,</td>
- <td class="pright">27</td>
- <td class="pright">11.11</td>
- <td class="pright">81</td>
- <td class="pright">6.17</td>
- <td class="pright">55</td>
- <td class="pright">8.18</td>
- <td class="pright">40</td>
- <td class="pright">13.12</td></tr>
-<tr>
- <td></td>
- <td></td>
- <td class="pright">30</td>
- <td class="pright">16.66</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Senega,</td>
- <td class="pright">59</td>
- <td class="pright">5.08</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Serpentara,</td>
- <td class="pright">45</td>
- <td class="pright">4.44</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Spigelia Marilan.</td>
- <td class="pright">52</td>
- <td class="pright">4.76</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Valeriana,</td>
- <td class="pright">47</td>
- <td class="pright">4.24</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Zingib. Jam.</td>
- <td class="pright">114</td>
- <td class="pright">4.37</td>
- <td class="pright">58</td>
- <td class="pright">5.17</td>
- <td class="pright">115</td>
- <td class="pright">4.00</td></tr>
-<tr>
- <td class="pleft phanga fsz6" colspan="2">SEEDS.</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Anisum,</td>
- <td class="pright">58</td>
- <td class="pright">4.27</td>
- <td class="pright">102</td>
- <td class="pright">2.94</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Cardamomum,&#xfeff;<a
- class="aftntanc" href="#fn20" id="fnanch20">[20]</a></td>
- <td class="pright">50</td>
- <td class="pright">26.00</td>
- <td class="pright">61</td>
- <td class="pright">4.92</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Colchicum,</td>
- <td class="pright">61</td>
- <td class="pright">4.09</td>
- <td class="pright">37</td>
- <td class="pright">4.00</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Coriandrum,</td>
- <td class="pright">99</td>
- <td class="pright">2.02</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Linum, ground,</td>
- <td class="pright">533</td>
- <td class="pright">.93</td>
- <td class="pright">.81</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Lobelia,</td>
- <td class="pright">67</td>
- <td class="pright">7.46</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Nux Vomica,</td>
- <td class="pright">100</td>
- <td class="pright">3.00</td>
- <td class="pright">52</td>
- <td class="pright">3.84</td>
- <td class="pright">66</td>
- <td class="pright">4.54</td></tr>
-<tr>
- <td class="pleft phanga fsz6" colspan="2">SUNDRIES.</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Cantharis,</td>
- <td class="pright">68</td>
- <td class="pright">4.41</td>
- <td class="pright">68</td>
- <td class="pright">4.41</td>
- <td class="pright">65</td>
- <td class="pright">3.82</td>
- <td class="pright">112</td>
- <td class="pright">3.57</td></tr>
-<tr>
- <td></td>
- <td></td>
- <td class="pright">39</td>
- <td class="pright">3.79</td>
- <td class="pright">41</td>
- <td class="pright">4.88</td>
- <td class="pright">53</td>
- <td class="pright">6.00</td>
- <td class="pright">42</td>
- <td class="pright">3.57</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Ext. Colocynth. Comp.</td>
- <td class="pright">33</td>
- <td class="pright">4.57</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Ext. Glyyrrh.</td>
- <td class="pright">50</td>
- <td class="pright">4.08</td>
- <td class="pright">200</td>
- <td class="pright">3.50</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Ext. Jalap,</td>
- <td class="pright">20</td>
- <td class="pright">4.86</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Galla,</td>
- <td class="pright">70</td>
- <td class="pright">4.21</td>
- <td class="pright">73</td>
- <td class="pright">4.11</td>
- <td class="pright">28</td>
- <td class="pright">5.26</td>
- <td class="pright">56</td>
- <td class="pright">3.54</td></tr>
-<tr>
- <td></td>
- <td class="pleft phanga">Secale Cornut.</td>
- <td class="pright">31</td>
- <td class="pright">4.79</td>
- <td class="pright">29</td>
- <td class="pright">5.08</td>
- <td class="pright">30</td>
- <td class="pright">3.33</td></tr>
-</table>
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch19" id="fn19">[19]</a>
-This includes loss of Seeds.</p>
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch20" id="fn20">[20]</a>
-Of this 21.00 is loss in Hulls.</p></div>
-</div><!--dtablebox-->
-
-<p>From the above results the following table, showing the
-average loss on each article, has been calculated:―
-<span class="xxpn" id="p228">{228}</span></p>
-
-<div class="dtablebox">
-<table summary="">
-<tr>
- <th colspan="2"></th>
- <th>Average<br />per&#160;centage<br />of Loss.</th></tr>
-<tr>
- <td class="pleft fsz6" colspan="2"><p class="pleft phanga">SALTS, CRYSTALINE<br />SUBSTANCES, &amp;c.</p></td></tr>
-<tr>
- <th></th>
- <td class="pleft">Acid, Tartaric</td>
- <td class="pright">1.50</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Cobalt (Arsenic)</td>
- <td class="pright">1.63</td></tr>
-<tr>
- <th></th>
- <td class="pleft"><p class="pleft phanga">Aluminæ et Potassæ,<br />sulphat. (calcined)</p></td>
- <td class="pright">5.76</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Ammoniæ Muriat.</td>
- <td class="pright">8.41</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Potassæ Nitrat.</td>
- <td class="pright">2.80</td></tr>
-<tr>
- <th></th>
- <td class="pleft">——— Sulphat.</td>
- <td class="pright">2.37</td></tr>
-<tr>
- <th></th>
- <td class="pleft">——— Bi-tartrat.</td>
- <td class="pright">.45</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Sodæ Bi-Borat.</td>
- <td class="pright">15.45</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Soap, Olive Oil, white</td>
- <td class="pright">33.33</td></tr>
-<tr>
- <td class="pleft fsz6" colspan="2"><p class="pleft phanga">VEGETABLE
- SUBSTANCES.<br />BARKS.</p></td></tr>
-<tr>
- <th></th>
- <td class="pleft">Cannella Alba</td>
- <td class="pright">4.26</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Cassia</td>
- <td class="pright">5.20</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Cinchona Maracaibo</td>
- <td class="pright">4.25</td></tr>
-<tr>
- <th></th>
- <td class="pleft">——— Flava (Calisaya)</td>
- <td class="pright">4.75</td></tr>
-<tr>
- <th></th>
- <td class="pleft">——— Rubra</td>
- <td class="pright">4.58</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Mezerion</td>
- <td class="pright">7.81</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Myrica Cerifera</td>
- <td class="pright">3.98</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Prinos Verticill.</td>
- <td class="pright">4.16</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Prunus Virginian.</td>
- <td class="pright">4.00</td></tr>
-<tr>
- <td class="pleft fsz6" colspan="2">BERRIES.</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Capsicum</td>
- <td class="pright">3.81</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Cubeba</td>
- <td class="pright">3.81</td></tr>
-<tr>
- <td class="pleft fsz6" colspan="2">GUMS AND RESINS.</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Aloes Soct.</td>
- <td class="pright">6.25</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Acacia</td>
- <td class="pright">3.78</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Catechu</td>
- <td class="pright">4.58</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Euphorbium</td>
- <td class="pright">3.84</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Gambogia</td>
- <td class="pright">4.36</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Kino</td>
- <td class="pright">3.60</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Mastiche</td>
- <td class="pright">8.47</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Myrrha</td>
- <td class="pright">3.15</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Opium</td>
- <td class="pright">6.61</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Sanguis Draconis</td>
- <td class="pright">5.00</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Scammonium Lachrym</td>
- <td class="pright">5.22</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Tragacantha</td>
- <td class="pright">4.64</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Spegelia Mariland.</td>
- <td class="pright">4.76</td></tr>
-<tr>
- <td class="pleft fsz6" colspan="2">HERBS.</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Aconite</td>
- <td class="pright">5.26</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Cicuta</td>
- <td class="pright">5.71</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Digitalis</td>
- <td class="pright">4.04</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Lobelia</td>
- <td class="pright">4.49</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Hyosciamus</td>
- <td class="pright">8.75</td></tr>
-<tr>
- <td class="pleft fsz6" colspan="2">FLOWERS.</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Arnica</td>
- <td class="pright">5.88</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Caryoph.</td>
- <td class="pright">4.03</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Humulus</td>
- <td class="pright">4.14</td></tr>
-<tr>
- <td class="pleft fsz6" colspan="2">FRUIT.</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Colocynth.</td>
- <td class="pright">67.23</td></tr>
-<tr>
- <td class="pleft fsz6" colspan="2">LEAVES.</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Buchu</td>
- <td class="pright">.96</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Senna Alex.</td>
- <td class="pright">4.63</td></tr>
-<tr>
- <th></th>
- <td class="pleft">——— Ind.</td>
- <td class="pright">3.96</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Uva Ursi</td>
- <td class="pright">4.35</td></tr>
-<tr>
- <td class="pleft fsz6" colspan="2">ROOTS.</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Calamus</td>
- <td class="pright">7.41</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Cimicituga Racemosa</td>
- <td class="pright">4.34</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Colomba</td>
- <td class="pright">3.47</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Curcuma ground,</td>
- <td class="pright">3.08</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Gentian. ground,</td>
- <td class="pright">2.46</td></tr>
-<tr>
- <th></th>
- <td class="pleft">——— powdered</td>
- <td class="pright">2.20</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Glyyrrh.</td>
- <td class="pright">4.06</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Helleborus</td>
- <td class="pright">4.31</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Hydrastis Canad.</td>
- <td class="pright">5.20</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Iclodes Fœtidus</td>
- <td class="pright">4.00</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Inula</td>
- <td class="pright">4.00</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Ipecacuanha</td>
- <td class="pright">4.10</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Iris Flor.</td>
- <td class="pright">3.34</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Jalap</td>
- <td class="pright">4.00</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Rheum Indicum</td>
- <td class="pright">3.91</td></tr>
-<tr>
- <th></th>
- <td class="pleft">——— Russic.</td>
- <td class="pright">4.17</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Sanguinaria</td>
- <td class="pright">3.96</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Salep</td>
- <td class="pright">3.84</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Scilla</td>
- <td class="pright">9.43</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Senega</td>
- <td class="pright">5.08</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Serpentaria</td>
- <td class="pright">4.44</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Lobelia</td>
- <td class="pright">7.46</td></tr>
-<tr>
- <td class="pleft" id="p229"></td>
- <td class="pleft">Valerian.</td>
- <td class="pright">4.24</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Zingib. Jam.</td>
- <td class="pright">4.51</td></tr>
-<tr>
- <td class="pleft fsz6" colspan="2">SEEDS.</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Anisum</td>
- <td class="pright">3.60</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Cardamom.</td>
- <td class="pright">4.92</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Colchicum</td>
- <td class="pright">4.05</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Coriandrum</td>
- <td class="pright">2.02</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Linum (ground,)</td>
- <td class="pright">.87</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Nux Vomica</td>
- <td class="pright">3.79</td></tr>
-<tr>
- <td class="pleft fsz6" colspan="2">SUNDRIES.</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Cantharis.</td>
- <td class="pright">4.31</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Ext. Coloc. comp.</td>
- <td class="pright">4.54</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Ext. Glyyrrh.</td>
- <td class="pright">6.25</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Ext. Jalap</td>
- <td class="pright">4.87</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Galla</td>
- <td class="pright">4.34</td></tr>
-<tr>
- <th></th>
- <td class="pleft">Secale Cornutum</td>
- <td class="pright">4.39</td></tr>
-</table>
-</div><!--dtablebox-->
-
-<hr class="hr34" />
-
-<div class="section">
-<h3>ON THE PREPARATIONS OF IRON USED IN
-MEDICINE.
-<span class="hsmall">
-BY HENRY WURTZ.</span></h3>
-</div><!--section-->
-
-<p>The preparations of iron being among the most important
-articles of the Pharmacopœia, it is surprising that so little attention
-is paid by many druggists and phar­ma­ceu­tists to the
-preparation and preservation of these articles in a pure state.
-The greater part of the preparations of iron to be found in the
-shops are far from having the chemical composition indicated
-by their labels, and in fact, few of the formulas given in any
-of the Pharmacopœias for preparations of iron, are capable of
-giving even tolerably pure products.</p>
-
-<p>If there is any difference in a therapeutical point of view,
-between compounds of the protoxide and compounds of the
-peroxide of iron, and if any value is to be attached to definite
-composition in medicines, enabling physicians to administer
-<i>known quantities</i> to their patients, this state of affairs should
-not exist. Persons who handle the compounds of protoxide of
-iron, should be aware of the fact that few substances are more
-speedily and completely destroyed than these by
-the action of <span class="xxpn" id="p230">{230}</span>
-moist air; thus, one hundred parts of the <i>carbonate of iron</i>, require
-less than seven parts of oxygen for complete conversion into
-<i>sesquioxide of iron</i>, and one hundred parts of pure <i>copperas</i>
-require less than <i>three</i> parts of the same element to effect a
-like change in all the protoxide of iron which it contains.</p>
-
-<p>As these protoxide of iron compounds, however, oxydate
-themselves only in the presence of water, the mode of preservation
-which I would propose, is very simple: It is only necessary
-to dry them perfectly and to introduce into the vessels in
-which they are to be preserved, a few small lumps of <i>quicklime</i>,
-which will keep the air in the interior of the vessel
-continually dry. To prevent any contamination of the preparation
-by direct contact with the lime, the latter must be
-securely folded in one or two thicknesses of filtering paper.</p>
-
-<p>The iodide of iron and the carbonate, phosphate, arseniate,
-lactate and citrate of protoxide of iron may be preserved in
-this way, also the anhydrous sulphate (Ferri Sulphas Siccatum),
-but it is evident that <i>crystallized</i> copperas would not retain a
-definite composition under these circumstances, because it
-would soon lose its crystal water. To preserve crystallized
-copperas, it is best to pulverize the crystals rather finely and
-dry the powder by repeatedly pressing strongly between folds
-of filtering paper, before putting up. Some have attempted
-to preserve the crystals under the surface of strong alcohol, but
-having tried this plan I must report unfavorably, for although
-the copperas remained for a while intact, yet, on examination
-after a considerable lapse of time, a large proportion of sesquioxide
-of iron was found. In fact, this result was to be anticipated
-in consideration of the well-known fact that strong
-alcohol has itself an attraction for oxygen, and always absorbs
-a certain amount of it when exposed to the air, serving
-thus merely as a medium for transmitting oxygen to any copperas
-which may be immersed in it.</p>
-
-<p>I think it may be confidently stated that none of the protoxide
-compounds of iron should be kept in solution, either in
-water or alcohol, for medical purposes, unless
-in vessels <span class="xxpn" id="p231">{231}</span>
-hermetically closed. Some say, not­with­stand­ing, that <i>iodide of
-iron</i> in solution may be preserved by keeping in it a piece of
-metallic iron, a deposite being formed, however, in the liquid
-which is supposed to be nothing more than sesquioxide of iron,
-but in which I strongly suspect the presence of a <i>subiodide of
-iron</i>, and consequent abstraction of iodine from the solution.
-Of course, however, this question can only be settled by a
-chemical examination of the deposit alluded to.</p>
-
-<p>The sulphate of iron is the starting point in preparing all the
-compounds of iron which are used in medicine, and it is important
-therefore, to know how to separate easily the impurities
-which are contingent to this extremely cheap article of commerce.
-The impurities which commercial copperas most frequently
-contains are more or less sulphate of sesquioxide, together
-with a little sesquichloride of iron, and more rarely, traces
-of the sulphate of copperas, manganese, alumina and lime.
-A small addition of <i>oxide of silver</i> to the solution will precipitate
-all chlorine present, and subsequent digestion for a few
-minutes with <i>carbonate of baryta</i> will remove every trace of
-sulphate of sesquioxide of iron, and of alumina. Copper may, of
-course, be removed by immersion of metallic iron. Traces of
-lime may be separated by re­crys­tal­li­za­tion, but if traces of
-<i>manganese</i> are present, as is sometimes the case, I, know no
-way by which it can be separated. I am not aware, however,
-that the presence of such a trace of manganese in a preparation
-of iron would impair its therapeutical value. Another method
-of getting rid of the sulphate of sesquioxide is to acidulate the
-solution with sulphuric acid and, agitate with some pulverized
-<i>protosulphide of iron</i>, which will reduce the sesquioxide to
-protoxide.</p>
-
-<p>When a solution of pure sulphate of protoxide of iron, free
-from sesquioxide, merely is required for preparing the carbonate
-or other insoluble protocompound, the method with carbonate
-of baryta is to be preferred, and in some rare cases
-when the presence of sulphate of lime in the solution of copperas
-obtained is of no importance, carbonate of lime
-may be <span class="xxpn" id="p232">{232}</span>
-substituted for carbonate of baryta, and will accomplish the same
-object.</p>
-
-<p>When a solution of pure protosulphate of iron thus obtained
-is used for the preparation of carbonate of iron, care must be
-taken to use for precipitating, a solution of carbonate of soda
-which is free from silica, phosphoric acid, etc., which if present
-would surely go down with the precipitate. The precipitated
-carbonate should be washed with water which has been freed
-from <i>air</i> by previous boiling and better with water which is
-still boiling hot, dried as quickly as possible, first by pressure
-between folds of paper and then in a water bath, and preserved
-in well closed vessels containing lumps of quicklime as recommended
-above.</p>
-
-<p>The formulas given in the Pharmacopœias for the preparation
-of the sesquioxide of iron, which besides being employed as a
-remedy itself, is used in preparing all the other sesquicompounds
-of iron used in Pharmacy, appear to be open to great
-objection on the ground of affording, instead of a pure sesquioxide
-of iron, an <i>indefinite mixture</i> of sesquioxide with carbonate
-of the protoxide. No necessity whatever exists for this;
-the following <i>modus operandi</i>, besides being much less troublesome
-in its execution than those given by the Pharmacopœias,
-will furnish a product of constant composition, being an anhydrous
-sesquioxide of iron free from protoxide, and either chemically
-pure or very nearly so. The materials required are, five
-parts of commercial copperas which has been recrystallized
-once or twice, six parts of crystallized pure carbonate of soda,
-(Na&#x202f;O,&#x202f;C&#x202f;O<sup>2</sup> + 10&#x202f;HO) or two parts of dry carbonate of soda,
-and one part of nitrate of soda. (Chili saltpetre). The carbonate
-and nitrate of soda are dissolved together in one portion
-of hot water and the copperas in another portion, and the
-two solutions, after filtrating mixed together, evaporated to
-dryness and the dry mass exposed to the lowest possible red
-heat for a few minutes. On pouring water upon the mass thus
-obtained, sulphate of soda and nitrate of soda dissolve and sesquioxide
-of iron separates as a heavy powder
-very easily washed <span class="xxpn" id="p233">{233}</span>
-by decantation. When thoroughly washed and dried it appears
-as a dark reddish brown <i>perfectly impalpable</i> powder, which
-is perfectly and easily soluble in dilute acids, and even in
-acetic acid and the composition of which is Fe<sup>2</sup>&#x202f;O<sup>3</sup>.</p>
-
-<p>One great advantage of this process, is an avoidance of the
-immense tedium of <i>washing the precipitates</i> obtained in the
-ordinary processes.</p>
-
-<div class="dkeeptogether">
-<p>I have but one more suggestion to make with regard to preparations
-of iron, and that is in the preparation of <i>Ferri
-Pulvis</i> or powder of iron by reduction of the sesquioxide—to
-propose the substitution of common coal gas as a reducing
-agent for the hydrogen gas directed by all the formulas, the
-former being obviously so vastly more convenient and far less
-expensive.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>NOTE ON THE PREPARATION OF BESTUCHEFF’S TINCTURE.
-<span class="hsmall">
-BY FR. MAŸER.</span></h3>
-</div><!--section-->
-
-<p>Pure sesqui-chloride and poto-chloride of iron are unknown
-to the Pharmacopœia of the United States, a fact which seems
-strange to a German pharmaceutist, since they are met with
-in every German dispensatory, and require great care for their
-proper preparation.</p>
-
-<p>The American Pharmacopœia indeed recognizes a tincture
-of chloride of iron, prepared by dissolving the sub-carbonate
-(sesqui oxide) of iron in hydrochloric acid, and adding alcohol.
-This tincture would be rejected throughout Germany, since
-they endeavor there to obtain the preparations of perchloride of
-iron free from any traces of sesqui-chloride, while those of the
-sesqui-chloride should contain no admixture of the proto salt.
-This shows the practical character of
-the American <span class="xxpn" id="p234">{234}</span>
-Pharmacopœia, which does not demand of the apothecary a purity of
-preparation which it is next to impossible to meet.</p>
-
-<p>While making this acknowledgment, a good formula for the
-preparation of sesqui-chloride of iron still remains desirable.—This
-drug too, is sometimes used in American practice, as may
-be seen from the “Notes on Pharmacy,” by Mr. Benjamin
-Canavan, in the May number of the <i>New York Journal of
-Pharmacy</i>. Mr. Canavan has given one of the oldest formulæ
-from the Austrian Pharmacopœia of 1820, as found in the
-<i>Pharmacopie Universelle</i> by Jourdan. This formula directs
-us to dissolve the iron in a kind of aqua regia, and then to
-evaporate the superfluous acid by means of a sand bath. The
-sesqui-chloride thus obtained is employed in the preparation of
-“Bestucheff’s tincture,” by dissolving one ounce of it in an
-ounce of water, adding twelve ounces of ether and agitating,
-then decanting the ethereal solution, and finally mixing it with
-four times its bulk of alcohol.</p>
-
-<p>Having had frequent occasion to prepare this tincture as
-well in Germany as in this city, it may not be unsuitable if I
-give here the formula for its preparation, which seems to me
-the most convenient, as well as my reasons for thinking so.</p>
-
-<p>The sesqui-chloride of iron may be obtained in a pure and
-neutral state, by passing a current of chlorine gas through a
-solution of proto-chloride of iron, until a solution of the red
-ferrocyanide of potassium of Gmelin no longer produces a blue
-precipitate, and then evaporating the solution by means of a
-water bath. In this manner the salt can readily be obtained
-in a crystalline form. One ounce of the crystals thus obtained
-is to be dissolved in twelve ounces of ether, if we retain the alleged
-proportions, mixed with four times its bulk of alcohol,
-and finally bleached by exposing it to the direct light of the
-sun.</p>
-
-<p>The Prussian Pharmacopœia of 1846 gives the following proportions:—One
-drachm of the sesqui-chloride of iron, or two
-drachms of the aqueous solution, one fluid ounce of ether, and
-three fluid
-ounces of alcohol. <span class="xxpn" id="p235">{235}</span></p>
-
-<p>Here we have to notice,—1st, That it is preferable to take
-ether and alcohol by weight rather than by measure, since their
-volume is very much influenced by the temperature, which
-may range from 32° to 60° or 80.°</p>
-
-<p>2nd, That the sesqui-chloride, prepared with nitro-nuriatic
-acid, is not so easy to obtain in crystals, in consequence of the
-adhering nitro-nuriatic acid, which is always retained in small
-quantities. On the other hand, by drying the salt you will, in
-almost every case, spoil a quantity of it by driving off too much
-of the acid.</p>
-
-<p>3rd, That the sesqui-chloride of iron, if in crystals, is easily
-and wholly soluble in ether, while the aqueous solution of it is
-but partially so, a portion being decomposed, as is evidenced
-by the solution becoming muddy. The ethereal solution, if
-prepared in the last mentioned manner, must be of uncertain
-strength, which is avoided by the first.</p>
-
-<div class="dkeeptogether">
-<p>In Europe Bestucheff’s tincture is much used by physicians.
-It sometimes agrees better in the bleached state, sometimes
-when colored. When first prepared the tincture has a yellow
-hue, which it loses by exposure to the light of the sun. If, after
-it has thus been bleached, it is placed in a dark closet, it again
-becomes yellowish, though the color is not so deep as at first.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON SOCOTRINE ALOE JUICE, OR LIQUID SOCOTRINE ALOES.
-<span class="hsmall">
-BY JONATHAN PEREIRA, M. D., F. R. S.,</span>
-<span class="htiny">
-(Physician to the London Hospital.)</span></h3>
-</div><!--section-->
-
-<p>It has long been known that the Socotrine aloes imported
-into England varies considerably in its consistency, and is sometimes
-met with in a soft or semi-fluid state. Frequently, on
-opening a package of this sort of aloes, the interior
-is found to <span class="xxpn" id="p236">{236}</span>
-be quite soft, while the exterior is firm and hard. In general
-this arises from insufficient evaporation of the aloe juice.</p>
-
-<p>In the third edition of my <i>Elements of Materia Medica</i>,
-(vol. ii., part 1, p. 1077, published in 1850,) I have briefly referred
-to a soft or semi-liquid Socotrine aloes, which had a
-bright or palm-oil yellow color and odor. At that time I had but
-little opportunity of investigating this very interesting drug;
-but a large importation of it having recently taken place, I have
-more fully examined it, and, as it appears to me to be the raw
-or unboiled juice of the plant yielding what is known in commerce
-as Socotrine aloes, I propose to distinguish it from the
-ordinary soft Socotrine aloes by the name of “<i>Socotrine Aloe
-Juice</i>.”</p>
-
-<p>Messrs. Horner, the holders of the whole of the present importation
-of this juice, inform me that it was purchased of the
-Arabs up the Red Sea, by a merchant, who was assured by the
-venders that it was very fine aloe juice, and had not been boiled
-or otherwise altered. It was imported into London by way of
-Madras, in casks each containing six cwt. I am informed that
-the contents of some of the packages have undergone decomposition
-during the voyage.</p>
-
-<p>Its consistence is that of treacle or very thin honey; its color
-deep orange or palm oil yellow; its odor powerful, fragrant,
-and resembling that of fine Socotrine aloes. By standing it
-separates into two parts,—an inferior, paler colored, opaque,
-finely granular portion, and a superior, darker colored, transparent
-liquid. The latter forms, however, a very small portion
-of the whole mass.</p>
-
-<p>When the granular portion is submitted to microscopic examination,
-it is found that the opacity and granular appearance
-arise from myriads of beautiful prismatic crystals. If a temperature
-of 132° Fah. be applied to the juice these crystals
-melt or dissolve, and the juice becomes deep red and transparent;
-and when the liquid becomes cold it retains its transparency,
-and does not deposit any crystals. By evaporation the
-juice yields a solid, transparent extract, having
-all the <span class="xxpn" id="p237">{237}</span>
-characters of fine Socotrine aloes, in which no traces of crystalline texture
-can be discovered. Mr. Jacob Bell has ascertained that
-<span class="nowrap">14 lbs.</span>
-of the juice yield 8lbs. 12ozs. of solid extract, or
-<span class="nowrap">62&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub></span> per cent.
-when the juice is mixed with cold distilled water, it becomes
-opaque yellow, and renders the water turbid, but is not miscible
-with it. If, however, heat be applied, the juice dissolves
-in the water, forming an almost clear, rich red liquid. As the
-solution cools, it at first becomes turbid, owing to the separation
-of an opaque yellow precipitate, which, apparently, is the
-crystalline principle in an amorphous form. This gradually
-separates from the liquid and collects as a clear resiniform mass
-(commonly called the <i>resin</i> of aloes) at the bottom of the vessel,
-leaving the supernatant liquid tolerably clear. If the juice
-be shaken up with rectified spirit of wine, an uniform clear
-mixture is obtained, from which numerous yellow crystals rapidly
-fall to the bottom of the liquid. Similar results are obtained
-when we mix the juice with equal parts of rectified
-spirit of wine and water.</p>
-
-<p>This crystalline constituent of Socotrine aloes is doubtless,
-either the <i>aloin</i><a class="aftntanc" href="#fn21" id="fnanch21">21</a>
-described by Messrs. T. &amp; H. Smith, of Edinburgh,
-and by Dr. Stenhouse, or a principle closely allied to it.</p>
-
-<p>Dr. Stenhouse, to whom I have given a sample of it, is now
-engaged in its investigation; and in a letter which I have received
-from him, he says, that though he has not been able to
-get the aloin ready for analysis, yet from the experiments he
-has already made with it, he has scarcely a doubt that it will
-be found identical with that formerly obtained from Barbados
-aloes. It forms, he adds, a precisely similar combination with
-bromine, and, in short, agrees with it in every particular; I
-shall, therefore, provisionally term this crystalline principle
-the <i>aloin of Socotrine aloes</i>. On comparing it with a fine
-specimen of aloin, kindly presented to me by Messrs. Smith, I
-find its crystals smaller and more tapering—the summits of the
-crystals being more acute.</p>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch21" id="fn21">21</a>
-See New York Journal of Pharmacy, No. vi.
-page <a href="#p177" title="go to p. 177">177.</a></p></div>
-
-<p>In drying, the crystals of the Socotrine
-aloin have a strong <span class="xxpn" id="p238">{238}</span>
-tendency to break up; so that crystals which in the moist state
-are moderately large and regular, become small and pulverulent
-when dry. Like the aloin crystals of Messrs. Smith, the
-aloin crystals of Socotrine aloes, strongly doubly refract and
-depolarize light, and are, therefore, beautiful objects when
-viewed by the polarizing microscope.</p>
-
-<p>The crystals of aloin contained in Socotrine aloe juice cannot
-be confounded with the crystals of oxalate and phosphate of
-lime found in the juices of various plants, and which are called
-by botanists <i>raphides</i>. The appearance under the microscope
-of the former is very different from that of the latter. Moreover,
-the ready fusibility, solubility, and complete combustibility
-of aloin crystals easily distinguish them from the calcareous
-salts just referred to. On platinum foil the aloin burns
-without leaving any residue, except such as may arise from the
-presence of traces of some foreign matter.</p>
-
-<p>Aloin may be readily obtained from the juice by mixing the
-latter with spirit (either rectified or proof,) and collecting and
-drying the precipitate. When procured in this way it appears
-to the naked eye like a yellow powder; but when examined by
-the microscope it is found to consist of minute fragments of
-crystals.</p>
-
-<p>The tincture from which the aloin has been separated, yields
-by distillation a spirit having the fragrant odor of the juice;
-showing that the latter contains some volatile odorous principle.
-By evaporation the tincture yields a resiniform extract.</p>
-
-<p>In the first edition of my <i>Elements of Materia Medica</i>, published
-1840, I have stated, that by digesting hepatic aloes in
-rectified spirit of wine, a yellowish granular powder is obtained
-which is insoluble in [cold] water, alcohol, ether, and dilute
-sulphuric acid, but is readily soluble in a solution of caustic
-potash, forming a red colored liquid. The powder like residue
-here referred to, is identical with the aloin of Socotrine aloes.
-When examined by the microscope, it is perceived to consist
-of very minute prismatic crystals, which depolarize polarized
-light like the larger crystals of aloin above
-referred to. I <span class="xxpn" id="p239">{239}</span>
-think, therefore, that it may be safely inferred that hepatic
-aloes has been prepared without the employment of artificial
-heat, and that its opacity is due to the presence of minute crystals
-of aloin.</p>
-
-<p>When Socotrine aloes is digested in rectified spirit, an insoluble
-portion is also obtained; but its color, instead of being
-yellow, as in hepatic aloes, is dark brown. On submitting this
-dark brown insoluble portion to microscopic examination, I
-find that it contains depolarizing crystals.</p>
-
-<p>Artificial Socotrine aloes (prepared by evaporating this aloe
-juice) also yields, when digested in rectified spirit, a dark
-brown insoluble portion.</p>
-
-<p>I think, therefore, that Socotrine aloes differs from hepatic
-aloes in the circumstance of its having been prepared by the
-aid of artificial heat; by which its aloin constituent has become
-altered. This inference is further substantiated by the
-fact, that after it has been melted, hepatic aloes is found to
-have acquired the clearness and transparency of the Socotrine
-sort.</p>
-
-<p>The clear supernatant portion of aloe juice, from which the
-above crystals have subsided, would probably also yield, by
-spontaneous evaporation, an extract resembling, or identical
-with, Socotrine aloes.</p>
-
-<p>That Socotrine and hepatic aloes were obtained from the same
-plant, and were not different species of aloes, I have long suspected;
-and in the first edition of my work on Materia Medica,
-published in 1840, I have observed that “the similarity of the
-odor of Socotrine and hepatic aloes leads to the suspicion that
-they are obtained from the same plant; and which is further
-confirmed by the two being sometimes brought over intermixed,
-the Socotrine occasionally forming a vein in a cask of the hepatic
-aloes.”</p>
-
-<p>The intermixture of the two sorts of aloes in the same cask
-might be explained by supposing that the consolidation of the
-clear portion of the juice has produced the so-called Socotrine
-aloes; while the opaque aloin containing portion of juice has
-yielded what is
-termed hepatic aloes. <span class="xxpn" id="p240">{240}</span></p>
-
-<p>In the third edition of my work above alluded to, I have stated
-that the name of <i>opaque liver-colored Socotrine aloes</i> might
-with propriety be applied to hepatic aloes. But until the present
-time I have been unable to offer a plausible explanation
-of the cause of the difference in these two commercial kinds of
-aloes.</p>
-
-<p>From the preceding remarks I think we may infer:</p>
-
-<p>1. That <i>aloin</i> pre-exists in a crystalline form in the juice of
-Socotrine aloes.</p>
-
-<p>2. That the substance which deposits as a decoction of Socotrine
-aloes cools, and which is usually termed the <i>resin</i> or the
-<i>resinoid</i> of Socotrine aloes, is the aloin in a modified state.</p>
-
-<p>3. That hepatic aloes<a class="aftntanc" href="#fn22" id="fnanch22">22</a>
-is the juice of the Socotrine aloes
-plant which has been solified without the aid of artificial heat.</p>
-
-<p>4. That hepatic aloes owes its opacity to the presence of minute
-crystals of aloin.</p>
-
-<div class="dkeeptogether">
-<p>5. That the juice of Socotrine aloes yields, when evaporated
-by artificial heat, an extract possessing all the properties of
-commercial Socotrine aloes.—<i>Pharm. Journ. April, 1852.</i></p>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch22" id="fn22">22</a>
-By the term “<i>hepatic aloes</i>” I mean the opaque
-liver-colored aloes imported into England from the East Indies (usually
-from Bombay). This sort of aloes is very different from the <i>hepatic
-Barbadoes aloes</i>, which formerly appears to have been exclusively
-called “hepatic aloes.”</p></div>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>THE CHEMICAL COMPOSITION OF COD-LIVER OIL.
-<span class="hsmall">
-BY DR. H. L. WINCKLER.</span></h3>
-</div><!--section-->
-
-<p>Of all the drugs which have been introduced into medical practice
-within the last ten years, none has excited so much attention,
-and has met with so favorable a reception, as cod-liver oil. To
-what principles its peculiar properties are to be referred, has
-not yet been ascertained. By some they
-have been attributed <span class="xxpn" id="p241">{241}</span>
-to the presence of a small quantity of iodine; but this has not
-proved a satisfactory explanation. Many chemists have endeavoured
-to solve this problem, but without success.—Amongst
-others, Dr. de Jongh, who attributed its virtue to
-gaduin—a new principle which he had discovered in the oil,
-with the usual fatty acids, and some of the constituents of bile,
-and traces of iodine and bromine.</p>
-
-<p>The results of my researches are different, in an important
-degree. According to my experience, cod-liver oil is <i>an organic
-whole</i> of a peculiar character, differing in its chemical
-composition from any of the fat oils which have been heretofore
-applied to medical purposes.</p>
-
-<p>The evidences for this conclusion are the following:―</p>
-
-<p>1. When the clear, pale cod-liver oil is saponified with potash,
-and the resulting soap treated with tartaric acid, oleic and
-margaric acids are obtained.</p>
-
-<p>2. When a mixture of six parts of caustic potash, twenty-four
-parts of distilled water, and twenty-four parts of cod-liver
-oil, after being allowed to remain at an ordinary temperature,
-and often shaken, and finally diluted with twenty-four parts of
-distilled water, is distilled, a distillate is obtained, which possesses
-an intense odor of cod-liver oil, and contains an appreciable
-quantity of a peculiar organic compound, namely, oxide
-of propyl.</p>
-
-<p>3. When nine parts of cod-liver oil are saponified with five
-parts of oxide of lead, with the necessary quantity of distilled
-water, in a porcelain vessel, by the heat of a water bath, the
-oil is decomposed into oleic and margaric acids, and a new
-acid propylic acid. The chief part of this acid combines, like
-the oleic and margaric acids, with the oxide of lead, as it appears,
-to form a basic compound; and another lead salt, probably an
-acid one, can be washed out of the plaister with distilled water.
-It is worthy of remark, that no glycerine is formed in this process.
-The plaister smells of train oil and herrings; and when
-it is exposed in a thin layer to the action of the atmosphere in
-a water bath, it becomes colored dark brown,
-after the <span class="xxpn" id="p242">{242}</span>
-evaporation of the water; and by the same means it loses its penetrating
-odor. The cause of the coloring is due to the strong
-disposition which the salts of propylic acid possess to oxidize,
-and consequently, to become brown. When the solution of
-the acid propylate of lead is treated with sulphuretted hydrogen,
-after the separation of the sulphuret of lead, is obtained
-an entirely colorless and strongly acid reacting solution, which
-by evaporation in a water bath, becomes by degrees colored.
-At the commencement of the last part of the operation it
-loses its penetrating odor, and at last leaves a dark brown residue.
-Exactly in the same manner, the watery solutions of
-neutral propylates of barytes and ammonia behave themselves.
-The neutral, colorless, and undecomposed ammoniacal salt
-smells of herrings; and the baryta salt, as concentrated decoction
-of meat.</p>
-
-<p>4. When the before-described (No. 2) solution of cod-liver
-oil soap is thrown into a capacious distillery apparatus, with the
-addition of caustic lime and chloride of ammonium, (in the
-proportion of six drachms of caustic potash, three ounces of
-cod-liver oil, six ounces of water, six ounces of fresh burnt
-lime, and one drachm of chloride of ammonium,) with the
-precaution, that the mixture of lime and chloride of ammonium
-be not added until the soap is formed in the retort, so that it
-may penetrate thoroughly the mass, and the distillation proceeded
-with by means of a gentle heat, as the formation of
-hydrate of lime evolves considerable heat, there distils rather
-quickly a clear, watery fluid, over which is a concentrated
-solution of propylamin free from ammonia. By saturating
-this solution with diluted sulphuric acid, and adding alcohol,
-sulphate of propylamin readily crystallizes out of it.</p>
-
-<p>This simple experiment serves to prove, with certainty, that
-cod-liver oil contains oxide of propyl. The propylamin thus
-obtained possesses all the properties of that obtained from the
-pickle of herrings, or ergot of rye.</p>
-
-<p>Cod-liver oil by saponification with potash, is separated into
-oleic and margaric acids, and <i>oxide of propyl</i>;
-and with oxide <span class="xxpn" id="p243">{243}</span>
-of lead, into oleic and margaric acids, and propylic acid—a
-higher result of the oxidation of propyl—and gives by either
-process of saponification no <i>hydrate of the oxide of glycyl</i>.
-The glycyl (C<sub>6</sub>&#x202f;H<sub>3</sub>) is in this oil replaced by propyl (C<sub>6</sub>&#x202f;H<sub>7</sub>).
-Only in cod-liver oil are the conditions offered for the formation
-of propylamin (N&#x202f;H<sub>2</sub>&#x202f;C<sub>6</sub>&#x202f;H<sub>7</sub>), by the presence of ammonia,
-as all the fat oils employed in medicine are free from this
-substance; therefore none of these oils can be substituted for
-cod-liver oil.</p>
-
-<div class="dkeeptogether">
-<p>[Should this research of Winckler, as to the existence of the
-hydrate of the oxide of propyl in combination with the fatty
-acids in cod-liver oil, be confirmed, it will establish an important
-fact in chemistry, and may explain the therapeutic action
-of that remedy which has heretofore puzzled both chemists and
-physicians. The combinations of the radical propyl have been
-previously only known as artificial productions; therefore
-Wincklers’s experiments, if true, show that they exist in nature,
-or, in other words, that they are educts, and not products,
-from cod-liver oil. Moreover, the presence of oxide of propyl,
-and the absence of oxide of glycyl in cod-liver oil, will enable
-chemists to distinguish by tests, with certainty, this oil from
-other fatty oils.]—<i>Annals of Pharmacy, June, 1852.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>GUARANA.
-<span class="hsmall">
-COMMUNICATED BY D. RITCHIE, SURGEON, R. N.</span></h3>
-</div><!--section-->
-
-<p>A medicinal substance named guaraná was presented to me
-about two years ago by a Brazilian. The virtues which he asserted
-that it possessed induced me to employ it as a remedy
-in several troublesome and obstinate cases of disease. The
-consequent benefit was so decided, that I was
-convinced of the <span class="xxpn" id="p244">{244}</span>
-great value it possessed as a remedial agent. This conviction,
-with the belief that it was still unknown, impelled me to bring
-the subject under the notice of the <i>profession</i> in this country.
-A short account of it was therefore transmitted to the editor of
-the “Edinburgh Monthly Medical Journal,” who forthwith
-submitted it to Professor Christison. To the kindness and extensive
-acquirements of this gentleman I am indebted for the
-information, that the subject had already engaged the attention,
-of the brothers Martius in Germany, and several French
-writers. It was a matter of satisfaction to me to find that the
-opinions I had expressed regarding the great prospective importance
-of this substance were fully borne out by all those
-who have diligently examined it.</p>
-
-<p>As a knowledge of the properties and uses of guaraná appears
-to be still little diffused in this country, I shall consider
-that I am performing an acceptable service to the medical profession
-in placing before it an abstract of the more important
-facts that are known regarding this substance. Public attention
-was first directed to it by M. Gassicourt in 1817, (Journal
-de Pharmac., tom. iii., p. 259); but the merit of discovering the
-source whence it is derived, and of furnishing a more complete
-description of it, belongs to Von Martius, in the year 1826,
-(Reise, vol. ii., p. 1061, <i>et seq.</i>)</p>
-
-<p>The term guaraná is derived from the name of a tribe of
-Indians, who are dispersed between the rivers Parama and Uruguay,
-by whom it is very commonly used as a condiment or
-medicine. It is, however, more extensively prepared for commercial
-purposes by the Mauhés, an Indian tribe in the province
-of Tapajoz. It is, according to Martius, prepared from
-the seeds of the Paullinia sorbilis, a species belonging to the
-natural family Sapindaceæ. The characters of the species
-are:—Glabra, caule erecto angulato, foliis pinnatis bijugis,
-foliolis oblongis, remote sinuato-obtuse-dentatis, lateralibus basi
-rotundatis, extimo basi cuneato, petiolo nudo angnlato, racemis
-pubescentibus·erectis, capsulis pyriformibus apteris rostratis,
-valvulis intus villosis. The seeds, which ripen in
-the month of <span class="xxpn" id="p245">{245}</span>
-October and November, are collected, taken out of their capsules,
-and exposed to the sun, so as to dry the arillus in which
-they are enveloped, that it may be more readily rubbed off by
-the fingers. They are now thrown upon a stone, or into a
-stone mortar, and reduced to powder, to which a little water
-is added, or which is exposed to the night dew, and then
-formed by kneading into a dough. In this condition it is
-mixed with a few of the seeds entire or contused, and divided
-into masses, weighing each about a pound, which are rolled
-into cylindrical or spherical forms. These are dried by the
-sun or by the fire, and become so hard as to be broken with
-difficulty. Their surface is uneven, brown, or sometimes
-black, from the smoke to which they have been subjected;
-their fractured surface is conchoidal, unequal, and resinoid;
-color reddish brown, resembling chocolate. This is the guaraná,
-and in this condition, or reduced to powder, it is kept for use
-or carried to market. The Museum of the Edinburgh College
-of Physicians contains a specimen of it in each of these forms.
-As it is liable to be adulterated with cocoa or mandioca flour,
-it is of great importance to be aware that the genuine article is
-distinguished by its greater hardness and density, and that,
-when powdered, it does not assume a white color, but a grayish-red
-tint.</p>
-
-<p>A chemical analysis of this substance was first made by
-Theodore Martius, in 1826, (Buchner’s Repert. de Pharm.
-xxxi., 1829, p. 370). He found it to consist of a matter
-(tannin?) which iron precipitated green, resin, a fat green oil,
-gum, starch, vegetable fibre, and a white, bitter, crystalline
-product, to which the efficacy of the medicine was principally
-owing, and which he called guaranine. This he believed to be
-distinct from, but allied to, theine and caffeine, and to possess
-the following elementary constituents:—C<sub>8</sub>,&#x202f;H<sub>10</sub>,&#x202f;O<sub>2</sub>,&#x202f;N<sub>4</sub>.</p>
-
-<p>Another very careful analysis of guaraná was made in the
-year 1840, by MM. Berthemot and Dechastélus, (Journal de
-Pharmacie, tom. xxvi., p. 518, <i>et seq.</i>), which varies in some
-degree from the preceding. They found
-the matter, which <span class="xxpn" id="p246">{246}</span>
-was considered to be resin by Martius, a combination of tannin
-with guaranine, existing in a form insoluble in water or ether.
-They also determined the perfect identity of the crystalline
-matter with caffeine. It is found to exist in a much larger
-proportion in the fruits of the Paullinia than in any of the
-plants from which it has hitherto been extracted. Alcohol is
-the only agent which completely removes it from the guaraná.
-To this solution the addition of lime or hydrated oxide of lead
-gives, on the one hand, the insoluble tannates, and on the
-other, the crystalline matter.</p>
-
-<p>The medicinal virtues of this substance have been attentively
-examined by Theodore Martius, (Op. cit.), and more particularly
-by Dr. Gavrelle (sur une nouvelle substance médicinale,
-etc.: Paris, 1840), who employed it very often while in Brazil,
-as physician to Don Pedro, and afterwards in France. By
-both it is considered a valuable remedy, and an important addition
-to the Materia Medica. By the vulgar it is held to be
-stomachic, antifebrile, and aphrodisiac; is used in dysentery,
-diarrhœa, retention of urine, and various other affections. It
-stimulates, and at the same time soothes, the gastric system of
-nerves. It reduces the excited sensibility of the cœliac plexus,
-thereby diminishing febrile action, and strengthening the
-stomach and intestines, particularly restraining excessive mucous
-discharges, increasing the action of the heart and the arteries,
-and promoting diaphoresis. It is therefore indicated as
-a valuable remedy in fevers, or reduced vital power resulting
-from cold or prolonged wetness, grief, to great muscular exertion,
-depression of spirits, long watching, and also in colic,
-flatulence, anorexia, nervous hemicrania, or in a dry condition
-of the skin. It is contra-indicated in a plethoric or loaded
-condition of the abdominal viscera, and when there exists determination
-of blood to the head. It is said to increase the venereal
-appetite, but to diminish the fecundating power.</p>
-
-<p>In cases where irritation of the urethra or urinary bladder
-succeed venereal or attend organic disease, it exerts a
-most salutary effect in soothing the irritability
-of the mucous <span class="xxpn" id="p247">{247}</span>
-membrane, relieving the nervous prostration which accompanies
-these affections, and exalting vital power. Unlike the
-disagreeable remedies which are generally, and often without
-success, employed in these affections, it is taken with pleasure,
-and with an amount of success which, as far as my experience
-extends, is universal.</p>
-
-<p>If we examine guaraná according to its chemical characters,
-it must be guarded as a most valuable substance, from its possessing
-in so great a proportion that important nitrogenous
-principle guaranine. This, if not identical with caffeine, is at
-least analagous to it, and to theine, and theobromine,—all important
-elements of food and grateful stimulents. From its
-chemical constitution, then, we may predict with great certainty
-its physiological action being powerfully tonic; but in the combination
-in which it is found, experience indicates that it possesses
-conjoined more valuable properties than belong to the
-simple tonics. Its power of correcting generally the discharges,
-and restoring the normal vitality of the mucous membranes,
-must be viewed as one of these.</p>
-
-<div class="dkeeptogether">
-<p>Guarana, in the state of powder, is exhibited in doses of
-<span class="nowrap"><img class="iglyph-a" src="images/u0292.ezh.jpg"
- width="37" height="84" alt="ʒ" />j,</span>
-three or four times daily, mixed with water and sugar, or with
-syrup and mucilage, conjoined with an aromatic, as cinnamon,
-vanilla, or chocolate. A convenient form is that of extract,
-obtained by treating the guaraná with alcohol, and evaporating
-to the consistence of pills. This may be exhibited in the form
-of solution or pills. The Brazilians, however, use the powder
-with sugar and water alone, and consider this draught grateful
-and refreshing.—<i>Monthly Jour. of Medical
-Science, May, 1852.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div><span class="xxpn" id="p248">{248}</span></div>
-<h3>COLORED FIRES FOR PYROTECHNICAL PURPOSES.</h3>
-</div><!--section-->
-
-<p>Erdmann, in the last number of his journal, gives the following
-formulæ for preparing colored fires, which he has proved
-and found to answer the purpose intended admirably. He
-particularly enjoins the caution that the ingredients, after being
-powdered in a mortar <i>separately</i>, should be mixed with the
-hand, as dangerous explosions would inevitably follow from the
-ingredients being rubbed together with any hard substance.</p>
-
-<div class="dtablebox">
-
-<table summary="">
-<tr>
- <th class="thz" colspan="2">Red.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Chlorate of potash,</td>
- <td class="pleft">61</td></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">16</td></tr>
-<tr>
- <td class="pleft">Carbonate of strontia,</td>
- <td class="pleft">23</td></tr>
-
-<tr>
- <th class="thz" colspan="2">Purple Red.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Chlorate of potash,</td>
- <td class="pleft">61</td></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">16</td></tr>
-<tr>
- <td class="pleft">Chalk,</td>
- <td class="pleft">23</td></tr>
-
-<tr>
- <th class="thz" colspan="2">Rose Red.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Chlorate of potash,</td>
- <td class="pleft">61</td></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">16</td></tr>
-<tr>
- <td class="pleft">Chloride of calcium,</td>
- <td class="pleft">23</td></tr>
-
-<tr>
- <th class="thz" colspan="2">Orange Red.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Chlorate of potash,</td>
- <td class="pleft">52</td></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">14</td></tr>
-<tr>
- <td class="pleft">Chalk,</td>
- <td class="pleft">34</td></tr>
-
-<tr>
- <th class="thz" colspan="2">Yellow, No. 1.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Chlorate of potash,</td>
- <td class="pleft">61</td></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">16</td></tr>
-<tr>
- <td class="pleft">Dried soda,</td>
- <td class="pleft">23</td></tr>
-
-<tr>
- <th class="thz" colspan="2">Yellow, No. 2.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Saltpetre,</td>
- <td class="pleft">50</td></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">16</td></tr>
-<tr>
- <td class="pleft">Dried soda,</td>
- <td class="pleft">20</td></tr>
-<tr>
- <td class="pleft">Gunpowder,</td>
- <td class="pleft">14</td></tr>
-
-<tr>
- <th class="thz" colspan="2">Yellow, No. 3.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Saltpetre,</td>
- <td class="pleft">61</td></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">17&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub></td></tr>
-<tr>
- <td class="pleft">Dried soda,</td>
- <td class="pleft">20</td></tr>
-<tr>
- <td class="pleft">Charcoal,</td>
- <td class="pleft">&#x2007;1&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub></td></tr>
-
-<tr>
- <th class="thz" colspan="2">Light Blue.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Chlorate of potash,</td>
- <td class="pleft">61</td></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">16</td></tr>
-<tr>
- <td class="pleft">Burnt alum,</td>
- <td class="pleft">23</td></tr>
-
-<tr>
- <th class="thz" colspan="2">Dark Blue.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Chlorate of potash,</td>
- <td class="pleft">60</td></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">16</td></tr>
-<tr>
- <td class="pleft">Carbonate of copper,</td>
- <td class="pleft">12</td></tr>
-<tr>
- <td class="pleft">Burnt alum,</td>
- <td class="pleft">12</td></tr>
-<tr>
-<td colspan="2"><p class="pleft phanga padtopc">
-Sulphate of potash and ammonio-<br />
-sulphate of copper may be added<br />
-to render the color more intense.</p></td>
-</tr>
-
-<tr>
- <th class="thz" colspan="2">Dark Violet.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Chlorate of potash,</td>
- <td class="pleft">60</td></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">16</td></tr>
-<tr>
- <td class="pleft">Carbonate of potash,</td>
- <td class="pleft">12</td></tr>
-<tr>
- <td class="pleft">Burnt alum,</td>
- <td class="pleft">12</td></tr>
-
-<tr>
- <th class="thz" colspan="2">Light Violet.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Chlorate of potash,</td>
- <td class="pleft">54</td></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">14</td></tr>
-<tr>
- <td class="pleft">Carbonate of potash,</td>
- <td class="pleft">16</td></tr>
-<tr>
- <td class="pleft">Burnt alum,</td>
- <td class="pleft">16</td></tr>
-
-<tr>
- <th class="thz" colspan="2" id="p249">Green.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Chlorate of potash,</td>
- <td class="pleft">73</td></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">17</td></tr>
-<tr>
- <td class="pleft">Boracic acid,</td>
- <td class="pleft">19</td></tr>
-
-<tr>
- <th class="thz" colspan="2">Light Green.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Chlorate of potash,</td>
- <td class="pleft">60</td></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">16</td></tr>
-<tr>
- <td class="pleft">Carbonate of barytes,</td>
- <td class="pleft">24</td></tr>
-<tr>
- <th colspan="2"><i>For Theatrical Purposes.</i></th></tr>
-<tr>
- <th class="thz" colspan="2">White, No. 1.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Saltpetre,</td>
- <td class="pleft">64</td></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">21</td></tr>
-<tr>
- <td class="pleft">Gunpowder,</td>
- <td class="pleft">15</td></tr>
-<tr>
- <th class="thz" colspan="2">White, No. 2.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Saltpetre,</td>
- <td class="pleft">64</td></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">22</td></tr>
-<tr>
- <td class="pleft">Charcoal,</td>
- <td class="pleft">&#x2007;2</td></tr>
-<tr>
- <th class="thz" colspan="2">Red.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Nitrate of strontia,</td>
- <td class="pleft">56</td></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">24</td></tr>
-<tr>
- <td class="pleft">Chlorate of potash,</td>
- <td class="pleft">20</td></tr>
-<tr>
- <th class="thz" colspan="2">Green.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Nitrate of barytes,</td>
- <td class="pleft">60</td></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">22</td></tr>
-<tr>
- <td class="pleft">Chlorate of potash,</td>
- <td class="pleft">18</td></tr>
-<tr>
- <th class="thz" colspan="2">Rose.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">20</td></tr>
-<tr>
- <td class="pleft">Saltpetre,</td>
- <td class="pleft">32</td></tr>
-<tr>
- <td class="pleft">Chlorate of potash,</td>
- <td class="pleft">27</td></tr>
-<tr>
- <td class="pleft">Chalk,</td>
- <td class="pleft">20</td></tr>
-<tr>
- <td class="pleft">Charcoal,</td>
- <td class="pleft">&#x2007;1</td></tr>
-<tr>
- <th class="thz" colspan="2">Blue.</th></tr>
-<tr>
- <th></th>
- <th class="thx">parts.</th></tr>
-<tr>
- <td class="pleft">Saltpetre,</td>
- <td class="pleft">27</td></tr>
-<tr>
- <td class="pleft">Chlorate of potash,</td>
- <td class="pleft">28</td></tr>
-<tr>
- <td class="pleft">Sulphur,</td>
- <td class="pleft">15</td></tr>
-<tr>
- <td class="pleft">Sulphate of potash,</td>
- <td class="pleft">15</td></tr>
-<tr>
- <td class="pleft">Ammonio-sulphate of copper,</td>
- <td class="pleft">15</td></tr>
-</table>
-</div><!--dtablebox-->
-
-<hr class="hr34" />
-
-<div class="section">
-<h3>EXTRACTUM LOBELIÆ FLUIDUM.
-<span class="hsmall">
-BY WILLIAM PROCTER, JR.</span></h3>
-</div><!--section-->
-
-<p>Having had occasion to prepare a fluid extract of lobelia at
-the solicitation of a druggist, the following process was employed,
-which is based on the fact, that in the presence of an
-excess of acid, the lobelina of the natural salt which gives activity
-to the drug, is not decomposed and destroyed by the heat
-used, as explained on a former occasion, (vol. xix. page
-108 of this Journal.)</p>
-
-<p>Take of Lobelia (the plant,) finely bruised, eight ounces, (troy)</p>
-
-<div class="dtablebox"><div class="nowrap">
-<table summary="">
-<tr>
- <td class="pleft">Acetic acid</td>
- <td class="pleft">one fluid ounce.</td></tr>
-<tr>
- <td class="pleft">Diluted Alcohol</td>
- <td class="pleft">three pints.</td></tr>
-<tr>
- <td class="pleft">Alcohol</td>
- <td class="pleft">six fluid ounces.</td></tr>
-</table></div></div>
-
-<div class="xxpn" id="p250">{250}</div>
-
-<p class="pcontinue">Macerate the lobelia in a pint and a half of the diluted alcohol,
-previously mixed with the acetic acid, for twenty-four hours;
-introduce the mixture into an earthen displacer, pour on slowly
-the remainder of the diluted alcohol, and afterwards water until
-three pints of tincture are obtained; evaporate this in a
-water bath to ten fluid ounces, strain, add the alcohol and,
-when mixed, filter through paper.</p>
-
-<div class="dkeeptogether">
-<p>Each teaspoonful of this preparation is equal to half a fluid
-ounce of the tincture. It may be employed advantageously to
-make a syrup of lobelia, by adding two fluid ounces of the fluid
-extract, to ten fluid ounces of simple syrup, and mixing. Syrup
-of lobelia is an eligible preparation for prescription use, in cases
-where lobelia is indicated as an expectorant.—<i>American Journal
-of Pharmacy.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>NEW METHOD FOR PREPARING AND EXHIBITING
-PROTIODIDE OF IRON.
-<span class="hsmall">
-BY M. H. BONNEWYN.</span></h3>
-</div><!--section-->
-
-<p>Several methods have been proposed for the preparation and
-exhibition of protiodide of iron, all of which are, as far as I
-am acquainted with them, subject to many inconveniences and
-objections. It is on this account that I offer to my fellow-laborers
-a new method, which both on account of its uniformity
-of action and facility of ad­min­i­stra­tion, deserves to be
-adopted universally.</p>
-
-<p>Every practical man knows that all preparations of protiodide
-of iron are bad, for instance, syrupus ferri iodidi is a
-medicine which is generally disliked, and in some individuals
-causes nausea and even vomiting. The
-pilulæ ferri iodidi <span class="xxpn" id="p251">{251}</span>
-likewise disagree with some constitutions, and when they seem
-to agree, they never produce the same regular effects even if
-prepared at the same labratory. According to trials made by
-an experienced physician, who has administered the protiodide,
-prepared according to my method, I am assured that this remedy
-prepared by a double decomposition in the stomachs of the
-patients, has always agreed with them, and produced more
-constant and salutary effects. It is already a well-known fact,
-that the iodide of iron in its incipient state is better assimilated
-by the organs.</p>
-
-<p><span class="nowrap">No. 1.</span>
-Dissolve one gramme of iodide potassium in 300
-grammes of water.
-<span class="nowrap">No. 2.</span> Take sulphate of iron
-<span class="nowrap">1&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub></span>
-grammes;
-make a powder and divide into eighteen equal parts. Dissolve
-one of the powders in a large table-spoonful of sugared
-water before swallowing it; take immediately afterwars, one
-table-spoonful of the solution.</p>
-
-<p>It is evident that by this operation, each time their is produced
-in the stomach one grain, or about five centigrammes of
-iodide of iron in its incipient state.</p>
-
-<div class="dkeeptogether">
-<p>Although these proportions do not correspond absolutely, but
-only approximately with their chemical equivalents, nevertheless,
-their effects answer fully the purposes both of the chemist,
-and Physician.—<i>Annals of Pharmacy and Practical Chemistry.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="dkeeptogether">
-<div class="divh3ord"><h3 class="h3runin">
-<span class="smcap">T<b>ANNATE</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">Z<b>INC.</b></span></h3>—The preparation announced of late, under
-the name of the Salt of Barnit, as infallible against gonorrhœra
-when used as an injection, is, according to the analysis
-of M. Chevalier, a tannate of zinc. This salt which is soluble,
-may be prepared by saturating a solution of tannic acid with
-freshly precipitated and moist oxide of zinc, filtering and evaporating
-in a water bath.</div>
-
-<hr class="hr34" /></div>
-
-<div class="chapter dedtrl">
-<div><span class="xxpn" id="p252">{252}</span></div>
-<h3>EDITORIAL.</h3>
-
-<hr class="hr12" />
-
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">T<b>HE</b></span>
-<span class="smcap">C<b>ONVENTION.</b></span></h4>—We cheerfully give place to the following <i>notice</i> from Dr.
-Guthrie, in regard to the approaching meeting of the Phar­ma­ceu­ti­cal Convention.
-We regret to learn that the time appointed, is not the most convenient one
-for many of the delegates whom we may expect from the south. It is too late,
-however, to change the time of meeting, were there any authority by which such
-change could be made. In view of the importance of the object, we hope that
-there may be a full attendance on the part of the delegates, even at the cost of
-some personal sacrifice. If the whole country be represented, a time can then
-be chosen for a future meeting which will suit a
-majority of those present:―</div>
-
-<blockquote>
-
-<p>“<span class="smcap">N<b>OTICE.</b>—</span>The Annual Meeting of the U. S. Phar­ma­ceu­ti­cal Convention, will
-take place in Philadelphia, on Wednesday, the 6th of October next.</p>
-
-<p>It being a matter of much importance that this meeting should number as
-many of our Druggists and Chemists as possible, I deem it proper to suggest
-that not only all regularly incorporated and unincorporated associations of this
-kind should see that they are fully represented, but that where no associations
-exist as yet, the apothecaries should send one or more of their number as delegates
-to the convention,—such will, no doubt, be cheerfully admitted to seats in
-the convention.</p>
-
-<p>This meeting it is to be hoped, will either take the necessary steps to the formation
-of a regular and permanent national organization, or possibly effect such
-organization during its sittings.</p>
-
-<div class="dkeeptogether"> <p>We trust all who feel an interest in
-this important subject, will remember the time and place, and give us
-their assistance in person or by delegate.</p>
-
-<div class="psignature"> C. B. <span
-class="smcap">G<b>UTHRIE,</b></span> <i>President of Convention</i>.”</div>
-
-<hr class="hr34" /></div></blockquote>
-
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">T<b>HE</b></span>
-<span class="smcap">A<b>MERICAN</b></span>
-<span class="smcap">J<b>OURNAL</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">P<b>HARMACY.</b></span></h4>—The editor of the American
-Journal of Pharmacy, has done much to raise the standard of American
-Pharmacy. He has a solid reputation founded on large knowledge and
-great industry. It is with pleasure then that we observe the attention
-he bestows upon our Journal. He has taken, however, rather an unusual
-course, in animadverting separately upon most of the directly practical
-articles that have appeared in our pages, and his criticisms have given
-rise to some reclamations on the part of our contributors, which we
-subjoin:―</div>
-
-<blockquote>
-
-<p><span class="smcap">C<b>OMMENTS</b></span>
-<span class="smmaj">ON</span>
-<span class="smmaj">“COMMENTS.”</span>—The American Journal of Pharmacy (Philadelphia),
-for July, contains “Phar­ma­ceu­ti­cal notices, being extracts from various articles
-in the New York Journal of Pharmacy, with comments by the
-editor,” in which <span class="xxpn" id="p253">{253}</span>
-our friend Procter, criticises, rather severely, some of the phar­ma­ceu­ti­cal formulæ
-and suggestions that have been offered in this Journal. With full respect for the
-great acquirements and high character as a practical pharmaceutist, to which
-my friend Procter is justly entitled, I should have been glad if the articles, upon
-which he comments, had met his approval; and I know of no one that I would
-rather should set me right, if anything that I have offered does not find acceptance
-with him. With the greater part of his comments, I do not think there
-is occasion for controversy,—matters of fact readers can judge for themselves,
-and it certainly is of little consequence, who may be found in error, compared
-with the elucidation of truth.</p>
-
-<p class="padtopc">In respect to the <i>consistence</i> of Syrup of Gum Arabic, he is probably nearer
-right, (during this hot weather, at any rate) than I was, and still, I think he is not
-right. My experience with the present officinal formula, had been in the cold
-season, when I found the syrup decidedly too thick for convenient use, especially
-by itself; a large proportion of it crystallized in the temperature of the
-shop, and the mouth and neck of the bottle choked up with candied syrup every
-two or three times it was used. I had found the former syrup to answer very
-well in regard to consistence and flavor, though, it certainly could not be considered
-permanent; it had to be made in small quantities and frequently; indeed, I
-do not suppose that any liquid combination of gum, sugar and water only, can be
-made of a permanent character. Since reading Mr. Procter’s comments, I have
-made this syrup again by the present formula, and it does keep decidedly better at
-this season, than that made in the other proportions, yet not perfectly; and there
-is considerable cry­stal­li­za­tion, even in the very hot weather we have had lately.
-I infer that syrup which crystallizes at this season, has an excess of sugar in it, the
-crystals formed tending further to reduce the remaining syrup, and thus sooner
-promote acidity than if a proportion of sugar had been used which could remain
-in solution. Perhaps, a medium between the two formulæ could be hit upon, in
-which the proper balance might be better attained.</p>
-
-<p class="padtopc">In the formula offered for Compound Syrup of Squill, in our Journal for April,
-there is an error of four ounces in the quantity of honey, which should have been
-<i>twenty-two</i> ounces. Whether it was made by the printer or not cannot be ascertained,
-as “the <i>copy</i> has been destroyed.” I had not noticed it until my attention
-was called to it by Mr. Procter’s comments. The quantity of sugar
-used by me in making this syrup was, for convenience, one pound avoirdupois
-weight; that of honey, one pound and a half, same weight. In transcribing the formula
-for a medical Journal, I thought I must, per custom, render it in troy weights;
-so as <span class="nowrap">15 oz.</span>
-troy are 200 grs. more than one pound av., I set down
-<span class="nowrap">15 oz.,</span> and
-intended to set down <span class="nowrap">22 oz.</span>
-of honey, as being only 60 grs. more than one
-pound and a half av. I think this addition of <span class="nowrap">4 oz.</span>
-of honey will make the whole
-come up to Mr. Procter’s measure of “56 fluid ounces before the ebullition,” &amp;c.,
-and a little over. The boiling can be continued only for a few minutes. I was
-formerly in the practice of boiling to three pints, and adding 48 grs. tartar emetic,
-but finding that I had to evaporate more than half a pint,
-and judging that <span class="xxpn" id="p254">{254}</span>
-the strength of the resulting preparation was rather lessened than increased
-thereby, I concluded to stop at three and a half pints. As to the proportion of sugar
-and honey, they amount together to
-<span class="nowrap">2&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub></span>
-pounds av., which with two pints of an evaporated
-menstruum, containing the extractive matter soluble in diluted alcohol
-of <span class="nowrap">8 oz.</span>
-of the roots, furnishes a syrup of good consistence. It may be observed,
-that solution of sugar in a menstruum so charged, is quite different from that
-in water. Perhaps, however, an equal amount of sugar with that of the
-honey, would be preferable. I can only say, that I employed the same
-quantity a number of times, but reduced it several years since, because it appeared
-to be too much for some reason, the particulars of which I do not recollect.
-And as this formula has always given me a satisfactory preparation, I have
-thought no more about it, until now. Or perhaps, it would be better to continue
-the evaporation to three pints, with the advantage of producing a more symmetrical
-result, corresponding, at the same time, with the quantity of the Pharmacopœia.
-But, is not the officinal formula “almost as far out of the way” the <i>other</i>
-way? Forty-two oz. of sugar in forty-eight fluid oz. of syrup! Can such an
-amount remain in solution twenty-four hours at any ordinary temperature? If
-mine is an “<i>anomaly</i>,” is not this an <i>impossibility</i>, “in point of consistence”? In
-reference to the alcoholic objection, it may be remarked, that the evaporation in
-the case commented upon, is not “from 4 pints of tincture to 2 pints,” but from
-<span class="nowrap">4&#xfeff;<sup>3</sup>&#xfeff;&#x2044;&#xfeff;<sub>4</sub></span>
-pints to 2 pints. The small portion of alcohol, that may remain after
-this evaporation and the continued heat to the end of the process, can
-scarcely be of serious consequence in the doses in which it is prescribed; it may
-have some influence in preserving the syrup, and also in promoting its medical
-action. Be all this as it may, so far as taste is a criterion, this preparation appears to
-be of at least double strength in the qualities of both roots, of the officinal syrup
-carefully made by the second process given,—the first being, as I suppose, with
-all apothecaries of the present day, “an obsolete idea.”</p>
-
-<div class="psignature">G. D. C.</div>
-
-<hr class="hr34" />
-</blockquote>
-
-<div class="divhhang2"><h4 class="h4runin">
-<span class="smcap">R<b>EMARKS</b></span>
-<span class="smmaj">ON</span>
-<span class="smmaj">THE</span>
-<span class="smmaj">COMMENTS</span>
-<span class="smmaj">MADE</span>
-<span class="smmaj">BY</span>
-<span class="smmaj">THE</span>
-<span class="smcap">E<b>DITOR</b></span>
-<span class="smmaj">OF</span>
-<span class="smmaj">THE</span>
-<span class="smcap">P<b>HILADELPHIA</b></span>
-<span class="smcap">J<b>OURNAL</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">P<b>HARMACY,</b></span>
-<span class="smmaj">ON</span>
-<span class="smmaj">SOME</span>
-<span class="smmaj">EXTRACTS</span>
-<span class="smmaj">FROM</span>
-<span class="smmaj">VARIOUS</span>
-<span class="smmaj">ORIGINAL</span>
-<span class="smmaj">ARTICLES,</span>
-<span class="smmaj">PUBLISHED</span>
-<span class="smmaj">IN</span>
-<span class="smmaj">THE</span>
-<span class="smcap">N<b>EW</b></span>
-<span class="smcap">Y<b>ORK</b></span>
-<span class="smcap">J<b>OURNAL</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">P<b>HARMACY</b></span></h4>:—</div>
-
-<p>After giving the formula for preparing
-Stramonium Ointment, as modified by E. Dupuy, the editor of our contemporary
-adds, “the objection to the officinal formula on the score of color, is hardly
-valid, and if it was so, it would be better to color it with extract of grass,
-than to substitute a preparation which will constantly vary in strength and
-appearance or with the age of the leaves. The officinal extract of stramonium,
-is easily incorporated with lard, and produces a brown colored ointment
-of comparatively uniform strength.” We do not pretend to have furnished
-a formula vastly superior to that received in our officinal guide. But
-as we were writing for our locality chiefly, and knowing
-the general expectation <span class="xxpn" id="p255">{255}</span>
-and usage of furnishing stramonium ointment of a green color, we have given
-a formula which does furnish an ointment having a proper strength, requisite
-color, without the loss of time and material necessarily incurred in manufacturing
-a color ad hoc as suggested by W. Procter, Jr., which from the contamination
-of the decomposed chlorophylle of the extract, would never compare
-favorably (not­with­stand­ing all that useless waste of trouble,) so far as its
-appearance is concerned, with the far readier mode proposed for transforming at
-once by a few short manipulations the dry stramonium into an alcoholic extract and
-ointment without liability to alteration during the process. Respecting the keeping
-of both ointments, we can affirm that the one prepared by the modified formula,
-will keep as well if not better and longer, than the other, and as the color
-is a point of some importance for our public and practitioners, we are satisfied
-that it will be preferred on the score of economy of time as well as for its color,
-which is desirable at least within our circle of custom.</p>
-
-<p class="padtopc"><span class="smcap">E<b>MPLASTRUM</b></span>
-<span class="smcap">E<b>PISPASTICUM</b></span>
-<span class="smmaj">WITH</span>
-<span class="smcap">C<b>AMPHOR</b></span>
-<span class="smmaj">AND</span>
-<span class="smcap">A<b>CETIC</b></span>
-<span class="smcap">A<b>CID.</b></span>—Mr. Procter,
-objects to the addition of acetic acid to the officinal blistering cerate, and
-seems to smile at the idea of fixing by it the volatile principle of the cantharis,
-which, by the way, he gratuitously makes the author to say is a neutral
-substance, when he says not a word about it. He quotes the authority
-of Mr. Redwood, who in the Phar­ma­ceu­ti­cal Journal, October, 1841, speaks
-of acetic acid as not being a good solvent for cantharidine. The reason is, in
-all probability, from the fact of his using the London standard strength, which
-is but 1.48. For Messrs. Lavini and Sobrero, (Memoire lu a l’academie des
-sciences de Turin, 9 Mars, 1845,) state that “concentrated acetic acid,, dissolves
-cantharidine, but more readily under the influence of heat.” Respecting
-the volatility of cantharidine, these same chemists have stated in the same paper
-“that while manipulating with but 52 grammes of flies, for the researches they
-were making on cantharidine, one of them suffered from blisters produced on the
-face and lips, by the emanations from these insects.” Besides their authority,
-Soubeiran, in his Traite de Pharmacie, and Dorvault in the Officine, both state that
-cantharidine is a very volatile substance, even at ordinary temperature, and if
-that is, as it appears to be, the ease, what reliable information have we that only
-1-30th of a grain was volatilized in the experiment mentioned by W. Procter, Jr.,
-made with 100 grs. of powdered cantharides? Is it not very probable, that in
-removing the hygrometric water, much more was lost?</p>
-
-<div class="dkeeptogether">
-<p>Whatever may be the changes which take place by the addition of acetic acid
-in a concentrated state, it is a fact, proved by experience, that the blistering plaster
-thus prepared, keeps better—that is, retains its power longer than the officinal
-one even exposed to the air in thin layers. As an example of the stability of this
-combination, we have <i>Brown’s Cantharidine</i> which, to all appearance, is made
-from an etherial extract of cantharides additioned with concentrated acetic acid
-and incorporated in melted wax. We find such a mixture, although spread on
-paper and but imperfectly protected from the air, retaining for a long period
-its vesicating properties. Is this advantage produced by
-a simple acid <span class="xxpn" id="p256">{256}</span>
-saponification of the cerate, without reaction on the active principle, but that of protecting
-it from atmospheric influences? We think it probable that there is a
-modification taking place, both on the cantharis and other components of the
-cerate.</p>
-
-<div class="psignature">E. D.</div>
-
-<hr class="hr34" /></div>
-
-<div class="divh4ord"><h4 class="h4runin nowrap">
-<span class="smcap">T<b>HE</b></span>
-<span class="smcap">R<b>ICHMOND</b></span>
-<span class="smcap">P<b>HARMACEUTICAL</b></span>
-<span class="smcap">S<b>OCIETY.</b></span></h4>—A large number of the Druggists
-and Apothecaries of the city of Richmond, held a meeting on the 11th of June
-for the purpose of forming a Phar­ma­ceu­ti­cal Society, and, having appointed a
-committee to draft a constitution and bye-laws, and to report to an adjourned
-meeting, on the 28th of the same month, assembled on that day, and adopted the
-constitution and bye-laws reported by the committee. The election of officers
-was postponed until the 6th of July.</div>
-
-<p>At a full meeting of those who had signed the constitution, the following gentlemen
-were elected officers of the society, for the next twelve months, viz:―</p>
-
-<div class="dtablebox"><div class="nowrap">
-<table summary="">
-<tr>
- <td class="pleft"><i>President</i>,</td>
- <td class="pleft"><span class="smcap">A<b>LEXANDER</b></span> <span class="smcap">D<b>UVAL</b>.</span></td></tr>
-<tr>
- <td class="pleft"><i>1st Vice President</i>,</td>
- <td class="pleft"><span class="smcap">J<b>AMES</b></span> P. <span class="smcap">P<b>URCELL</b>.</span></td></tr>
-<tr>
- <td class="pleft"><i>2nd Vice President</i>,</td>
- <td class="pleft">J. B. <span class="smcap">W<b>OOD</b>.</span></td></tr>
-<tr>
- <td class="pleft"><i>Recording Secretary</i>,</td>
- <td class="pleft"><span class="smcap">C<b>HAS.</b></span> <span class="smcap">M<b>ILLSPAUGH</b>.</span></td></tr>
-<tr>
- <td class="pleft"><i>Corresponding Secretary</i>,</td>
- <td class="pleft">S. M. <span class="smcap">Z<b>ACHRISSON</b>.</span></td></tr>
-<tr>
- <td class="pleft"><i>Treasurer</i>,</td>
- <td class="pleft">W. S. <span class="smcap">B<b>EERS</b>.</span></td></tr>
-<tr>
- <td class="pleft"><i>Librarian</i>,</td>
- <td class="pleft"><span class="smcap">J<b>OHN</b></span> T. <span class="smcap">G<b>RAY</b>.</span></td></tr>
-</table></div></div>
-
-<p>After which, several nominations for members and associate members having
-been made, the society adjourned to Monday, 13th instant, that the President
-might, during the recess, appoint the standing committees, as required by the
-constitution.</p>
-
-<p>The Society having assembled on the 13th instant, the following committees
-were reported:―</p>
-
-<p><i>Committee on Admission</i>—J. Bum, John T. Gray, E. J. Pecot.</p>
-
-<p><i>Committee on Phar­ma­ceu­ti­cal Ethics</i>—O. A. Strecker, S. W. Zachrisson,
-A. Bodeker.</p>
-
-<p><i>Committee of Finance</i>—Peyton Johnston, Benjamin F. Ladd, Edward
-McCarthy.</p>
-
-<p><i>Committee on Library</i>—Andrew Leslie, James P. Purcell, William M. Dade.</p>
-
-<p><i>Executive Committee</i>—John Purcell, W. S. Bum, R. R. Duval:―</p>
-
-<p>After which, several nominations were made. Appropriations were placed at
-the disposal of the library committee for subscriptions to various periodicals, and
-for the purchase of books, after which, the meeting adjourned.</p>
-
-</div><!--chapter dedtrl-->
-
-<div class="chapter">
-<div><span class="xxpn" id="p257">{257}</span></div>
-<h2 class="h2nobreak"><span class="hsmall">NEW YORK</span>
-JOURNAL OF PHARMACY.
-<span class="hsmall"><span class="hdate">
-SEPTEMBER, 1852.</span></span></h2>
-</div><!--chapter-->
-
-<h3>ON THE OIL OF GRAIN SPIRIT, OR FUSEL OIL.
-<span class="hsmall">
-BY EDWARD N. KENT.</span></h3>
-
-<p>The oil of grain spirit, has recently attracted considerable
-attention from the fact of its being the basis of a
-number of artificial perfumes or essences, one of which
-has been extensively used under the name of banana or pear
-essence.</p>
-
-<p>The crude oil, as is well known, consists principally of
-hydrated oxide of amyl, mixed with more or less alcohol, and
-small quantities of other substances, the nature of which is not
-generally known, though it has been asserted that œnanthic
-ether and œnanthic acid may be found among them. To
-obtain the latter articles was a desired object, and that which
-led to the subject of this paper.</p>
-
-<p>Crude fusel oil, (or oil of grain spirit) when distilled in
-a glass retort, commences to pass over at about 190° Fahrenheit,
-and a considerable portion is obtained below 212; which consists
-mostly of alcohol and water, with a small quantity of the
-hydrated oxide of amyl. By changing the receiver and continuing
-the operation to about 280°, a large product is obtained,
-consisting principally of hydrated oxide of amyl, but contaminated
-with a little alcohol and water, and a trace of less
-volatile oil, which may be found in larger quantity in the
-residue remaining in the retort. This residue is small, of an
-agreeable odor, and consists of
-several substances among <span class="xxpn" id="p258">{258}</span>
-which may be found, an oil having the intoxicating smell, but
-not the chemical properties of œnanthic ether, other than a
-similarity in its boiling point.</p>
-
-<p>To obtain a more perfect separation of the substances contained
-in the crude oil, a small copper still was constructed, on
-the principal which is now so successfully used in the manufacture
-of high proof alcohol, and which proved highly useful for
-the above purpose. This still is so arranged, that the vapor
-which is evolved by the boiling liquid, passes through a series
-of bent tubes, each of which is connected with a return pipe
-for returning vapors less volatile than boiling water, back to
-the still. These tubes are enclosed in a copper funnel filled
-with cold water, which becomes heated as the operation proceeds,
-and finally boils; the less volatile vapors are thus
-prevented from passing over, and the alcohol and water are
-almost perfectly separated from the oil remaining in the still.—If
-the water is then drawn off from the vessel containing the
-serpentine tube, the distillation may be continued till it ceases
-spontaneously.</p>
-
-<p>The product thus obtained, when rectified from a little
-dry caustic potash to remove coloring matter and acetic and
-valerianic acid, and again rectified from dry quick lime to
-remove water, gives pure hydrated oxide of amyl.</p>
-
-<p>The residue left in the copper still is most easily obtained by
-distillation with water, containing a little carbonate of soda to
-neutralise the free acids contained in it. A small quantity of
-a yellow oil is thus obtained, having an agreeable vinous odor
-similar to œnanthic ether, but unlike that ether it yields fusel
-oil, instead of alcohol, when distilled repeatedly from caustic
-potash. It is consequently an <i>amyl</i> compound, while œnanthic
-ether is known to be the œnanthate of oxide of <i>ethyle</i>.</p>
-
-<p>The residue remaining in the still after the above distillation
-with water, consists of acetic and valerianic acids in combination
-with the soda, and the solution holds in suspension a considerable
-quantity of byrated oxide of iron, which formerly
-existed in combination
-with the acids. <span class="xxpn" id="p259">{259}</span></p>
-
-<div class="dkeeptogether">
-<p>From the above statement it appears that crude fusel oil
-contains the following substances, viz:―</p>
-
-<div><ul class="ulstnz">
-<li>Alcohol,</li>
-<li>Water,</li>
-<li>Hydrated oxide of amyl,</li>
-<li>Acetic acid,</li>
-<li>Valerianic acid,</li>
-<li>Oxide of iron.</li></ul></div>
-
-<p class="pcontinue">And an amyl compound, analagous to œnanthic ether.</p>
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>EASY METHOD TO MAKE HYPOSULPHITE OF SODA.
-<span class="hsmall">
-BY JOHN C. TALLON.</span></h3>
-</div><!--section-->
-
-<p>Happening to inquire the price of hyposulphite of soda of a
-wholesale druggist, it appeared to me that the cost of its production
-is <i>greatly</i> under the wholesale price, I therefore
-suggest to apothecaries who may wish to make it <i>pure</i>, for their
-own consumption, the following: Through a saturated solution
-of sal soda (ascertained to be free from sulphate) pass sulphurous
-acid gas until a small quantity, taken out of the solution
-after agitation, on the end of a glass rod, gives a white
-precipitate with nitrate of silver; then put the solution into a
-beaker glass, and boil it with sulphur (about one-twentieth of
-the weight of the soda in solution) until a little of the liquid,
-put into a test glass, gives, with a few drops of hydrochloric
-acid, a precipitate of sulphur, and another portion with nitrate
-of silver a white precipitate, immediately turning yellow and
-then black, when the liquid is to be filtered and evaporated
-quickly, until the salt be crystallized quite dry. The crystals
-are to be put into a closely stopped bottle, and kept well secured
-from the atmosphere. The advantage of this process over
-the common one is that it can be made in the store without any
-annoyance from the stench of melted sulphur; it costs but little
-and does not require the <i>continued</i> attention of the operator.</p>
-
-<p class="fsz6">709 Greenwich Street, New York, August 12, 1852.</p>
-
-<hr class="hr34" />
-
-<div class="section">
-<div><span class="xxpn" id="p260">{260}</span></div>
-<h3>NOTES IN PHARMACY, No. 4.
-<span class="hsmall">
-BY BENJAMIN CANAVAN.</span></h3>
-</div><!--section-->
-
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">T<b>INCTURA</b></span>
-<span class="smcap">B<b>ESTUSCHEFFI.</b></span></h4>—In the last number (8) of this Journal,
-Mr. Mayer, speaking of this preparation, says that the formula
-given by me in the May number, is the “oldest” from
-“the Austrian Pharmacopœia of 1820,” and suggests, as an
-improvement, preparing the salt by passing through a solution
-of protochlor. ferri, a current of chlorine, to the proper point
-of saturation. The formula I gave <i>is</i> the “oldest” and the
-<i>original</i>, for which reason I selected it, affording as it does <i>the</i>
-“Bestuscheff’s tincture,” at one time so highly valued, and
-though I did not consider it very creditable to the scientific accuracy
-of its “fatherland,” it is the one which “did the good.”
-The advantages, seemingly, claimed by Mr. Mayer for his process,
-is its affording a more certain preparation. This does
-not appear evident, as the resulting tincture will be the same,
-respectively, by whatever process, supposing equal care to be
-used in conducting it. It may be possible that a stronger solution
-is obtained, but that is not asserted, nor is it important,
-as that would concern the <i>dose</i>, not the effect of the medicine.
-The difference, aside from the identity of the preparation,
-appears to me to be that, in one case experiment will be
-necessary to ascertain the strength of the tincture, whilst in the
-other it can be determined more quickly by calculation, but the
-extra labor required in the process in the later case, more than
-counterbalances any superiority there may be in this respect.
-I have, however, no objection to make to Mr. Mayer’s process,
-which is a very <i>neat</i> way of making “Ethereal Tincture
-of Sesquichloride of Iron”; but, I think, those who desire to
-make “Bestuscheff’s Tincture,” will consider it more strictly
-accurate to adhere to the “oldest formula.”</div>
-
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">D<b>ECOMPOSED</b></span>
-<span class="smcap">C<b>HLOROFORM.</b></span></h4>—A specimen of this article lately
-came into my possession, to which, I think it right to direct the
-attention of apothecaries, although, its villainous
-odor was so <span class="xxpn" id="p261">{261}</span>
-disagreeable and suffocating, as to render it almost impossible
-that it could be administered, still it may serve to teach the
-necessity of all those having to do with the article, exercising
-such increased care that so bad an article could not pass through
-their hands unnoticed; for what might be the consequences in
-such a case if the sensible properties of the article did not happen
-to be so repugnant? And as it is desirable, in a scientific
-point of view, to know everything about so important an agent,
-it is proper and necessary that anything unusual in its regard
-should be recorded. The article in question, was contained in
-a badly stopped bottle, and had leaked one-eighth of its quantity.
-On removing the cupping, an efflorescent crust was observed
-coating the upper surface of the lip of the bottle and
-contiguous stopper, of a whitish, partly yellowish-green appearance,
-having a caustic taste, and washing off readily with water
-but not with chloroform, and precipitating nitrate of silver; the
-precipitate being soluble in ammonia and not in nitric acid,
-leading me to infer from this and other circumstances, that this
-substance was, probably a hydrochlorate of ammonia. The neck
-of the bottle before the stopper was removed, presented a yellowish
-appearance from some colored substance being interposed
-between it and the stopper, a pretty constant accompaniment of
-this kind of decomposition, which should always be noted. On
-removing the stopper, fumes escaped having a most suffocating
-odor, causing the bottle to be withdrawn quickly from the nostril
-and giving with ammonia, the white fumes char­ac­ter­is­tic of hydrochloric
-acid gas. By exposure the peculiar odor disappeared,
-and the whole of the liquid passed off without leaving any residue,
-except a slight greasy appearance on the sides of the glass
-from which it was evaporated, which <i>was not</i> owing to sulphuric
-acid. The specific gravity was that of good chloroform, and
-sulphuric acid acquired no color when agitated with a portion,
-and the reaction with litmus was strongly acid. The bottle
-having been emptied, the small portion which adhered to the
-glass, collecting in the bottom, assumed a yellowish appearance
-resembling common muriatic acid. Not
-having leisure or <span class="xxpn" id="p262">{262}</span>
-means to make an elaborate examination, I handed some to one
-of our professors of chemistry, who will make an accurate
-analysis. In the meantime, I deemed it prudent to note these
-particulars. A large quantity of the article, made at the same
-time and by the same process, I have since learned, has been
-found to have undergone a similar change. The manufacturer,
-supposes the decomposition to have arisen in some way from
-the sulphuric acid used in the process after the manner of
-Professor Gregory, although every means was used to separate
-it and none could be detected in it when recently made;
-some, however, which was thus supposed to be free from
-acid, I found to slightly redden litmus, although the smell was
-remarkably fine; but it has been found I learn, that of two specimens
-of the article taken from the same bottle and <i>exposed to
-the light</i>, one underwent decomposition and the other not.
-It has occurred to me, that the surest way of separating the
-acid would be to distil the chloroform from it; but it should be
-remembered that the process of Gregory, was intended to be
-adopted for smaller quantities for immediate use, and not for
-its manufacture on a large scale, to be kept.</div>
-
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">S<b>UPPOSITORIA.</b></span></h4>—In
-the number of the <i>New York Medical
-Times</i> for December, 1851, I took occasion to mention the superiority
-of cacao butter, to the other excipients for the formation of
-suppositories, a means of medication which had <i>become almost
-obsolete</i>; not unlikely from the circumstance of their having been
-prepared with iritating substances which counteracted their intended
-effect. In the last (July) number of the <i>American Journal
-of Pharmacy</i>, (Philadelphia,) Mr. A. B. Taylor, (who has
-not, apparently, seen my little note,) gives several formulas for
-these, which require the cacao butter to be melted, in which
-state the medicament is incorporated with it, &amp;c. I recur to
-the subject for the purpose of stating that I have not found it
-necessary to adopt this very troublesome and tedious, not to
-say inaccurate method. The article, at all seasons, becomes
-sufficiently plastic when “worked” in the mortar, or in very
-cold weather, with the addition of a drop or so
-of almond or <span class="xxpn" id="p263">{263}</span>
-other proper oil, to admit of being <i>rolled</i> with the spatula into
-form, the most convenient one for which I have found to be
-that of a cylinder about an inch long, weighing twenty grains,
-and fitting exactly the calibre of the instrument used for introducing
-them, which I generally use as a mould. The active
-ingredients used are mostly sulph. morph. and extr. opii
-aquos. the latter of which is superior to opium, of course, being
-<i>nearly</i> free from narcotine. <i>Vaginal suppositories</i> would be
-equally applicable and useful as anal ones.</div>
-
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">E<b>DITOR</b></span>
-<span class="smcap">A<b>MERICAN</b></span>
-<span class="smcap">J<b>OURNAL</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">P<b>HARMACY.</b></span></h4>—Professor Proctor
-has done me the honor to notice, favorably, some trifles
-which I have found time to contribute to our Journal, among
-others an observation concerning the supposed decomposition
-of Fowler’s solution, with respect to which he says he “does
-not understand where the garlicky odor came from, as it is only
-the <i>vapor</i> of metallic arsenic that possesses this peculiarity.”
-I beg to assure the Professor that the odor <i>came from the bottle</i>.
-The immediate cause of it is certainly <i>mist</i>-erious, though
-it is not impossible that among the intricacies of chemical action
-sufficient heat may have been evolved to act on how small
-soever a portion of the metal in a <i>nascent state</i> as to cause the
-peculiar odor. <i>Spontaneous combustion</i> taking place in a
-mass of the common mineral known as “cobalt,” produces, unmistakeably,
-both vapor and the odor of arsenic, and I have
-heard of a ships’ crew having been salivated by the vapor
-arising from a cargo of quicksilver in a high latitude. A very
-much lower degree of heat is required to produce vapor
-than might be supposed from the point of volatility of the substance
-whence it emanates, an instance in point being the
-familiar process of boiling water; but this is rather a <i>cloudy
-point</i> which would require the acumen of a certain celebrated
-jury to elucidate, and to their tender mercies it is perhaps the
-better part to consign it.</div>
-
-<hr class="hr34" />
-
-<div class="section">
-<div><span class="xxpn" id="p264">{264}</span></div>
-<h3>GENERAL
-REPORT UPON THE RESULTS AND EFFECTS OF THE “DRUG LAW,” MADE TO
-THE SECRETARY OF THE TREASURY.
-<span class="hsmall">
-BY C. B. GUTHRIE, M. D.</span></h3>
-</div><!--section-->
-
-<p>The act of Congress, approved 26th of June, 1848, entitled
-“an Act to prevent the importation of spurious and adulterated
-drugs and medicines,” having now been in existence and
-enforcement almost three years, the working of the law and its
-effects, immediate and remote, have become necessarily matters
-of fact, and are no longer left to conjecture and speculation.</p>
-
-<p>At the time of the passage of this law by congress, no inconsiderable
-fears were entertained by its friends, and great hopes
-by its enemies, that it would be found impracticable to carry
-out its requisite provisions without great injury to that portion
-of our citizens engaged in the importation of this class of merchandize,
-in which event its repeal would, of course, have
-been urgently solicited.<a class="aftntanc" href="#fn23" id="fnanch23">23</a></p>
-
-<div class="dftnt">
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch23" id="fn23">23</a>
-Strong <i>prima facie</i> evidence of the popularity of this
-law may be found in this significant fact that not a petition for its
-repeal has ever been presented to Congress.</p></div>
-
-<p>In entering upon the duties of the commission, which I had
-the honor to recieve from the department, I was fully impressed
-with the importance of the information sought for, and the
-necessity of a candid, impartial and unbiassed examination of
-facts bearing upon the subject, and in making, to the department,
-this report, I have divided my results and facts into immediate
-and remote; the reasons for which, will appear in the
-detail. Under the general terms drugs and medicines, are embraced
-all articles intended for the treatment of the diseases of
-the human system, and though they admit of many subdivisions,
-these terms, included under the two heads of chemicals and
-compounds, and crude drugs, are all that
-is necessary for my <span class="xxpn" id="p265">{265}</span>
-purpose in speaking of the effects and applications of the law.</p>
-
-<p>First, with regard to the effect upon chemicals and compound
-medicines.: Previous to the passage of this law, no restriction
-was laid upon any class of medicines coming in under
-this head. If the importer paid the requisite duty, no questions
-were asked, no limit was fixed as to quality or condition.
-It needs no argument, but merely a mention of the fact, to
-show that any compound medicine or chemical preparation
-may be so made as to deceive the unsuspecting and uneducated,
-and even very often the druggist, apothecary, physician,
-and all, because they were not in the habit of analysing their
-articles, and were deceived by their external, often times very
-fine appearance. Under the combined influence of competition
-and avarice—two strong temptations, the manufacture of
-articles of this class had become systematised, and on purpose
-to supply the United States market.</p>
-
-<p>The immediate and positive beneficial results of the law
-may be seen in the fact that now very few, if indeed any,
-spurious or sophisticated chemical preparations, for phar­ma­ceu­ti­cal
-purposes, are even offered at our ports, or by any possibility
-find their way into our markets. Manufacturing chemists
-and importers of this description of medicines, finding it
-impossible to get such goods through our custom houses, will,
-of course, not risk the loss of bringing them here, but in their
-stead will import such as are known to come up to our required
-standards. Under this general head of chemicals, may be included
-a large majority of the manufactured and compound
-medicines used in practice by the medical faculty, and all the
-most important usually purchased by others for domestic uses,
-more especially in the great west and south, where every man,
-almost, is obliged to learn the uses and doses of calomel,
-blue mass and quinine, &amp;c. The certainty of purity in these
-articles alone, is a matter of no small moment to the community
-at large; of the probabilities of their home adulteration I
-shall also refer to elsewhere.</p>
-
-<p>A few articles of this class may now and
-then, either through <span class="xxpn" id="p266">{266}</span>
-culpable negligence on the part of the inspector, or by being entered
-under a false name, be imported, but they must be few, and
-are daily growing less. An instance of this kind has occurred in
-New York, where a large lot of sulphate of lime was offered in
-market, under the name of precipitated chalk. The New York
-College of Pharmacy, standing very properly as the guardians
-of the public health, and protectors of this act, for which they
-had petitioned and which they had agreed to support, by committee,
-reported the fact, and warned the holders of the consequences
-of continuing to sell the article as a medicinal preparation,
-upon which they very readily withdrew it. How it came
-into the city that committee have never been able to ascertain,
-whether imported under the head of plaster of Paris, and thus
-escaping the eye of the inspector, or whether passed by him,
-or at some other port, without due test and examination, I am
-not able to say. That it was imported under a false name, is,
-to my mind, the most likely of all.</p>
-
-<p>If our Colleges of Pharmacy in the different cities, as I have
-no doubt they will, continue to thus watch the articles offered
-them and the public, and act with the independence that has
-characterised them thus far, no deception of this kind will go
-long unexposed, and it will soon cease altogether.</p>
-
-<p>No manufactured article, susceptible of adulteration, ought
-ever to be suffered to pass by the Examiner of drugs without
-being <i>sampled</i> and tested by analysis, and no matter what its
-appearances, or what its label; neither the one or the other
-are guarantees of its purity, for both may alike be counterfeits.
-The more popular the maker, the higher his name and reputation,
-the more likely his name, label, bottle and article to be
-counterfeited, as has Pelletier’s name to the article quinine,
-others to iodide of potassium, &amp;c. &amp;c.</p>
-
-<p>Secondly. The effects of the law upon crude drugs and
-medicines, such as leaves, barks, roots, gums, gum resins, &amp;c.
-Upon these articles, the effect has been the same as upon
-chemicals and compound goods. Greater variations must of,
-course occur in their qualities, as many of
-them cannot be <span class="xxpn" id="p267">{267}</span>
-tested with accuracy; and of the rest, very imperfect standards
-are to be found in any of the works on pharmacy or materia
-medica now extant. This was heretofore left entirely in the
-hands of the examiner at each port, who has been obliged to
-fix his own standards when there were none laid down in the
-works referred to in the instructions of the department. Such
-has been the case with many of our most valuable and important
-articles of crude drugs, gums, and gum resins,—such as
-opium, scammony, &amp;c. Such also has been the case with many
-of the roots and barks, as rhubarb and the cinchona and all
-its varieties. One may have fixed upon five per cent. of morphine,
-and another upon eight, another ten, as the standard
-for opium. Again, the same might occur in admitting or rejecting
-scammony. One requiring sixty or seventy per cent. of
-resin, another admitting or rejecting, merely from the physical
-appearance of the article.</p>
-
-<p>So again with regard to barks, especially the cinchonas—one
-refusing to admit any except the true medicinal article;
-another admitting Maricaibo and other false barks usually sold
-in market as pale bark, or used to adulterate that article.—But,
-upon the whole class of crude drugs, the effect has been
-highly beneficial. Greater care is taken in their selection
-and preparation for market, and a vast quantity of many
-kinds of barks and roots heretofore finding daily their way
-into market either in their simple worthlessness or mixed
-with purer and different articles, are now scarcely, if ever
-found; and if seen, they are about the last of their kind.—Now
-and then, an article may get through our ports, by
-some adroit means of deception, or be slipped in at a port
-where there is no examiner, but this must be but seldom.—But
-recently, in New York, I saw several casks of gum
-guaic, the heads of which, for about six inches, were filled with
-a fair article, while the remaining portion of the cask was
-made up of the vilest trash imaginable. This is but a shallow
-trick that could not be often repeated, for though it might decieve
-the examiner (as it did not), it would
-meet detection in <span class="xxpn" id="p268">{268}</span>
-the hands of the jobber, who would not fail to claim damages
-from the importer at once. Another mode of evading the law,
-is by sending sample packages to the examining office, or such
-cases as are known to be all right, and getting the whole invoice
-passed by them. This can only be guarded against by
-the examiner being always upon the alert, and where there is
-the least doubt, refusing to pass anything except what he sees and
-knows to be correct as to quality. The facility with which this
-fraud may be practised, led the convention of the Colleges of
-Pharmacy to recommend that every package should be examined;
-an opinion, I then and now fully concur in. Many similar instances,
-both in regard to chemicals, chemical preparations and
-all sorts of crude drugs, might be given, but they have no bearing
-upon the object of this report, only as they point to a
-necessity for the law’s continuance.</p>
-
-<p>Another immediate result of the law is the exclusion of damaged
-drugs. Heretofore no state of damage or decay, whether
-little or much, prevented an article, either manufactured or
-crude, being thrown into market and sold for whatever it purported
-to be, whether calomel half oxydyzed, iodide of potassium
-one-third deliquesced, rhubarb one-half rotten, senna in a similar
-or worse condition from being soaked with salt water—they
-each sold under their original names, and found their way into
-the bands of the buyers of <i>cheap goods</i>, either in that state or
-powdered or re-bottled, re-labelled, and done up good as new.
-The importer got his drawback of twenty-five, fifty, and seventy
-per cent. of duty. The insurance company sold the goods and
-paid the difference; bargain getters purchased; the physician
-prescribed; the apothecary dealt out, and the patient, suffering
-under the pains and ills of lingering disease, swallowed; all
-but the last got their pay, while the poor man who bore the
-unrighteous accumulation of the whole, cursed his physician
-for not understanding his complaint, and perchance turned his
-face to the wall and died. This is no fancy sketch, but true,
-every word of it, and more than once acted out in the dream
-of every-day life. <span class="xxpn" id="p269">{269}</span></p>
-
-<p>Under the proper construction and ad­min­i­stra­tion of the law,
-all this will and is now mostly prevented. It must be evident
-that any article of medicine essentially damaged, is not fit to be
-given to the sick as a remedy. This is a very important point,
-and all examiners should be careful to enforce it strictly, regardless
-of the specious plea of interested insurance companies
-or individuals, for any other construction for their general
-or especial benefit or relief.</p>
-
-<p>In few words then, may be summed up the immediate effects
-of this law: A purer and better class of chemicals and compound
-preparations, a material improvement in the quality of
-crude drugs imported, such as gums, barks, roots, leaves, and
-an almost entire exclusion of damaged and decayed drugs from
-our markets.</p>
-
-<p>These results are, in themselves, sufficient to mark the law
-as one of great value, and to entitle it to a sure claim for perpetuity,
-and its provisions to a steady enforcement. But they
-are by no means all that it has accomplished. Its remote or
-secondary effects, which I propose to point out, are equally important,
-and they are found in the influence upon our home
-manufactures and trade.</p>
-
-<p>It has often been claimed that the law was a tariff for
-protection to home adulteration, and while we shut out the evil
-in one way, we were equally exposed to it in the shape of home
-preparations; were this even true, it is no argument against the
-law for keeping out foreign adulteration, as it is very evident
-that if both are equally bad, no pure medicine can be had by
-those who require them, while if we are certain the foreign are
-pure, we have a choice between the pure and the sophisticated.
-But I am satisfied that the amount of home adulterations have
-been over estimated, and that under the effect of this law they
-are decreasing daily, and perhaps mainly because the demand
-is decreasing.</p>
-
-<p>I have never believed, though it has been again and again
-asserted, that our medical gentleman to any great extent, who
-buy and use most largely of this class of
-goods, have desired <span class="xxpn" id="p270">{270}</span>
-to buy and use inferior medicines, because they were cheap,
-and my own direct intercourse and observation, as a druggist
-for five years, aside from a six years’ experience in the profession,
-has satisfied me of the correctness of my views. I speak
-of the country at large. Wherever it has been the case, it has
-been the result of ignorance, as to the appearance and physical
-properties of drugs that has led them into this error, an error
-in which, from a like ignorance, they have been kept by their
-druggist, who has been imposed upon by the bland assurance
-of the importer or jobber, which led him to take all things
-of a like name as of the same quality. There are those who
-buy because cheap, and prescribe, and perchance hope for success
-in the use of such remedies, but they are not found among
-our medical gentlemen of education and character and entitled
-to the respect and confidence of the community at large. The
-flood of light thrown upon this subject of adulterations of medicines
-by the reports to Congress; by the report of Dr. Bailey,
-special examiner for the port of New York; reports to the
-American Medical Association, and by various other writers in
-our phar­ma­ceu­ti­cal and medical journals, through the newspapers
-of the day, and various other means to the people, has
-worked, and is working a revolution in the drug trade at large.
-By a desire and growing necessity for a proper education of phar­ma­ceu­tists
-and druggists, a man is no longer considered competent
-to sell, dispose and deal out medicinal articles affecting
-the health, life and happiness of his fellow-beings, simply because
-he can calculate a per centage, or make a profit.</p>
-
-<p>The reform in this department is, I know, but just beginning,
-though long needed, but it will progress, for public opinion demands,
-and will continue to demand it.</p>
-
-<p>Physicians, professors of materia medica, and teachers of
-practical pharmacy and chemistry are feeling it, and the whole
-course of teaching upon this and kindred branches, has received
-more attention from both professor and pupil within the two
-past years, than ever before in the same length of time in the
-United States. From these combined sources
-will continue to <span class="xxpn" id="p271">{271}</span>
-flow a light that must shine upon and enlighten that ignorance
-which was permitting men to tamper with the life and health
-of the community. This has also had the effect to create a demand
-for pure medicines. Rhubarb is no longer rhubarb unless
-the quality is such as to commend it to the unfortunate
-consumer, and calling a thing by a good name is no longer
-sufficient to redeem it from its lack of curative properties and
-consequent worthlessness.</p>
-
-<p>Again, the endeavor to come up to the law’s standard for
-chemicals, the competition with the imported article, the increasing
-demand for good medicines, together with a commendable
-emulation among our chemists, has produced an improvement
-in this class of goods, sufficiently visible to refute all
-charges of home adulteration because protected from foreign
-competition; besides this, they are our fellow citizens,
-within reach of our complaints, with no intermediate dealer to
-shift the blame of impurity to the other side of the ocean, and
-thus wash his innocent hands at our cost. With this and the
-spirit of inquiry as to what we are selling, what we are buying,
-what we are administering, what we are swallowing with hopes
-of relief, that is abroad, no man can long escape detection,
-exposure and consequent loss of business, if engaged in the
-manufacture or sale of spurious goods.</p>
-
-<p>These opinions are the result of the concurrent testimony of
-the different examiners, of various dealers in drugs throughout
-the country, from whom I had before and since my appointment
-to this commission been in receipt of information, and
-are fully borne out by my own extensive observation in almost
-every state in the union.</p>
-
-<p>Without inquiring or pointing out the cause, the testimony
-to this effect, that the quality Of drugs in general has improved
-much within the two past years, is almost universal;
-and a style of drugs and chemicals, and of medicinal preparations,
-may now be found on sale in our great commercial emporiums,
-of a quality and purity never before found, certainly
-not in the United States, and I
-question if any wherelse. <span class="xxpn" id="p272">{272}</span></p>
-
-<p>These are the results of my observations, both as to the remote
-and immediate, or special and general effects of the law.
-And I feel that the friends of the law have great reason to
-congratulate themselves and the community at large, upon the
-fullest realizations of their hopes as to the good accruing from
-this sanitary measure.</p>
-
-<p>Those who were reaping an iniquitous harvest either through
-a desire to do evil for the purposes of gain (if any such there
-could have been), or through ignorance of the extent of such
-evil, must themselves feel that the law has worked no wrong
-to them even though it may have forced them into a different
-channel of trade. The only ones from whom we shall hear any
-complaints while the law is carefully and judiciously executed,
-or from whom we shall hear the plea for “unrestricted commerce,”
-and the potency of the great laws of trade as in themselves
-sufficient for the protection of life and health, are those
-whose prototypes aforetime cried out “Great is Diana of the
-Ephesians.”</p>
-
-<p>The value of their opinions may be measured by the sincerity
-of their professions, and the weight of their testimony
-calculated by the per centage of their gains.</p>
-
-<p>I have pursued my enquiries among drug importers and
-jobbers, meeting both friends and enemies of the law, among
-retail apothecaries, professional men and their patients, and
-my conclusions are that no more popular act, stands upon our
-congressional record.</p>
-
-<div class="dkeeptogether">
-<p>I have only to add my sincere wish, that it may long stand
-as a mark of the enlighted wisdom of the age and nation.</p>
-
-<p class="fsz6 padtopb">The above report is but the general report upon the working of the law.—It
-was, we understand, accompanied by a second private and detailed one, regarding
-the manner in which, at different localities, the law has been carried
-out.—<span class="smcap">E<b>DITOR.</b></span></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div><span class="xxpn" id="p273">{273}</span></div>
-<h3>ON THE MANUFACTURE OF NITRATE OF POTASH (SALTPETRE.)</h3>
-</div><!--section-->
-
-<p>Previous to the middle of the seventeenth century, the chief
-part of the saltpetre consumed in this country was obtained
-from refuse animal matters, as is evident from the following
-edict, issued by James I., for the regulation of the “mynes of
-salt peter.”—“The King, taking into his consideration the most
-necessary and important use of gunpowder, as well for supply
-of his own royall navie, and the shippinge of his lovinge subjects,
-as otherwise for the strength, safety, and defence of his people
-and kingdoms, and how greate a blessinge it is of Almighty
-God to this realm, that it naturally yieldeth sufficient mynes of
-salt peter for making of gunpowder for defence of ittself, without
-anie necessitie to depend uppon the dangerous chargeable
-and casuall supply thereof from forraigne parts, hath sett downe
-certen orders and constitutions to be from henceforth inviolably
-kept and observed, for the better maynteyning of the breed and
-increase of salt peter, and the true making of gunpowder.</p>
-
-<p>“Noe person doe from henceforth pave with stone or bricke,
-or floare with boarde, anie dove-house or dove-cote, or laie the
-same with lyme, sand, gravel, or other thing, whereby the
-growthe and increase of the myne of salt peter maie be hindered
-or ympaired, but shall suffer the floure or grounde thereof to lye
-open with goode and mellowe earth, apt to breede increase of
-the myne and salt peter, and so contynue and keep the same.</p>
-
-<p>“That no innkeepers, or others that keep stables for travellers
-and passengers, doe use anie deceiptful meanes or devices
-whereby to destroy or hinder the growthe of salt peter in those
-stables. And that no stables at all be pitched, paved, or
-gravelled where the horse feete used to stand, but planked only,
-nor be paved, pitched, or gravelled before the plankes next the
-mangers, but that both places be kept and maynteyned with
-goode and mellowe earth, fitt and apt to breede and increase
-the myne of salt peter, and laide with nothinge which may
-hurte the same. <span class="xxpn" id="p274">{274}</span></p>
-
-<p>“That all and every such person and persons as having had
-heretofore had anie dove-house, dove-cote, or stable (which were
-then good nurseries for the myne of salt peter) have sithence
-carried out the goode moulde from thence, and filled the place
-agayne with lyme, sand, gravel, rubbish, or other like stuff, or
-paved or floored the same, whereby the growthe of salt peter
-myne there hath been decayed and destroyed, shall and doe
-within three months next contryve to take up the pavements
-and boards agayne, and carrie out the said gravel, lyme, and
-offensive stuff from thence, and fill the place agayne with goode
-and mellowe earth fitt for the increase of salt peter, three foote
-deepe at the least, and so contynue and keepe the same for the
-breede of salt peter myne. No person, of anie degree whatsoever,
-was to denie or hinder the salt peter man workinge any
-earth; nor was anie constable to neglect or to forbeare to furnish
-him with convenient carriages necessarie for his worke;
-and every justice to whom the salt peter man should address
-himself for assistance was at his peril to fail to render it, that
-his majesties service might not suffer by his default. And no
-one was to give any gratuity or bribe to the salt peter man for
-forbearinge or sparinge of anie ground or place which may be
-digged or wrought for salt peter.”</p>
-
-<p>To lessen the annoyance to the owners of these dove-cotes and
-stable beds of saltpetre, and to promote the comfort of the
-pigeons, the saltpetre man was “to dig and carrie away the
-earth in such convenient time of the daie, and work it in suche
-manner as maie give least disturbance and hurte to the pigeons,
-and encrease of their breede, and in the chief tyme of breeding,
-that it be not done above two howers in anie one daie, and that
-about the middest of the daie, when the pigeons use to be
-abroade. And shall in like seasonable tyme carrie in the saide
-earth after it shall be wrought, and spreade itt there, and make
-flatt the floure of the dove-house, and leave itt well and orderlie.”</p>
-
-<p>In another proclamation, issued two years after this, it was
-ordered that whensoever anie ould building or
-house in London <span class="xxpn" id="p275">{275}</span>
-within three miles, is to be pulled down and removed, notice is
-to be given at the king’s storehouse in Southwark, that the
-deputy may first take as much of the earth and rubbish as in
-his judgement and experience is fitted for salt peter for the
-King’s service.”</p>
-
-<p>Soon after, we find that this enactment which caused much
-complaint, was repealed. “The manufacture of salt peter,”
-says the king, “had hitherto produced much trouble and grievance
-to the lieges, by occasioning the digging up the floors
-of their dove-cotes, dwelling-houses, and out-houses, and had
-also occasioned great charge to the salt peter men for removing
-their liquors, tubbes, and other instruments, and carrying them
-from place to place, but now, divers compounds of salt peter
-can be extracted by other methods, for which Sir John Brooke
-and Thomas Russell, Esq., have received letters patent.</p>
-
-<p>“To encourage so laudable a project, all our loving subjects,”
-continues his majesty, “inhabiting within every city, town, or
-village, after notice given to them respectively, shall carefully
-and constantly keep and preserve in some convenient vessels
-or receptacles fit for that purpose, all the urine of man during
-the whole year, and all the stale of beasts which they can save
-and gather together whilst their beasts are in their stables and
-stalls, and that they be careful to use the best means of
-gathering together and preserving the urine and stale, without
-any mixture of water or other thing put therein. Which our
-commandment and royal pleasure being so easy to be observed,
-and so necessary for the public service of us and our people,
-that if any person be remiss thereof, we shall esteem all such
-persons contemptuous and ill affected both to our person and
-state, and are resolved to proceed to the punishment of that
-offender with that severity we may.”</p>
-
-<p>Sir John agreed to remove the liquid accumulations from
-the houses once in every twenty-four hours in summer time,
-and every forty-eight hours in winter time.</p>
-
-<p>About the year 1670, the importation of saltpetre from the
-East Indies (where it is obtained as a natural
-product, being <span class="xxpn" id="p276">{276}</span>
-disengaged by a kind of efflorescence from the surface of the
-soil) had so increased as to affect the home manufacture, which
-has since gradually declined and become extinct. The manufacture
-of saltpetre from sources of the kind above mentioned,
-is not followed in this country at the present day, and it will be
-unnecessary to indicate here the process employed in France,
-Sweden, Germany, and other countries for obtaining it by the
-decomposition of animal refuse, the more especially as full
-accounts are given in Knapp’s <i>Technology</i>, Ure’s <i>Dictionary
-of Arts and Manufactures</i>, and other standard chemical works;
-we shall therefore confine our attention to an account of the
-processes which have been proposed for obtaining nitrate of potash
-by the decomposition of nitrate of soda and other sources.</p>
-
-<p>The first of these processes is that of adding nitrate of lime
-to a solution of sulphate of potash; sulphate of lime is precipitated,
-and nitrate of potash obtained in solution, which, on
-evaporation yields crystals of that salt.</p>
-
-<p>Mr. Hill’s method of manufacturing nitrate of potash is by
-decomposing nitrate of soda by means of muriate of potash.
-For this purpose the nitrate of soda is put into a suitable vessel,
-made of wrought or cast iron, and dissolved in as much water
-as is required, and then the equivalent quantity of muriate of potash
-is added; decomposition ensues, with the formation of nitrate
-of potash and muriate of soda; the greater portion of the latter
-is separated during evaporation, as it is equally soluble at all
-temperatures. The nitrate crystallizes on the cooling of the
-solution. Specimens of this nitre were shown at the Great
-Industrial Exhibition.</p>
-
-<p>Mr. Rotch’s processes for converting nitrate of soda into
-nitrate of potash are as follows:―</p>
-
-<p><i>First process with American potashes, (caustic).</i>—In a suitable
-round-bottomed iron boiler, he dissolves
-<span class="nowrap">2000 lbs.</span>
-of the
-ashes in 1000 quarts of water, and then applies heat for three
-hours, at the end of which time the solution ought to be of a
-density of 45° Baumè, (sp. gr. 1.453). In a similar boiler he
-dissolves <span class="nowrap">1300 lbs.</span>
-of nitrate of soda in 1200
-quarts of water, <span class="xxpn" id="p277">{277}</span>
-applying the heat as before, until the solution becomes of the
-density of 45° Baumé. Both solutions are then allowed to
-stand for twelve hours to cool and settle. They should be heated
-to from 175° to 200° Fah., and then both poured into a
-third vessel or crystallizing pan, when the double decomposition
-will take place, and the crystals of nitrate of potash be deposited,
-this first deposition giving from 700 to <span class="nowrap">900 lbs.</span>
-of good
-merchantable saltpetre.</p>
-
-<p>Care must be taken not to let the heat fall below 85°, at
-which the crystals form; and the better and more regularly the
-heat is kept up, the speedier will be the deposition of the crystals.
-The mother-liquor should then be poured off, and the
-crystals collected and thrown into the centrifugal drying machines,
-where they may be washed with weak mother-liquors.
-The portion of nitrate of potash that is left in the mother-liquor
-may be obtained by cry­stal­li­za­tion as before.</p>
-
-<p><i>Second process with carbonate of potash (Pearlash).</i>—The
-pearlash is dissolved in water, and the solution brought to a
-density of 40° Baumé (sp. gr. 1.384). This will cause whatever
-sulphate of potash may be contained in it to be deposited.
-The solution should then be left to stand for five or six days,
-after which it should be poured off, and diluted with water,
-until its density becomes 15° Baumé (sp. gr. 1,116). Caustic
-lime should then be added in the proportion of one-fourth of the
-weight of the original quantity of carbonate employed. It
-should then be poured off from the carbonate of lime formed,
-heated and mixed with the solution of nitrate of soda, as above
-described. The precise proportions that the caustic alkali
-should bear to the nitrate of soda, are forty-eight parts of the
-former to eighty-six parts of the latter. The materials to be
-used should be tested, so as to enable the just proportions to be
-arranged according to the formula just given. The patentee
-states that by this means a nitre is produced which is equal to
-the Bengal saltpetre, after the latter has gone through the expensive
-process of refining.</p>
-
-<p>A Stockholm manufacturer says:—“On
-dissolving nitrate of <span class="xxpn" id="p278">{278}</span>
-soda in excess of caustic potash solution, and evaporating to 28°
-or 32° Baumé (sp. gr. 1.241 or 1.285), the chief part of the
-saltpetre crystallizes, contaminated by the magnesia which is
-precipitated, and a small quantity of carbonate of lime. In
-order to obtain the whole of the saltpetre, the solution must be
-concentrated to 45° or 50° Baumé (sp. gr. 1.453 or 1.530). Here
-however, a difficulty arises; the cast iron crystallizing vessels
-are not impermeable to the liquor, which, whatever the thickness
-of the vessels, oozes through them, thus occasioning great
-loss. The saltpetre which still remains in solution after cry­stal­li­za­tion
-in the caustic solution at 30° Baumé (sp. gr. 1.263),
-cannot be collected, and if it be employed in the manufacture
-of soap, this will be found to contain so large a proportion of
-saltpetre, that it deliquesces and falls to pieces in a few days.”</p>
-
-<p>“A method employed in the Russian manufactories is first
-to dissolve the fine pearlash, and the nitrate of soda in the
-relative proportions of water required for their mutual decomposition,
-or rather with an excess of potash in such a quantity
-of water that the resulting product remains dissolved at 50°
-Reaumur. The solution is then allowed to settle, whereby the
-carbonates of lime and magnesia are deposited, after which the
-liquor is run off into wooden crystallizing vessels. As soon as
-the temperature is lower than 50° Reaumur, the principal part
-of the nitrate of potash crystallizes. The cry­stal­li­za­tion must
-now be very attentively watched, for as soon as the soda begins
-also to crystallize, the mother-liquors should be run off into
-other vessels, where a small quantity of nitrate of potash will
-crystallize, though the principal part will be soda. The nitrate of
-potash and the soda must then be purified by new cry­stal­li­za­tions.
-The salts formed from the mother-liquors must be redissolved
-with the nitrate of potash or the soda, according to which of
-the two most predominates.”</p>
-
-<p>Messrs. Crane and Jullion patented in 1848 the following
-method of manufacturing the nitrates of potash and soda:—The
-oxides of nitrogen evolved in the process of manufacturing
-oxalic acid, are mixed with oxygen gas or
-atmospheric air, and <span class="xxpn" id="p279">{279}</span>
-made to pass slowly through a chamber or other apparatus
-containing an alkali placed on trays (similar to the lime in a
-dry lime purifier), the mixed gases combine with the alkali,
-forming a nitrate of potash or soda, whichever alkali may have
-been employed.</p>
-
-<p>De Sussex’s process for the manufacture of nitrate of potash
-is as follows:—A solution is made of 166 pounds of nitrate of
-lead, and another of 76 pounds of chloride of potassium. The
-two solutions are then mixed, when double decomposition takes
-place, chloride of lead being precipitated, and nitrate of potash
-obtained in solution. In order to avoid the presence of lead in
-the nitrate of potash, a small portion of caustic or carbonated
-lime or magnesia is added, by which means any portion of the
-chloride of lead remaining in solution is precipitated. The solution
-of nitrate of potash is then evaporated and crystallized.</p>
-
-<div class="dkeeptogether">
-<p>Nitrate of soda is obtained in the same way, by substituting
-sixty-six pounds of chloride of sodium for the chloride of potassium
-above mentioned.—<i>Phar­ma­ceu­ti­cal Journal and Transactions,
-July 1, 1852.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON TINCTURE OF OPIUM.</h3>
-</div><!--section-->
-
-<p>The Phar­ma­ceu­ti­cal Society of Antwerp has employed a
-commission composed of its members to determine the best
-menstruum for the preparation of tincture of opium. It has
-arrived at the following results:―</p>
-
-<p>1. Good opium gives, when treated with water, less extract
-than bad or adulterated.</p>
-
-<p>2. By warm digestion, a stronger solution is obtained than
-by cold infusion.</p>
-
-<p>3. Alcohol must be preferred to wine in the preparation of
-tincture of opium.</p>
-
-<p>4. Narcotine, although alone insoluble in water, becomes
-partially extracted with the other ingredients of opium.
-When it is advisable to avoid the removal
-of narcotine, proceed <span class="xxpn" id="p280">{280}</span>
-as follows:—Treat carefully prepared aqueous extract of opium
-with, boiling alcohol; this dissolves out the narcotine and morphine,
-from which solution, when cold, the narcotine separates.</p>
-
-<p>After the precipitation, whatever ingredients are necessary to
-form the tincture are to be added to the alcoholic solution.</p>
-
-<div class="dkeeptogether">
-<p>By this opportunity, the commission recommend another
-process by which morphine may be more readily separated
-from narcotine. One part of the opium is to be treated with
-four parts of alcohol. After the alcohol has been separated
-by filtration, the residue is again to be macerated with three
-parts of alcohol. The resulting tinctures, after being mixed,
-are to be set aside for twenty-four hours to allow the narcotine
-to separate; afterwards the morphine is to be precipitated with
-ammonia. To remove the last traces of morphine, the fluid,
-from which the precipitated morphine has been filtered, is to
-be kept in a warm place for two days, a little water having
-been previously added, when a fresh quantity of morphine will
-fall down. By this method, <sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>12</sub> of the weight of the opium employed,
-can be obtained as morphine.—<i>Annals of Pharmacy
-and Practical Chemistry.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>PREPARATION OF PROPYLAMINE FROM ERGOTINE.
-<span class="hsmall">
-BY DR. F. L. WINCKLER.</span></h3>
-</div><!--section-->
-
-<p>The readers of the <i>New Repertory for Pharmacy</i>, part i., p.
-22 already know that I have been for some time occupied with
-the investigation of ergot, and that I obtained, by the distillation
-of ergotine with potash, besides ammonia, a substance
-having a very unpleasant odor, which conducted itself as a volatile
-alkali, and possessed a narcotic and highly diuretic property.
-This confirmation of a result which I had obtained some
-years before, induced me to continue my experiments, and I
-have now arrived at the conviction that
-the volatile alkali <span class="xxpn" id="p281">{281}</span>
-which is extracted from ergotine by distillation with potash is
-propylamine (N&#x202f;H<sub>2</sub>&#x202f;C<sub>6</sub>&#x202f;H<sub>7</sub>, or N&#x202f;H<sub>3</sub>&#x202f;C<sub>6</sub>&#x202f;H<sub>6</sub>) consequently the
-same which, according to the most recent experiments, is
-proved to be the product of decomposition of narcotine by potash,
-and the ingredient of herring-pickle. The smell itself made
-me imagine, long before I was acquainted with Wertheim’s
-experiments, that herring-pickle must likewise contain propylamine,
-and my experiments have fully confirmed this supposition,
-for in distilling herring-pickle with potash I obtained the
-same propylamine as that extracted from a concentrated
-aqueous solution of ergotine. The properties in which they
-agree are the following:―</p>
-
-<p>1. Propylamine saturates acids completely, and thus forms
-salts soluble in water, and for the most part in spirit of wine,
-with the exception of sulphate of propylamine, which does not
-dissolve in the latter. Beautiful white crystals may, however,
-be produced from the concentrated aqueous solution by the admixture
-of alcohol of eighty per cent. of strength. The salts
-of propylamine dissolved in water and treated with tannic acid
-produce a white (flocculent) precipitate; with chloride of mercury
-likewise, a white but pulverulent precipitate; with nitrate
-of silver a white (flocculent) precipitate; and with chloride of
-platinum a yellow precipitate (a crystalline powder). The salts
-of propylamine have a strong odor of fresh ergot, much less of
-herring-pickle, and are easily decomposed by potash.</p>
-
-<p>2. The concentrated aqueous solution being mixed with a
-fourth of its volume of tincture of iodine, a considerable dark
-yellowish-brown sediment is precipitated, and the supernatant
-fluid appears dark brownish-red. But in a very short time
-this sediment diminishes considerably, the fluid gradually
-changes color, so that in about twelve hours’ time there will be
-left but very little orange-colored sediment, whilst the fluid
-itself will appear almost colorless. Immediately after the addition
-of iodine the very disagreeable odor of propylamine
-disappears, and the mixture acquires the odor of iodine.</p>
-
-<p>3. When the neutral aqueous solution of
-sulphate of <span class="xxpn" id="p282">{282}</span>
-propylamine is evaporated in a water-bath it exhales a very disagreeable
-odor of herring, the solution becomes very acid, has only a
-weak odor of ergot, and all the re-actions cease. If this concentrated
-solution be digested with caustic lime in a still, there
-comes over, without the aid of artificial heat, almost pure propylamine,
-which has the odor of an ammoniacal liquid, and
-produces all the re-actions of pure propylamine.</p>
-
-<p>Now the propylamine of ergot presents the very same results,
-and it is on this account that until lately, it has always been
-mistaken for ammonia. I am convinced that it constitutes the
-odorous principle of urine, perspiration, and in the blood, and
-is often the cause of the odor which we observe in the action
-of alkaline leys upon nitrogenous compounds. Propylamine
-belongs to the organic bases, and may be considered as the adjunct
-[<i>Paarling</i>] of ammonia. I think I am justified in concluding,
-from the results of my experiments, that propylamine,
-<i>combined with an acid</i>, pre-exists in ergot
-as well as in herring-pickle,
-and is not produced by the potash, as is the case with
-narcotine. I have previously demonstrated the presence of
-formic acid in ergot, and it is with that acid that the propylamine
-seems to be united. I have not yet made any experiments
-with herring-pickle.</p>
-
-<p>It will now be difficult to determine whether the medicinal
-activity of ergot depends on propylamine or not, for the neutral
-salts of propylamine dissolved in water are easily absorbed,
-and I hope to be able to induce physicians to make pharmacological
-and therapeutical experiments.</p>
-
-<p>I have reasons to suppose that propylamine is likewise an
-ingredient of cod-liver oil, and being easily combined with
-iodine, it may soon be ascertained by practical application
-whether it ought not to be considered as the bearer (<i>träger</i>) of
-iodine. I propose to begin the necessary experiments in this
-respect as soon as my apparatus is entirely free from the odor
-of propylamine, in order to avoid all error.</p>
-
-<p>Finally, I had the idea of trying an experiment with regard
-to propylamine upon my own urine, which I made
-after a <span class="xxpn" id="p283">{283}</span>
-supper consisting of roast veal, potato-salad, and a glass of water,
-and which was neither acid nor alkaline. I poured three ounces
-of the urine, fresh made and still quite warm, upon four ounces
-of burned lime, and submitted it to distillation. The distilled
-product had indeed the odor of pure propylamine, and re-acted
-strongly alkaline; but acted in a remarkable manner on tincture
-of iodine in the same way as liquid ammonia. After
-having neutralized it with sulphuric acid, the liquid showed when
-tested with tannic acid and nitrate of silver, an unmistakable
-proportion of propylamine. Might this be formed out of the
-urea? My experiment confirms, at all events, the opinion
-stated above; the beginning is made, and I may now pass from
-experiment to scientific deductions.</p>
-
-<p><i>Remarks by Dr. Buchner</i>:—My friend, Dr. Winckler, in
-communicating the above paper, very agreeably surprised me
-by transmitting at the same time specimens of his preparation
-of propylamine, and that too in quantities varying from one to
-two drachms, for which I hereby beg to express to him publicly
-my best thanks. I received from him, namely:―</p>
-
-<ul class="ulin1">
-<li>1. The rough product of distillation of herring-pickle.</li>
-
-<li>2. The aqueous solution of the sulphate produced from it.</li>
-
-<li>3. The pure crystallized, and by spirit of wine, precipitated
-sulphate of propylamine.</li>
-
-<li>4. The concentrated solution of pure propylamine.</li>
-
-<li>5. The aqueous solution of the sulphate prepared
-with No. 4.</li></ul>
-
-<p class="padtopc">Hitherto
-I have only experimented with the preparations
-No. 2, 4 and 5, in order to verify and complete the statements
-of the above paper. All these solutions are quite colorless and
-clear, like water; they diffuse already at some distance a strong
-odor of herring; but the pure aqueous propylamine, when
-smelt at closely, has a pungent odor, very similar to that of
-liquid ammonia, which, however, at a distance, assumes, as it
-has been said, the smell of herring. This odor is so peculiarly
-char­ac­ter­is­tic, that I do not doubt, that even in water-closets,
-in consequence of fermentation, propylamine is developed, particularly
-as woollen clothes easily acquire there
-the odor of <span class="xxpn" id="p284">{284}</span>
-herring. All the conditions at least necessary for the formation
-of propylamine ammonia, and carbo-hydrogen, are to be
-found in water-closets. In a small close room its odor becomes
-insupportable, and affects strongly the head. Dr. Winckler,
-had therefore, good reasons to warn me against it. A young
-chemist, upon whose hand I dropped a very minute quantity
-of aqueous propylamine, for the purpose of ascertaining its
-taste, not­with­stand­ing that he had been walking after that a
-considerable distance, and had been exposed to the air, smelt
-still, after some hours, so strongly of herring, that happening to
-to enter a company, he was spoken to about it by several persons.
-I mention this merely as a caution. The taste of pure
-aqueous propylamine is pungently alkaline, and hardly distinguishable
-from that of caustic ammonia.</p>
-
-<p>The chemical re-actions of propylamine are well explained
-by Winckler. Turmeric paper turns brown with it, but being
-exposed to the air, in which propylamine quickly evaporates,
-it resumes again its primitive yellow color.</p>
-
-<p>Sulphate of propylamine (No. 3,) appears in small splendid
-white prisms, exposed to the air it evolves a distinct smell of
-herring, and has a pungent saline taste, like sulphate of ammonia;
-it is entirely neutral, and when moistened with water, it
-does not alter the color either of blue or red litmus-paper, or
-of turmeric-paper.</p>
-
-<div class="dkeeptogether">
-<p>We have in solutions of silver and iodine, which are not precipitated
-by ammonia, very appropriate re-agents for distinguishing
-propylamine from ammonia. Propylamine, however,
-treated with sulphate of silver, gave me not a white, but a
-yellowish-brown precipitate; and this result suggested to me
-the idea, that formiate of propylamine might be present.
-This precipitate was easily and perfectly dissolved in caustic
-liquid ammonia. With an aqueous solution of iodine I acquired
-at one time, according to the quantitative proportion
-a brown, and at another time a beautiful yellow precipitate,
-which dissolved in an excess of iodide of potassium. I usually
-employ an aqueous solution of iodine in
-iodide of potassium <span class="xxpn" id="p285">{285}</span>
-instead of the tincture of iodine made with spirit of wine.
-The precipitate produced by iodide of potassium is, as I have
-just stated, either brown or yellow, provided that no excess of
-iodide of potassium be employed.—<i>Buchner’s Neues Repertorium</i>,
-Bd. 1.</p>
-
-<hr class="hr34" /></div>
-
-<div class="chapter dedtrl">
-<h3>EDITORIAL.</h3>
-
-<hr class="hr12" />
-
-<p>We had intended once more to call the attention of our readers to the approaching
-meeting of the National Convention, but have been anticipated by one of
-our colleagues in the communication which is subjoined, giving an account of
-both its origin and its objects. It is to be hoped that, as the convention will
-probably assume a permanent organization, its proceedings will take on a scientific
-character. Independent of the subjects which pharmacy, every where, presents,
-such a body would be a fit one to assist in ascertaining and developing
-the resources of our indigenous materia medica. Our country is rich in medicinal
-articles, but the properties of many of them are but imperfectly known, and
-comparatively little attention has been paid to their phar­ma­ceu­ti­cal preparation.
-Inquiries of this kind, carried on with the aid of physicians, particularly of those
-attached to hospitals, could not fail to produce important results, and they seem
-peculiarly adapted to the wants of the community and to the position of the
-convention.</p>
-
-<div class="fsz6">THE NATIONAL PHARMACEUTICAL CONVENTION.</div>
-
-<p>The second meeting of Phar­ma­ceu­tists, the first as a National Convention, to
-which the Convention of Delegates from the several Colleges of Pharmacy, held
-in New York last October, may be considered the preliminary movement, will
-take place in Philadelphia, on Wednesday the 6th of October ensuing. The
-convention of last fall was held chiefly for the purpose of considering the important
-subject of standards of quality and purity which imported drugs ought to
-possess in order to regulate and render uniform the character required of them
-by the government Inspectors, at the various ports of entry in the United States.
-Unofficially and officially the duty of affixing standards for imported drugs
-was, with propriety, assigned to the Colleges of Pharmacy. For this object they
-were called in convention for that time only, and permanent organization was
-not then anticipated. But on the meeting of the Colleges, and their united
-action upon the one subject of such general importance, it was a natural consequence
-that a spontaneous and general feeling should arise in favor of the establishment
-of a National Phar­ma­ceu­ti­cal Organization, with an Annual
-Convention for the <span class="xxpn" id="p286">{286}</span>
-advancement of science and for the promotion of intercourse and good will among
-phar­ma­ceu­tists generally. Accordingly the preamble and resolutions brought
-forward by the committee, subsequent to their report on the special business of
-that convention and its action upon it, were received with hearty favor. We
-think it would be well to recapitulate them:</p>
-
-<blockquote>
-
-<p>“<span class="smcap">W<b>HEREAS</b>,</span> The advancement of the true interests of the great body of Pharmacutical
-practitioners in all sections of our country is a subject worthy of earnest
-consideration; and whereas Phar­ma­ceu­tists, in their intercourse among themselves,
-with physicians and the public, should be governed by a code of ethics
-calculated to elevate the standard and improve the practice of their art; and
-whereas, the means of a regular phar­ma­ceu­ti­cal education should be offered to the
-rising Phar­ma­ceu­tists by the establishment of Schools of Pharmacy in suitable
-locations; and whereas, it is greatly to be desired that the united action of the
-profession should be directed to the accomplishment of these objects; therefore,</p>
-
-<p><i>Resolved</i>, That in the opinion of this Convention, much good will result from a
-more extended intercourse between the Phar­ma­ceu­tists of the several sections of
-the Union, by which their customs and practice may be assimilated; that Phar­ma­ceu­tists
-would promote their individual interests and advance their professional
-standing by forming associations for mutual protection, and the education of their
-assistants, when such associations have become sufficiently matured; and that, in
-view of these important ends, it is further</p>
-
-<p><i>Resolved</i>, That a Convention be called, consisting of three delegates each from
-incorporated and unincorporated Phar­ma­ceu­ti­cal Societies, to meet at Philadelphia,
-on the first Wednesday in October, 1852, when all the importent questions
-bearing on the profession may be considered, and measures adopted for the organization
-of a National Association, to meet every year.</p>
-
-<p>In accordance with these resolutions, it was resolved that the President of
-the Convention be requested to transmit an invitation to the authorized bodies,
-at least three months previous to the time of meeting, desiring such bodies to
-acquaint him with the names of the delegates they may appoint.</p>
-
-<p>On motion, it was resolved that the New York Delegation be appointed a Committee
-to lay the proceedings of this Convention before the Secretary of the
-Treasury of the United States, and afterwards have them published in pamphlet
-form.</p>
-
-<p>Dr. Philbrick of Boston, offered the following preamble and resolution, which
-were adopted:</p>
-
-<p><span class="smcap">W<b>HEREAS</b>,</span> To secure the full benefits of the prohibition of sophisticated drugs
-and chemicals from abroad, it is necessary to prevent home adulteration; therefore,</p>
-
-<p><i>Resolved</i>, That this Convention recommend to the several Colleges to adopt
-such measures as in their respective states may be best calculated to secure that
-object.</p>
-
-<p>On motion of Mr. Colcord of Boston, it was</p>
-
-<p><i>Resolved</i>, That a committee of three be appointed by this Convention to act as
-a Standing Committee to collect and receive such information
-as may be valuable, <span class="xxpn" id="p287">{287}</span>
-and memorials and suggestions from any Medical and Phar­ma­ceu­ti­cal Associations,
-to be presented at the next Convention.</p>
-
-<p>The President appointed G. D. Coggeshall of New York, S. M. Colcord of Boston,
-and W. Procter, Jr., of Philadelphia, as the Committee.</p>
-
-<p>A vote of thanks to the officers was passed, and then the Convention adjourned,
-to meet in Philadelphia, on the first Wednesday in October, 1852.”</p></blockquote>
-
-<p>We hope that the considerations embraced in the preamble and resolutions of
-the committee will engage the thoughtful and earnest attention of every apothecary
-every where throughout the United States, who has a just sense of the proper
-dignity of his profession and an honest desire for its advancement, and that
-all will feel the importance of a general gathering at the approaching convention,—one
-that shall comprise a full representation of remote as well as adjacent
-districts of our extended country. In the words of the resolution, “three
-delegates, each, from incorporated and unincorporated phar­ma­ceu­ti­cal societies,”
-are invited, but a feeling has been increasingly manifested since the last convention,
-to solicit representation from all districts, small as well as large, that in
-places where but few apothecaries are located—too few as they may think for
-efficient organization,—they should yet feel their individual responsibility, and be
-encouraged to depute one or more of their number to represent them. All, who
-come in the right spirit of regard for the cause, may be sure of being welcome.—A
-National Phar­ma­ceu­ti­cal Association will undoubtedly be organized on a similar
-plan to that of the medical profession, and in it individuals may be admitted
-to membership that are acceptable as worthy practioners of their art.</p>
-
-<p>The convention will have many subjects of general interest to discuss and to
-arrange for future consideration. Prominent amongst these will be, a Code of
-Ethics which should govern phar­ma­ceu­tists in the performance of their duties,
-and in their intercourse with each other and with physicians; the importance of
-general conformity in practice with the United States Pharmacopœia; the
-suppression of <i>home</i> as well as the exclusion of <i>foreign</i> adulteration; and the
-driving out of quackery into its own mean company. That all these ends can at
-once be attained is scarcely to be hoped for; but we trust the convention will
-be composed of men who appreciate the distinctness of the honorable practice of
-our profession from all malpractice and quackery, and who are fully disposed to
-mark the division clearly and broadly; so that persons governed by such opposite
-principles may take their separate places, and be esteemed accordingly.</p>
-
-<p>We are authorized by Dr. Guthrie, who, since the Convention of 1851, has removed
-to Memphis, Tennessee, to request that the names of delegates may be reported
-to Prof. William Procter, Philadelphia,—a convenient arrangement, as
-Mr. Procter is one of the delegates to the next Convention, residing in the city
-where it is to be held.</p>
-
-<div class="dkeeptogether">
-<p>We would also invite the attention of Phar­ma­ceu­tists to the resolution introduced
-by Mr. Colcord, of Boston, and hope that any suggestions they may
-wish to offer, will be presented at an early day to one of the committee appointed,
-to rceive them.</p>
-
-<hr class="hr34" /></div>
-
-<div><span class="xxpn" id="p288">{288}</span></div>
-
-<h4>POISONING BY ADULTERATED CIDER.</h4>
-
-<p>A number of cases of lead poisoning, two of which terminated fatally, have
-lately occurred at Paris, which have been traced to the use of cider, clarified by
-a mixture of acetate of lead and carbonate of potassa. The history of this matter
-shows the efficacy of the French law regarding the use of poisonous substances,
-and the rigor with which it is enforced:―</p>
-
-<p>Several manufacturers, were accused of having sold cider adulterated and containing
-substances injurious to health; others in addition to this, of having
-caused various internal injuries to different individuals, and one M. Henon,
-further of having thus caused the death of two individuals.</p>
-
-<p>One of the witnesses testified, that he had purchased cider at the establishment
-of the defendant, that some days after drinking it he had been attacked with
-colic, and constant tremblings; by the advice of his physician, he sent a quantity
-of the suspected cider to the prefect of police for analysis. A number of other
-witnesses who had been poisoned, made statements to the same effect.</p>
-
-<p>M. Chevallier deposed, that he had received a letter from the prefect of the
-police, enclosing one from the physician of the plaintiff, who stated that a number
-of his patients had been rendered ill by the use of this cider; that he had, in
-consequence of this, inspected the various establishments in which the manufacture
-of cider was carried on, and that he has ascertained the presence of lead
-in the cider obtained at establishments of the accused.</p>
-
-<p>Several physicians testified, that the symptoms under which their patients
-(the witnesses) had labored, were due to lead poisoning.</p>
-
-<p>M. Dubail, a <i>Pharmacien</i>, testified that he had furnished M. Henon, (one of the
-accused), with a mixture of acetate of lead and carbonate of potassa, which M. H.
-stated, that by the advice of one of his clerks, he intended to use in the clarification
-of cider. That he had cautioned M. H. regarding its employment, and had
-furnished him with a re-agent for the purpose of detecting any lead which might
-not be precipitated in the cider thus clarified.</p>
-
-<p>The trial was commenced on the 9th of May, continued upon the 11th, and
-judgment rendered on the 18th.</p>
-
-<p>Henon, the use of whose cider had caused two deaths, was condemned to 18
-months imprisonment and to pay a fine of 800 francs; a second, to 8 months imprisonment
-and a fine of 500 francs; a third, to 6 months imprisonment and 500
-francs; while a fourth party, accused only of selling adulterated cider, but to the
-employment of which no injury had been traced, was imprisoned 3 months and
-fined 100 francs. M. Henon was condemned to pay 24,050 francs in addition
-as damages; another of the accused, the sum of 1500 francs.</p>
-
-<div class="dkeeptogether">
-<p>Truly, if the Prince President has been rather free in the employment of lead
-in the streets of Paris, the government takes good care that its citizens shall not
-be poisoned by it with impunity.</p>
-
-<hr class="hr34" /></div>
-
-<div class="dkeeptogether">
-<div class="divh4ord"><h4 class="h4runin nowrap">
-<span class="smcap">E<b>RRATUM.</b></span></h4>—In
-the July No. page <a href="#p224" title="go to p. 224">224,</a>
-article announcing delegates to the Convention
-for 1852, fourth line, for Monday read <i>Wednesday</i>.</div>
-
-</div></div><!--chapter dedtrl-->
-
-<div class="chapter">
-<div><span class="xxpn" id="p289">{289}</span></div>
-<h2 class="h2nobreak"><span class="hsmall">NEW YORK</span>
-JOURNAL OF PHARMACY.
-<span class="hsmall"><span class="hdate">
-OCTOBER, 1852.</span></span></h2>
-</div><!--chapter-->
-
-<h3>UNITED STATES CUSTOMS.</h3>
-
-<p class="psignature"><span class="smcap">N<b>EW</b></span>
-<span class="smcap">Y<b>ORK</b>,</span> September 25, 1852.</p>
-
-<p class="pfirst"><span class="smcap">M<b>R.</b></span>
-<span class="smcap">G<b>EORGE</b></span> D.
-<span class="smcap">C<b>OGGESHALL.</b></span></p>
-
-<p><i>Dear Sir</i>,—Your kind and courteous favor of the 16th
-instant, on behalf of the Publishing Committee of the New
-York Journal of Pharmacy, asking “information respecting
-the character of imported drugs and medicines coming under
-my supervision; and also, information in reference to the general
-working and effect of the drug law of 1848,” has been before
-me for several days, waiting such response, in the shape of
-a full and lengthy communication in detail, as it was my wish
-to furnish; but pressing and increasing official duties compel
-me, from want of time (not material), to forego that pleasure and
-confine myself to a brief statement of facts and data, which,
-together with some general observations, I am in hopes may,
-nevertheless, be found interesting to your readers.</p>
-
-<p>As an evidence of the beneficial effects of the wise sanitary
-measure, in the success of which, we have all taken so much
-interest, I am pleased to say that the character and quality
-of the more important articles of drugs, medicines and chemical
-preparations, connected with medicine at present presented
-for entry from abroad, is greatly improved, and of a far higher
-standard of strength and purity than formerly; not­with­stand­ing,
-as will be seen, I still have occasion to apply the “veto
-power”—a labor of love, which must, of
-necessity, be <span class="xxpn" id="p290">{290}</span>
-performed in order to arrest the unhallowed strides of deception
-and fraud which will ever be practised, to a greater or less
-extent, as long as we have those among us, engaged in any
-department of the drug trade, who, to put money in their
-purse, would endanger, if not sacrifice the lives of their fellow
-men. The law in question has now been in operation at this
-port something more than four years; and, with the exception
-of some eleven months, the duties and re­spon­si­bi­li­ties of its
-ad­min­i­stra­tion have devolved upon me. On the 21st day of
-April, 1849, I made a report to the New York Academy of
-Medicine, on the practical operation of this law, and stated
-therein the more important articles of drugs and medicines,
-with the quantities annexed, rejected by me up to that date;
-but as that report is doubtless familiar to most of your readers,
-I have not deemed it necessary to repeat them here. The
-following are the more important articles, with the quantities
-annexed, that I have since rejected and condemned as not of
-the requisite strength and purity to be safely and properly
-used for medicinal purposes, viz:―</p>
-
-<div class="dtablebox">
-<table summary="">
-<tr>
- <td class="pleft">Senna,</td>
- <td class="pright">31,838</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Jalap root,</td>
- <td class="pright">37,121</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Rhubarb root,</td>
- <td class="pright">5,782</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Sarsaparilla,</td>
- <td class="pright">65,374</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Mezereon bark,</td>
- <td class="pright">1,353</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Opium,</td>
- <td class="pright">3,164</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Kino,</td>
- <td class="pright">230</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Scammony,</td>
- <td class="pright">1,483</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Aloes,</td>
- <td class="pright">12,375</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Squills,</td>
- <td class="pright">1,626</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Spurious Peruvian bark,</td>
- <td class="pright">304,135</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Spanish Saffron,</td>
- <td class="pright">360</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Ergot,</td>
- <td class="pright">475</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Chamomile flowers,</td>
- <td class="pright">1,896</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Assafœtida,</td>
- <td class="pright">3,700</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Worm seed,</td>
- <td class="pright">230</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Colchicum seed,</td>
- <td class="pright">2,246</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft" id="p291">Valerian root,</td>
- <td class="pright">650</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Guaiacum,</td>
- <td class="pright">9,300</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Cream of Tartar,</td>
- <td class="pright">7,673</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Magnesia (carb.),</td>
- <td class="pright">2,867</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Magnesia (calc’d.),</td>
- <td class="pright">1,560</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Althea root,</td>
- <td class="pright">1,117</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Liquorice root,</td>
- <td class="pright">9,430</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Bistort root,</td>
- <td class="pright">140</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Gentian root,</td>
- <td class="pright">7,572</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Gentian root, in powder,</td>
- <td class="pright">430</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Lavender flowers,</td>
- <td class="pright">3,042</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Poppy flowers,</td>
- <td class="pright">190</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Hellebore root (white),</td>
- <td class="pright">460</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Pareira Brava root,</td>
- <td class="pright">730</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Cantharides,</td>
- <td class="pright">1,276</td>
- <td class="pleft">lbs.</td></tr>
-<tr>
- <td class="pleft">Creosote,</td>
- <td class="pright">140</td>
- <td class="pleft">ozs.</td></tr>
-<tr>
- <td class="pleft">Bromine,</td>
- <td class="pright">430</td>
- <td class="pleft">ozs.</td></tr>
-<tr>
- <td class="pleft">Sulphate of Quinine,</td>
- <td class="pright">3,200</td>
- <td class="pleft">ozs.</td></tr>
-<tr>
- <td class="pleft">Iodine,</td>
- <td class="pright">6,864</td>
- <td class="pleft">ozs.</td></tr>
-<tr>
- <td class="pleft">Hydriodate of Potass,</td>
- <td class="pright">3,720</td>
- <td class="pleft">ozs.</td></tr>
-</table></div><!--dtablebox-->
-
-<p class="pcontinue">Making
-altogether some five hundred and twenty thousand
-pounds, to say nothing of various articles in small quantities
-rejected from time to time, which I have not considered of sufficient
-importance to note down. This, together with the ninety
-thousand pounds previously rejected, as stated in an early report
-above alluded to, makes some six hundred and ten thousand
-pounds of various articles of drugs and medicines condemned
-by me as unfit for medicinal purposes since the law
-took effect at this port. What articles and in what quantities,
-were rejected during the eleven months that I was absent from
-the office, I am not advised, neither am I at this time able
-to say what has been done under the requirements of this act
-at the other ports of entry. I hope, however, that the special
-examiners can give a good account of their stewardship, and
-that they will not hesitate to do so, whenever the information
-is desirable as a means of pushing on the column of medical
-and phar­ma­ceu­ti­cal reform. <span class="xxpn" id="p292">{292}</span></p>
-
-<p>It will be seen by the above statement, that by far the largest
-quantity of any one article rejected, is that of spurious
-Peruvian bark, or as it is generally known in commerce, Carthagena
-and Maracaibo bark; and that too, as a general thing
-of the poorest and most worthless quality. The best of this
-bark affords on analysis only an exceedingly small percentage
-of quinine, not unfrequently, but a mere trace; while, at the
-same time, it yields as high as two, and occasionally with
-choice samples, two and a half per cent of a <i>peculiar</i> alkaloid
-which has been named <i>quinidine</i>, in contra-distinction to quinine,
-cinchonine, and aricine, (the three alkaloids heretofore
-obtained from the different varieties of the cinchona tribe of
-plants,) from which it differs essentially in several respects.</p>
-
-<p>What <i>is quinidine, medicinally understood</i>? How does
-<i>sulphate</i> of quinidine <i>compare with sulphate of
-quinine</i> (from
-which it is very difficult to distinguish it by the naked eye,)
-medicinally, as a remedial agent in cases where the use of the
-latter salt is particularly indicated? These are important
-questions, and the subject is one very properly at the present
-time calling for prompt, patient, and persevering investigation
-by all those whose mission it is to prepare, dispense or prescribe
-the most efficient means wherewith to combat disease; the
-more so for the reason, that I have detected in most of the sulphate
-of quinine lately imported from abroad, more or less of
-this non-officinal, and (in my opinion) as compared with quinine,
-non-efficient substance yclept quinidine; a fact readily
-accounted for, when it is known that for the last year or two
-immense quantities of the bark in question, good, bad, and
-indifferent, have been exported from New Grenada, (as well as
-much from this port that had been rejected) and purchased by
-foreign manufacturing chemists, for the purpose, as I have
-reason to believe, of mixing it with the <i>true</i> bark in the manufacture
-of sulphate of quinine; hence the hybrid salt now too
-frequently presented to entry; a practice that, if not speedily
-abandoned, will ruin as far as this country is concerned, the
-formerly well deserved reputation of more than
-one of the <span class="xxpn" id="p293">{293}</span>
-foreign manufacturers of sulphate of quinine I could name.
-The argument maintained by some of them that the article is
-used in their hospitals and found equal to pure quinine, will
-not answer on this side of the water; it smacks too much of the
-almighty dollar, even as I must believe (until further advised)
-at the expense of truth.</p>
-
-<p>This comparatively inert substance, quinidine, is readily
-detected by using the method adopted by Zimmer, and published
-in the March number of the Phar­ma­ceu­ti­cal Journal
-(London), and, as I was happy to see, transfered to the columns
-of the May number of your valuable Journal. It is a test so
-perfect, so scientifically practical, and so simple withal, that
-any one possessing only a moderate share of chemical and
-analytical acumen can successfully apply it, even though perchance
-he may not be able to boast of wearing the mantle of
-the departed Berzelins, or of having been a favorite pupil of
-Liebig.</p>
-
-<p>The law went into operation at this port on the 12th day of
-July, 1848, and it is worthy of remark, as a cause of gratulation,
-on the part of the early friends of the measure, that the
-importation of inferior and worthless qualities of many important
-drugs and medicines, has since gradually and greatly decreased
-in quantity. For instance, I rejected during the first
-seven months of the working of the law 19,989 pounds of
-Rhubarb root; but I have since rejected only 5,782 pounds,
-being but a fraction over one third of the quantity. For the
-past eighteen months, I have not had occasion to reject a single
-pound. I rejected during the first nine months 3,347
-pounds of opium; but have since, during a period of more
-than two years and a half of my ad­min­i­stra­tion of the law, as
-will be seen by the above statement, rejected only 3,164
-pounds. For the past thirteen months I have rejected only
-nine hundred and fifty two pounds, while I have passed during
-that period not less than 70,000 pounds. During the first two
-months of the operation of the law, I rejected 1,414 pounds of
-gamboge, but have since met with that only which
-I was ready <span class="xxpn" id="p294">{294}</span>
-to pass without any hesitation. During the first nine months
-I rejected 2,977 pounds of gum myrrh, but all that has since
-been presented to entry at this port, I have found satisfactory.
-Thus might I continue, but time and space will not permit.
-Enough I opine, has been said and shown to satisfy even the
-most prejudiced and sceptical opponent of this wise measure,
-that if faithfully and judiciously administered, <i>and seconded
-with becoming zeal and honesty of purpose by the medical
-profession, the pharmaceutist and dispensing apothecary</i>, it
-is calculated and destined to effect most beneficial and lasting
-sanitary reforms throughout the length and breadth of our
-vast and glorious land. In a word, the law has operated thus
-far remarkably well considering the hasty manner in which it
-was framed and passed through Congress. It is, in some respects
-imperfect, as must ever be the case with all new measures
-of legislation until their utility is tested by practical
-operation; but these imperfections were, some time since,
-brought to the attention of the Secretary of the Treasury,
-who, with his accustomed promptitude soon after instructed me
-to report to the Department such manifestations and suggestions
-as my experience in the ad­min­i­stra­tion of the law should
-dictate as most desirable, practicable, and judicious; and, not­with­stand­ing
-this important and responsible trust has necessarily
-been made the subject of the few occasional leisure moments
-I could from time to time command, apart from other
-official duties, it is nearly completed, and, in a manner too, as
-I have reason to believe, that will render the law, when amended
-as proposed, satisfactory to all honorable dealers, importers,
-owners, and consignees, and, at the same time do away with
-the not unreasonable objections entertained by our marine insurance
-companies; while its efficiency instead of being in any
-manner impaired by the amendments, will be more perfectly
-guarded and essentially strengthened. The particulars and
-details connected with this duty I must defer until another
-time; but I must be permitted before closing this communication
-to say, that to the present
-able and distinguished <span class="xxpn" id="p295">{295}</span>
-head of the Treasury Department, Hon. Thomas Corwin, is
-due a debt of gratitude, from all true friends of this important
-measure, not easily cancelled. Soon after he was called to
-take upon himself the re­spon­si­bil­i­ties of one of the most important,
-and by far the most arduous offices under the general
-government, the downward and fatal tendency of a mal­ad­min­is­tra­tion
-of the law was brought to his notice; when,
-rising <i>above all minor considerations</i>, he rescued it from impending
-danger, and placed it upon what he deemed a safe
-basis; and has since, on all occasions, lent a willing ear to
-every suggestion calculated to render it more perfect, to add
-to its efficiency, or perpetuate its usefulness. A noble example
-truly, and one well worthy of the man.</p>
-
-<div class="dkeeptogether">
-<p>To conclude, I beg to say, that although I have not the
-honor of belonging to any Phar­ma­ceu­ti­cal Association, I nevertheless
-take great interest in everything calculated to advance
-the good cause and noble calling in which you have so long
-been engaged; and, I hope the day is not far distant, when
-every city and town of importance throughout this wide extended
-country, will be favored with an organization of the
-kind, radiating from a <i>National</i> Phar­ma­ceu­ti­cal Association
-as a common center. It would be of vast benefit to the community
-at large, as well as eminently useful to the medical
-profession; for as all must admit, it is of the most vital importance
-to the success of the physician, that his remedial agents
-are properly prepared by a well-bred and perfectly educated
-chemist and pharmaceutist; and, I may add my conviction,
-that medical and phar­ma­ceu­ti­cal chemistry, a part of medical
-education that has thus far been most unpardonably neglected,
-should be universally and efficiently taught in our Schools of
-Medicine.</p>
-
-<div>I am, dear Sir,</div>
-<div>Very respectfully, your obd’t. serv’t.,</div>
-<div class="psignature">M. J. <span class="smcap">B<b>AILEY</b>,</span> M. D.,</div>
-
-<div class="fsz7">Special Examiner of Drugs, Medicines, Chemical
-Medicinal Preparations, &amp;c.</div>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div><span class="xxpn" id="p296">{296}</span></div>
-<h3>ON THE USE OF COAL GAS AS A SOURCE OF HEAT FOR THE LABORATORY.
-<span class="hsmall">
-BY EDWARD N. KENT.</span></h3>
-</div><!--section-->
-
-<p>Having recently fitted up a new laboratory in which I have
-introduced coal gas as a source of heat, I have thought a description
-of the apparatus and manner of using it, would be interesting
-to chemists and phar­ma­ceu­tists, as it has not been
-very generally applied to this purpose as yet in this country,
-although in England, where alcohol is dear, it has long been
-used as a substitute.</p>
-
-<p>In the use of coal gas as a source of heat, the principal difficulty
-to be avoided, is its tendency to smoke; this I have accomplished
-in a variety of ways. The ordinary argand gas
-burner, fixed permanently upon a branch pipe passing up
-through the table, is one of the cheapest, and a convenient arrangement
-for many purposes, and to prevent smoke, a tall
-glass chimney, or a short sheet iron chimney, with every other
-hole in the burner plugged, so as to make separate and distinct
-jets for the air to pass through, is all that is necessary. A tripod
-or sheet iron cylinder, for supporting vessels over the flame,
-is an indispensable addition to this burner. There is one objection
-to this form of apparatus, which is, that it is <i>fixed</i>,
-and cannot be moved about like a lamp. To avoid this inconvenience,
-I have had a number of burners constructed in different
-ways, and connected with flexible tubes, so as to admit of
-a change of position, to any place within the length of the tube.</p>
-
-<div class="dleft dwth09">
-<img src="images/i296.jpg" width="288" height="498" alt="" />
-<div class="caption">Fig. 1.</div></div>
-
-<p>Figure 1, is a gas burner designed as a
-substitute for the Rose Lamp, and when
-connected to the gas pipe by means of a
-flexible tube, answers every purpose of that
-excellent lamp without being liable to the
-danger of catching fire, or to the necessity
-of replenishing during an operation, as is
-the case with most alcohol lamps. The
-above arrangement consists of an ordinary
-argand gas burner, with every other hole
-plugged, fixed to an arm with
-a socket and <span class="xxpn" id="p297">{297}</span>
-thumb screw, by means of which it can be raised to any height
-on the rod attached to a moveable wooden foot. The lower
-part of the burner is provided with a screw to which the flexible
-tube is attached, by means of a Hare’s gallows screw connector.
-The other end of the flexible tube should be provided
-with a stopcock, at its union with the fixed gas pipes for
-regulating the supply of the gas. Above the burner is a moveable
-ring, with socket and thumb screw, for supporting retorts,
-flasks, etc., at any desired height. A glass chimney is represented
-in the figure, but this may be replaced with a short
-sheet iron chimney, when part of the holes in the burner have
-been plugged as before mentioned. The above burner is well
-adapted for use with the wire gauze chimney, as the moveable
-ring with the addition of a wire tripod, answers as a support
-for a platina crucible. To insure a perfect combustion of the
-mixture of gas and air, I find that the sheet iron cylinder should
-be about ten inches high and two inches diameter. Over such
-a cylinder, with the upper end covered with wire gauze, it is
-an easy matter to fuse carbonate of soda, or other substance requiring
-a bright red heat. When the combustion is perfect
-with the above cylinder, the flame is of a pale blueish white
-color, like that of a solid flame from alcohol but much hotter.
-With the addition of a small conical chimney of sheet iron,
-placed over the mixed gas-burner, so as to bring the blue flame
-to a smaller compass, I find it a very convenient and powerful
-flame for bending glass tubes, by which tubes of any
-diameter, or the neck of a retort, may be easily softened and
-bent.</p>
-
-<div class="dleft dwth09">
-<img src="images/i297.jpg" width="288" height="235" alt="" />
-<div class="caption">Fig. 2.</div></div>
-
-<p>Figure 2, is an argand burner, with
-every other hole plugged, attached to a
-heavy brass foot, and with an arm and
-stopcock, to which a long flexible tube is
-attached, the other end of which is connected
-to a pendant above the table.
-This burner is well adapted for use on
-any part of the table, and may be used with
-an ordinary retort <span class="xxpn" id="p298">{298}</span>
-stand, or with a sheet iron cylinder, for supporting vessels over
-the flame. It has all the conveniences without the disadvantages
-of a Berzelius’ Lamp, as it requires no wicks or replenishing,
-and cannot take fire; and the stopcock is not liable
-to get out of order, as is the case with the rack and pinion of
-the alcoholic lamp.<br class="brclearfix" /></p>
-
-<div class="dleft dwth08">
-<img src="images/i298a.jpg" width="288" height="241" alt="" />
-<div class="caption">Fig. 3.</div></div>
-
-<p>Figure 3, is a large burner, six
-inches in diameter, with the holes
-placed far enough apart to form distinct
-jets of the burning gas, by
-which means smoke is entirely prevented
-without the use of any chimney.
-This burner, like the preceding,
-is attached to a heavy brass
-foot, and with an arm and stopcock,
-to which a long flexible tube is attached, by means of which it
-can be moved to any part of the
-table.<br class="brclearfix" /></p>
-
-<div class="dleft dwth09">
-<img src="images/i298b.jpg" width="288" height="392" alt="" />
-<div class="caption">Fig. 4.</div></div>
-
-<p>This burner is provided with a large
-sheet iron cylinder, (figure 4) with air
-holes at the top and bottom, a slit at the
-side, to go over the arm of the burner,
-and a door in front for convenience in
-lighting the gas, and thus forms a powerful
-and convenient gas furnace, by means
-of which a gallon of water can be easily
-boiled. With this arrangement the confined
-heat is so great, that it is necessary
-to protect the table from burning, by means of sheet iron, or
-other suitable material.<br class="brclearfix" /></p>
-
-<div class="dkeeptogether">
-<p>In point of economy, coal gas is cheaper than alcohol for
-fuel, even in America where the latter is so cheap, and the
-price of gas is comparatively high; and, it is to be hoped, that
-the price of the latter will be reduced, so that coal gas may
-yet be used with economy, as a source of heat for domestic
-as well as for chemical and phar­ma­ceu­ti­cal purposes. The
-present price should be no detriment to its free use,
-as it is, <span class="xxpn" id="p299">{299}</span>
-undoubtedly, the most cleanly and convenient fuel which
-can be used in the laboratory; and, as such, I would strongly
-recommend it to those, for whom the above description has been
-prepared.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>NOTE UPON CICUTA (CONIUM MACULATUM) AND CONICINE.</h3>
-</div><!--section-->
-
-<p>Since Stoerck, who first extolled the virtues of Hemlock,
-this plant has undergone numerous alterations of credit and
-neglect which may be explained by the want of certainty, or
-rather by the irregularity, of its action.</p>
-
-<p>An important work has just appeared on this subject, executed
-conjointly by a physician and pharmacien of Lyons,
-MM. Devay and Guillermond. This work, which developes
-and completes what has been said upon the medicinal virtues
-of hemlock, furnishes a new element which will fix, we believe,
-the therapeutic value of that substance. It is the substitution
-of the seed like fruits for the other parts of the plant. We will
-briefly explain the motive of that preference.</p>
-
-<p>The principle to which cicuta owes both its toxicological and
-therapeutic powers has received the names of cicuta, coneine
-and conicine, the last of which is now generally adopted. It
-is a volatile alkaloid, of a sharp penetrating, disagreeable smell,
-somewhat like that of mice. It is of an oily consistence, and
-easily decomposed by heat. In these respects it resembles
-nicotine. But, a char­ac­ter­is­tic readily recognized and which
-distinguishes it from the latter, when shaken with water it
-again floats upon the surface, while nicotine is immediately
-dissolved by that liquid.</p>
-
-<p>The volatility of conicine, the readiness with which
-it is <span class="xxpn" id="p300">{300}</span>
-decomposed by heat or time alone, are such that the Lyonese
-experimenters do not hesitate to propose the abandonment
-both of the herb itself, and of all the pharmaceutic forms prepared
-by the aid of heat, or in which the conicine is susceptible
-of undergoing decomposition. We think this is going rather
-too far. The extracts of cicuta prepared with care, and particularly
-those prepared in vacuo, are of daily service. We
-have been able to verify by trituration with potassa, the presence
-of conicine in a hydro-alcoholic extract, a number of
-years old. But, not­with­stand­ing, recognizing the fact that the
-preparations of cicuta of this kind are often inert, we agree
-with the experimenters that it is of consequence to escape from
-such a state of things.</p>
-
-<p>The tincture of cicuta prepared with the fresh plant, is a
-very beautiful product, but made from parts of the plant containing
-but a small proportion of conicine, or at all events containing
-it in very variable proportions, may be inert or irregular
-in its action. What then is to be done? employ conicine
-itself? But the preparation of the alkaloid is difficult; it is
-promptly decomposed by contact with the air and light, and
-the apportionment of its dose, offers serious inconveniences.</p>
-
-<p>There is a organ of the plant in which its active principle is
-found in larger and more constant proportion, and under conditions
-in which it is better preserved than in any other; that organ
-is the fruit. It is at the moment of its most perfect development,
-when the plant commences to flower, that it contains
-the largest proportion of conicine, and that the principle is
-most perfectly elaborated. At a later period it disappears and
-is fixed in the fruit, in which it is concentrated in great quantity.
-It is in the fruit that we seek it when we wish to extract
-it. It is in the fruit we should seek it for medical use.</p>
-
-<p><span class="smcap">P<b>HARMACEUTICAL</b></span>
-<span class="smcap">P<b>REPARATIONS.</b></span>
-<span class="smcap">F<b>ORMULÆ.</b></span>—“Having
-shown by experiment as well as by reasoning, that the fruit of
-the cicuta (akène) should henceforth replace all the preparations
-of the plant employed in medicine: we have to make known
-the use we have made of this fact. It is important
-in the first <span class="xxpn" id="p301">{301}</span>
-place, that the fruit employed should be that of the great
-cicuta, and that it should not be mingled with seeds of the
-other umbelliferæ. They may be known by being almost
-globular with five crenelated sides.</p>
-
-<p>When the fruit is divided, the sides fold in the form of a
-crescent. They do not possess like most of the other umbelliferæ,
-a peculiar aromatic odor. This appears to be covered by
-that of conicine. The fool’s parsley, (<i>æthusa cynapium</i>,) the
-phellandrium aquaticum, the anise, bear fruits which, physically,
-have much resemblance to that of the cicuta; but, when the latter
-is pulverized, the char­ac­ter­is­tic odor which is developed is
-sufficient to enable us readily to recognize it. Another precaution
-to be taken is in relation to the time at which the fruit
-should be collected. Those which were employed in our experiments
-and preparations had reached the perfection of their maturity.
-It is then it should be collected for medical use, because
-then it is isolated, so to speak, from the plant which produces
-it; the active principle exists then in them in a true state
-of concentration and permanence.</p>
-
-<p>1st. <span class="smcap">F<b>ORMULÆ</b></span>
-<span class="smmaj">FOR</span>
-<span class="smcap">I<b>NTERNAL</b></span>
-<span class="smmaj">USE.</span>—“The fruit of the cicuta
-does not need any complicated pharmaceutic preparation. It
-is active enough of itself to be employed in its natural condition.
-A very simple manipulation only seems necessary to
-facilitate its use. It is to reduce it to powder and to form it
-into pills, which, coated with sugar, may be preserved an indefinite
-time. We have thought best to give the pills two
-degrees of strength according to the following formulæ.</p>
-
-<p>“<i>Pills of Cicuta, No. 1.</i>—Take one gramme of the fruit of
-the cicuta recently pulverized; make with a sufficient quantity
-of sugar and of syrup a mass, to be divided into 100 pills.
-These are to be covered with sugar; each pill will weigh about
-10 centigrammes. These are suited to persons who are not yet
-habituated to the use of the drug, and who are of a delicate
-constitution. We commence with two pills the first day, and
-the dose is augmented day by day to 10, 15, or 20. It is then
-most convenient to employ
-pills No. 2. <span class="xxpn" id="p302">{302}</span></p>
-
-<p><i>Pills No. 2.</i>—Take 5 grammes of the recently powdered
-fruit of the cicuta; incorporate them with a sufficient quantity
-of gum and sugar; divide as before into 100 pills, which are to
-be enveloped with sugar, each pill will weigh about 25 centigrammes.</p>
-
-<p>“We will finish the series of internal medicines by the formula
-of a syrup of conicine, which will be of the greatest utility
-to practitioners.</p>
-
-<p>“Exhaust 10 grammes of the fruit of the cicuta, with alcohol
-at 28° C. (82 F.) so as to obtain 60 grammes, to which 3000
-grammes of syrup, aromatised, <i>ad libitum</i>, are to be added.</p>
-
-<p>“Thirty grammes of this syrup represent 1 decigramme of
-the fruit or a milligramme of conicine. A teaspoonful being
-the equivalent of 30 grammes of syrup, the patient who takes
-one pill of No. 2. will be able to take half a teaspoonful of the
-syrup.</p>
-
-<p><span class="smcap">F<b>ORMULA</b></span>
-<span class="smmaj">FOR</span>
-<span class="smcap">E<b>XTERNAL</b></span>
-<span class="smmaj">USE.</span>—<i>Balm of Conicine.</i>—The
-process which we employ to prepare the balm of conicine
-authorizes us to give it that name. It is in effect, a true solution
-in lard freed from the principles which retain it in combination,
-and as pure as the processes we have proposed for its
-extraction will permit. Thus, after having exhausted the fruit
-by alcohol, and after having separated as completely as possible
-the conicine by means of ether and caustic potash, confining
-ourselves to the precautions indicated below, we take:
-the ether of cicuta, obtained by the exhaustion of 100 grammes
-of the fruit, and 300 grammes of recently washed lard.
-We begin by evaporating the ether in the open air, that is, by
-pouring it little by little in a plate, and as soon as the greater
-part of it has been eliminated, and the conicine commences to
-appear upon the plate in the form of little yellow drops, separating
-themselves from the vehicle, the lard is to be incorporated
-with it by degrees, the whole being constantly stirred
-to facilitate the evaporation of the ether. A balm of conicine
-is thus obtained, exceedingly active and convenient for
-use. <span class="xxpn" id="p303">{303}</span></p>
-
-<p>The following is the mode of preparing the ether of cicuta:
-“The alcoholic tincture obtained by the complete exhaustion of
-100 grammes of the fruit, is to be evaporated to the consistence
-of a syrup, and the alcohol is to be replaced by a small quantity
-of water. This leaves undissolved a thick green oil, entirely
-soluble in ether, and of which the quantity reaches the
-weight of 30 grammes. After having separated this green
-oil, we wash with ether the product of the alcoholic evaporation
-and obtain a yellowish resinous substance, which has no
-action on litmus paper and which has a strong odor, <i>sui generis</i>,
-different from that of conicine.</p>
-
-<p>After having submitted the mother waters of the alcoholic
-extract to this preliminary treatment, we have introduced them
-into a flask having a capacity three times as great as their
-volume, and treated them successively with a concentrated
-solution of caustic potash and rectified sulphuric ether. Immediately
-after the addition of the potash, a well marked odor of
-conicine was manifest in the mixture, and the ether became
-strongly alkaline. We left the same ether, (about 20 grammes)
-upon the mixture for twelve hours, often agitating it. It was
-then decanted and replaced by fresh ether, and this was replaced
-until the ether became nearly insensible to litmus
-paper. We remarked that the first 20 grammes of ether took
-up nearly all the alkaloid. One hundred grammes of well rectified
-ether was sufficient to remove almost completely the
-alkaloid from the extractive and alkaline mixture derived from
-100 grammes of the fruit of the cicuta.</p>
-
-<div class="dtablebox"><div class="nowrap">
-<table summary="">
-<caption class="fsz6">SOLUTION OF CONICINE FOR INJECTIONS.</caption>
-<tr>
- <td class="pleft">Tincture of the fruit,</td>
- <td class="pleft">100 grammes.</td></tr>
-<tr>
- <td class="pleft">Lime water,</td>
- <td class="pleft">900 grammes.</td></tr>
-</table></div></div><!--dtablebox-->
-
-<p>Filter at the end of a few minutes.</p>
-
-<p>“In this preparation we have thought best to employ lime
-water instead of simple water. We have remarked previously
-that the tincture of cicuta possessed no smell of conicine, but
-when lime water was added, the odor was instantly developed
-in a high dagree. The conicine is disengaged
-by the lime <span class="xxpn" id="p304">{304}</span>
-from its saline combination, and remains free, dissolved in the
-water.”</p>
-
-<p>MM. Devay and Guillermond, who, in their work, have
-been so just in their deductions, fail here, we think, in denominating
-syrup, injection, &amp;c., of conicine, the various preparations
-of the fruits of the cicuta. It is only perhaps a matter of
-form, but it is important to avoid in materia medica a matter
-of form which may give rise to a false idea of things, which
-may in a word, induce error.</p>
-
-<p>We have only occupied ourselves with the pharmacological
-part of the work of MM. Devay and Guillermond. The Bulletin
-de Therapeutique will soon offer an appreciation of its
-therapeutical portion.—<i>Dorvault.</i>—<i>Bulletin
-de Therapeutique.</i></p>
-
-<div class="dkeeptogether">
-<p class="fsz6 padtopa">[The facts on which the preference of the seeds of conium
-to the preparations in ordinary use are founded, are by no
-means new. They have been long known and frequently commented
-on. From six lbs. of the fresh and nine of the dried
-fruit, Geiger obtained an ounce of conia, or, as the French
-chemists prefer to call it, conicine; while from
-<span class="nowrap">100 lbs.</span>
-of the
-fresh herb, he procured only a drachm. The fresh dried herb
-exhibited only traces of it. The extract prepared from the
-herb partakes necessarily of its uncertainty and inactivity.
-Most of what is found in the shop is entirely inert; while the
-best, that of Tilden or of Currie, which are superior to the best
-English extract we have seen, possess comparatively little
-power. If conium is to be retained in the materia media, it is
-evident that we should employ that part of the plant in which
-the active principle is contained in the greatest quantity, and
-in a condition least liable to alteration. We are as yet, however,
-very imperfectly acquainted with the properties, either
-medicinal or poisonous of conium; and, as the continuation of
-the memoir of MM. Devay and Guillermond promises us a
-solution of the question, we await it with much interest.]—<span class="smcap">E<b>D.</b></span>
-<span class="smcap">N<b>EW</b></span>
-<span class="smcap">Y<b>ORK</b></span>
-<span class="smcap">J<b>OURNAL</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">P<b>HARMACY.</b></span></p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div><span class="xxpn" id="p305">{305}</span></div>
-<h3>ON THE MANUFACTURE OF WRITING INKS.</h3>
-</div><!--section-->
-
-<p>In the manufacture of good writing ink, more nicety is required
-in the choice of materials, as well as greater skill in
-manipulation, than is generally bestowed upon it.</p>
-
-<p>The proportion of the various ingredients used is a matter of
-considerable importance, affecting in a great degree the durability
-of the ink.</p>
-
-<p><span class="smcap">D<b>R.</b></span>
-<span class="smcap">L<b>EWIS’S</b></span>
-<span class="smcap">W<b>RITING</b></span>
-<span class="smcap">I<b>NK.</b></span>—Dr. Lewis, who instituted a
-series of very careful experiments on the manufacture of writing
-ink, found that equal parts of sulphate of iron and of galls
-gave an ink, which, although of a good color when first used, became
-yellowish-brown when the writing was kept for a moderate
-length of time, and that in proportion to the quantity of
-the sulphate, the inks were less durable in color, and that those
-in which the galls were in excess, were most durable.</p>
-
-<p>He, therefore, recommended the following proportions as best
-suited for the manufacture of good writing ink:—Powdered
-sulphate of iron, <span class="nowrap">1 oz.;</span>
-powdered logwood, <span class="nowrap">1 oz.;</span>
-powdered
-galls, <span class="nowrap">3 oz.;</span>
-gum arabic, <span class="nowrap">1 oz.;</span>
-white wine or vinegar, 1 quart.</p>
-
-<p>Water will answer for common purposes, but white wine
-formed a blacker ink than water, and vinegar formed one still
-blacker than wine. The addition of spirit injured the color,
-and occasioned a precipitation of coloring matter—a decoction
-of logwood, instead of water, improved both the beauty and
-deepness of the black. The ingredients are to be put in a glass
-or other convenient vessel, not metallic, and the mixture shaken
-four or five times a day. In ten or twelve days it will be fit
-for use, and sooner if in a warm situation; but it continues for
-a long time to improve if left without decantation. When it is
-separated from the powdery residue, it will be kept in a good
-state with greater certainty, if some broken galls freed from
-the powder and some pieces of iron are put into it. Iron, however,
-is the only metal which it is safe to retain in contact with
-the ink.</p>
-
-<p>Dr. Lewis gave the preference to distilled or
-rain water in <span class="xxpn" id="p306">{306}</span>
-the manufacture of ink, but it seems probable that a water containing
-a certain proportion of carbonate of lime is more suitable.
-In dyeing a black color by means of galls or sumach
-and copperas, hard spring water is preferred by some dyers.
-To produce in a liquid a given depth of color, distilled water
-requires more dyestuff than common spring water. This is illustrated
-in the following experiment, devised by Mr. Phillips:
-into two glass jars of the same size, each half-filled with distilled
-water, introduce equal quantities of infusion or tincture
-of galls or sumach, and an equal number of drops (only three
-or four) of a solution of copperas; a faint purplish color will be
-developed in both jars, but if one is filled with spring water,
-the color in that rapidly becomes dark reddish-black, and one-half
-more water is required to reduce it to the same shade of
-color as the other. The water which is found by experience
-to be best adapted for dyeing with galls and sulphate of iron,
-differs from distilled water in containing sulphate of lime, carbonate
-of lime held in solution by free carbonic acid, and
-chloride of calcium. The beneficial ingredient seems to be the
-carbonate of lime, which possesses slight alkaline properties,
-for if the smallest quantity of ammonia or of bicarbonate of
-potash is added to the distilled water in the above experiments,
-the purple color is struck as rapidly and as deeply as in the
-spring water; chloride of calcium and sulphate of lime, on the
-contrary, produce no sensible change either in the depth of
-color or the tint. The effect is no doubt referable to the
-action of the alkali or lime on the proto-sulphate of iron, by
-which the sulphuric acid of the latter is withdrawn, and hydrated
-protoxide of iron set free, for protoxide of iron is much
-more easily peroxidized and acted upon by tannic and gallic
-acids (the dyeing principles of galls) when in the free and hydrated
-state, than when in combination with sulphuric acid.
-Neither the caustic fixed alkalies (potash and soda) nor their
-carbonates can be well introduced in the above experiments,
-as the slightest excess reacts on the purple color, converting it
-into a reddish-brown. Ammonia, lime-water,
-and the alkaline <span class="xxpn" id="p307">{307}</span>
-bicarbonates also produce a reddening, and if applied in considerable
-quantity a brownish tinge. It is very probable that
-the above-mentioned principle is applicable to the preparation
-of writing ink.</p>
-
-<p><span class="smcap">R<b>IBANCOURT’S</b></span>
-<span class="smcap">W<b>RITING</b></span>
-<span class="smcap">I<b>NK.</b></span>—M. Ribancourt, who paid
-much attention to the preparation of inks, stated that none of
-the ingredients should be in excess. “If there be a want of
-the matter of galls, part of the vitriol will not be decomposed;
-if, on the contrary, there be too much, the vitriol will take as
-much as it can decompose, and the remainder will be nearly
-in the state of the decoction of galls, subject to change by becoming
-mouldy, or to undergo an alteration after writing which
-destroys its legibility much more completely than the change
-undergone by ink containing too small a portion of the galls.</p>
-
-<p>“It is doubtful whether the principles of the galls are well
-extracted by cold maceration, and it is certain that inks made
-in this way flow pale from the pen, and are not of so deep a
-black as those wherein strong boiling is recurred to.”</p>
-
-<p>From all the foregoing considertions, M. Ribancourt gives
-the following directions for the composition of good ink:―</p>
-
-<p>“Take <span class="nowrap">8 oz.</span>
-of Aleppo galls (in coarse powder); <span class="nowrap">4 oz.</span>
-of logwood (in thin chips); <span class="nowrap">4 oz.</span>
-of vitriol of iron; <span class="nowrap">3 oz.</span>
-of gum arabic (in powder); <span class="nowrap">1 oz.</span>
-of vitriol of copper; and <span class="nowrap">1 oz.</span>
-of sugar-candy. Boil the galls and logwood together in
-<span class="nowrap">12 lb</span>
-of water for one hour, or till half the liquid has evaporated.
-Strain the decoction through a hair sieve or linen cloth, and
-then add the other ingredients. Stir the mixture till the whole
-is dissolved (more especially the gum), after which leave it to
-subside for twenty-four hours. Then decant the ink, and preserve
-it in bottles of glass or stoneware well corked.” The
-sulphate of copper must be omitted in the preparation of an
-ink required for steel pens.</p>
-
-<p><span class="smcap">D<b>R.</b></span>
-<span class="smcap">B<b>OSTOCK’S</b></span>
-<span class="smcap">I<b>NSTRUCTIONS</b></span>
-<span class="smmaj">FOR</span>
-<span class="smmaj">THE</span>
-<span class="smcap">M<b>ANUFACTURE</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">I<b>NK.</b></span>—A
-few years since, Dr. Bostock presented to the Society of
-Arts the following, valuable communication “On the Properties
-of Writing Inks,” which will be
-read with interest. <span class="xxpn" id="p308">{308}</span></p>
-
-<p>“When the sulphate of iron and the infusion of galls are
-added together, for the purpose of forming ink, we may presume
-that the metallic salt or oxide enters into combination
-with at least four proximate vegetable principles, viz: gallic
-acid, tan, mucilage, and extractive matter, all of which
-appear to enter into the composition of the soluble part
-of the gall-nut. It has been generally supposed that two of
-these, the gallic acid and the tan, are more especially necessary
-to the constitution of ink; and hence it is considered, by our
-best systematic writers, to be essentially a tannogallate of iron.
-It has been also supposed that the peroxide of iron alone possesses
-the property of forming the black compound which constitutes
-ink, and that the substance of ink is rather mechanically
-suspended in the fluid than dissolved in it.</p>
-
-<p>“Ink, as it is usually prepared, is disposed to undergo certain
-changes, which considerably impair its value; of these,
-the three following are the most important:—Its tendency to
-moulding; the liability of the black matter to separate from
-the fluid, the ink then becoming what is termed ropy; and loss
-of color, the black first changing to brown, and at length almost
-entirely disappearing.</p>
-
-<p>“Besides these, there are objects of minor importance to be
-attended to in the formation of ink. Its consistence should be
-such as to enable it to flow easily from the pen, without, on
-the one hand, its being so liquid as to blur the paper, or on the
-other, so adhesive as to clog the pen and be long in drying.
-The shade of color is not to be disregarded; a black approaching
-to blue is more agreeable to the eye than browner ink;
-and a degree of lustre or glossiness, if compatible with due
-consistence of the fluid, tends to render the characters more
-legible and beautiful.</p>
-
-<p>“With respect to the chemical constitution of ink, I may
-remark that, although as usually prepared it is a combination
-of the metallic salt or oxide with all the four vegetable principles
-mentioned above, yet I am induced to believe that the
-last three of them, so far from being essential,
-are the principal <span class="xxpn" id="p309">{309}</span>
-cause of the difficulty that we meet with in the formation of a
-perfect and durable ink.</p>
-
-<p>“I endeavored to prove this point by a series of experiments,
-of which the following is a brief extract.</p>
-
-<p>“Having prepared a cold infusion of galls, I allowed a portion
-of it to remain exposed to the atmosphere, in a shallow
-capsule, Until it was covered with a thick stratum of mould,
-the mould was removed by filtration, and the proper proportion
-of sulphate of iron being added to the clear fluid, a compound
-was formed of a deep black color, which showed no further
-tendency to mould, and which remained for a long time
-without experiencing any further alteration. Another portion
-of the same infusion of galls had solution of isinglass added to
-it, until it no longer produced a precipitate; by employing the
-sulphate of iron, a black compound was produced, which, although
-paler than that formed from the entire fluid, appeared
-to be a perfect and durable ink.</p>
-
-<p>“Lastly, a portion of the infusion of galls, was kept for some
-time at the boiling temperature, by which means a part of its
-contents became insoluble; this was removed by filtration,
-when, by addition of sulphate of iron, a very perfect and durable
-ink was produced.</p>
-
-<p>“In the above three processes, I conceive that a considerable
-part of the mucilage, of the tan, and the extract, were respectively
-removed from the infusion, whilst the greatest part
-of the gallic acid would be left in solution.</p>
-
-<p>“The three causes of deterioration in ink, the moulding, the
-precipitation of black matter, and loss of color, as they are distinct
-operations, so we may presume that they depend on the
-operation of different proximate principles.</p>
-
-<p>“It is probable that the moulding more particularly depends
-©n the mucilage, and the precipitation on the extract, from the
-property, which extractive matter possesses of forming insoluble
-compounds with metallic oxides.</p>
-
-<p>“As to the operation of the tan, from its affinity for metallic
-salt we may conjecture that, in the first instance,
-it forms a <span class="xxpn" id="p310">{310}</span>
-triple compound with the gallic acid and the iron, and that in
-consequence of the decomposition of the tan, this compound is
-afterwards destroyed. Owing to the difficulty, if not impossibility,
-of entirely depriving the infusion of galls of any one of
-its ingredients without in some degree affecting the others, I
-was not able to obtain any results which can be regarded as
-decisive; but the general result of my experiments favors the
-above opinion, and leads me to conclude that, in proportion as
-ink consists merely of the gallate of iron it is less liable to decomposition
-or to experience any kind of change. The experiments
-to which I have alluded above, consisted in forming a
-standard solution by macerating the powder of galls in five
-times its weight of water, and comparing this with other infusions,
-which had either been suffered to mould, from which
-the tan had been extracted by jelly, or which had been kept
-for some time at the boiling temperature, and by adding to
-each of these respectively both the recent solution of the sulphate
-of iron, and a solution which had been exposed for some
-time to the atmosphere.</p>
-
-<p>“The nature of the black compound produced was examined,
-by putting portions of it into cylindrical jars and observing the
-changes which they experienced with respect either to the formation
-of mould, the deposition of their contents, or any
-change of color. The fluids were also compared by dropping
-portions of them upon white tissue paper, in which way both
-their color and their consistence might be minutely ascertained.
-A third method was to add together the respective infusions,
-and the solutions of the sulphate of iron, in a very diluted state,
-by which I was enabled to form a more correct comparison of
-the quantity and of the shade of the coloring matter, and of the
-degree of its solubility.</p>
-
-<p>“The practical conclusions which I think myself warranted
-in drawing from these experiments are as follows:—In order to
-procure an ink which may be little disposed either to mould or
-to deposit its contents, and which at the same time may possess
-a deep black color not liable to fade, the galls
-should be <span class="xxpn" id="p311">{311}</span>
-macerated for some hours in hot water, and the fluid filtered; it
-should then be exposed for about fourteen days to a warm atmosphere,
-when any mould which may have been produced must
-be removed. A solution of sulphate of iron is to be employed
-which has been exposed for some time to the atmosphere, and
-which consequently contains a certain quantity of the red oxide
-diffused through it. I should recommend the infusion of galls
-to be made of considerably greater strength than is generally
-directed, and I believe that an ink formed in this manner will
-not necessarily require the addition of any mucilaginous substance
-to render it of a proper consistence.</p>
-
-<p>“I have only farther to add, that one of the best substances
-for diluting ink, if it be in the first instance too thick for use,
-or afterwards become so by evaporation, is a strong decoction
-of coffee, which appears in no respect to promote the decomposition
-of the ink, while it improves its color and gives it
-an additional lustre.”</p>
-
-<p>Dr. Ure recommends the following formula for the manufacture
-of writing ink. To make twelve gallons take: 12lb of
-nutgalls; 5lb of green sulphate of iron; 5lb of gum Senegal;
-12 gallons of water. The bruised nutgalls are to be put into a
-cylindrical copper, of a depth equal to its diameter, and boiled
-during three hours, with three-fourths of the above quantity of
-water, taking care to add fresh water to replace what is lost by
-evaporation. The decoction is to be emptied into a tub, allowed
-to settle, and the clear liquor being drawn off, the lees
-are to be drained. The gum is to be dissolved in a small quantity
-of hot water, and the mucilage thus formed, being filtered,
-it is added to the clear decoction. The sulphate of iron must
-likewise be separately dissolved and well mixed with the above.
-The color darkens by degrees, in consequence of the peroxidizement
-of the iron, on exposing the ink to the action of the
-air.</p>
-
-<p>But ink affords a more durable writing when used in the
-pale state, because its particles are then finer and penetrate the
-paper more intimately. When ink consists
-chiefly of tannate <span class="xxpn" id="p312">{312}</span>
-of peroxide of iron, however black, it is merely superficial,
-and is easily erased or effaced. Therefore, whenever the liquid
-made by the above prescription has acquired a moderately
-deep tint, it should be drawn off clear into bottles and well
-corked up. Some ink-makers allow it to mould a little in the
-casks before bottling, and suppose that it will thereby be not
-so liable to become mouldy in the bottles. A few bruised cloves
-or other aromatic perfume, added to ink, is said to prevent the
-formation of mouldiness, which is produced by the ova of infusoria
-animalcules.</p>
-
-<p>The ink made by this prescription is much more rich and
-powerful than many of the inks commonly sold. To bring it
-to the common standard a half more water may safely be added.
-Even twenty gallons of tolerable ink may be made from
-the above weight of materials.</p>
-
-<p><span class="smcap">S<b>COTT’S</b></span>
-<span class="smcap">W<b>RITING</b></span>
-<span class="smcap">I<b>NK.</b></span>—Mr. Scott’s method of manufacturing
-writing ink, as patented by him in 1840, is as follows:—Take
-48lb of logwood chips, and let them be saturated two days in
-soft water, then put the same into a close covered iron cauldron,
-and add 80 gallons of soft water; let these be boiled one
-hour and a half, when the wood must be taken out and the
-fluid left, to which add 48lb of the best picked Aleppo galls in
-coarse powder; boil these half an hour longer, then draw off
-the fire, and let it remain in the cauldron twenty-four hours
-infusing, during which it is to be very frequently agitated;
-when the properties of the galls are sufficiently extracted, draw
-off the clear fluid into a vat, and add 40lb of pulverized sulphate
-of iron; let these ingredients remain a week (stirring
-daily), after which add four gallons of vinegar. Next take
-<span class="nowrap">7&#xfeff;<sup>1</sup>&#xfeff;&#x2044;&#xfeff;<sub>2</sub>lb</span>
-of the best picked gum arabic, and dissolve it in sufficient water
-to form a good mucilage, which must be well strained, and
-then added to the fluid by degrees; let these stand a few days
-longer, when pour into the same 20 ounces of the concentrated
-nitrate of iron; let the whole stand by again until it has arrived
-at its height of blackness; next pour the clear fluid off
-from the sediment, and add to it the following substances, each
-prepared
-and ground separately:― <span class="xxpn" id="p313">{313}</span></p>
-
-<p>First, take half a pound of Spanish indigo, which grind very
-fine between a muller and stone, adding by degrees portions
-of the ink until it is made into an easy soluble paste; next take
-well-washed and purified Prussian blue five pounds, which
-prepare as the former, except grinding it in distilled water in
-lieu of the fluid, until it is formed into a soluble paste; also
-next take four ounces of gas black which results from the
-smoke of gas burners received on surfaces of glass, as is well
-known, which grind in one ounce of the nitrate of iron; when
-each is sufficiently fine, let them remain a few hours unmixed,
-when the whole may be incorporated with the fluid, and kept
-agitated daily for a week. The clear may then be poured off
-for use. The above will make eighty gallons of ink.</p>
-
-<p><span class="smcap">D<b>R.</b></span>
-<span class="smcap">N<b>ORMANDY’S</b></span>
-<span class="smcap">B<b>LACK</b></span>
-<span class="smcap">I<b>NK.</b></span>—In order to supersede the
-use of nutgalls, Dr. Normandy patented the following process
-for making black ink:―</p>
-
-<p>Take either sumach, elm wood, elder, chestnut, beech, willow,
-oak, plum, sycamore, cherry, poplar wood, catechu, or
-any other wood or berry, or extract of vegetable substances,
-containing gallic acid and tannin, or either, and put this, previously
-reduced to powder, into a copper full of common water,
-and boil it until a sufficiently strong decoction be obtained.</p>
-
-<p>The quantity of water must of course vary according to the
-sort of vegetable substance employed; catechu, for example,
-requiring less water than sumach, on account of the former
-being almost totally soluble. To this add a certain quantity
-of Campeachy wood, of acetate and hydrate of deutoxide of
-copper, of sulphate of alumina and potash, of sulphate of protoxide
-of iron, in quantities which vary also according to the
-vegetable material first employed, and gum arabic, or the best
-sort of gum Senegal, in the proportion of eighty pounds or
-thereabouts for 340 gallons of liquid; also a variable quantity
-of sulphate of indigo; the whole of these last ingredients, depending
-on the shade of the color intended to be produced, it
-is impossible to indicate absolutely the proportions in which
-they are to be used, as the taste and fancy of
-the operator must <span class="xxpn" id="p314">{314}</span>
-decide. Supposing, however, a blue black to be the color desired,
-and sumach, for example, the vegetable ingredient selected
-for the purpose, the proportions should be for 240 gallons:
-sumach, from 12 to 15 sacks, of four bushels each; Campeachy
-logwood, 2 cwt. or thereabouts, according as new or
-old chip is used; gum arabic, <span class="nowrap">80 lb.</span>
-to 1 cwt.; sulphate of protoxide
-of iron, 1 cwt.; acetate and hydrate of deutoxide of copper,
-4lb; sulphate of alumina and potash, 37lb; sulphate of indigo,
-6lb, or even more, according to the intensity of the blue cast
-desired. If catechu were to be used instead of sumach, 1 cwt.
-would be required, the proportions of the other materials remaining
-the same.</p>
-
-<p>The variously colored precipitates which salts of iron form
-in the solutions of the above-cited vegetable astringent substances,
-all of which precipitates vary from the green to the
-brown (the decoction of nutgalls yeilding with salts of iron only a
-dark purple,) are the obstacles which have hitherto prevented the
-use of these vegetable substances, with a view to supersede
-nutgalls; but by means of the sulphate of indigo in various
-proportions, from the above-cited substances a liquid may be
-obtained, of different shades of color, from dark blue to most
-intense black, applicable to dyeing, staining, or writing, and
-which may be used with every description of pen.</p>
-
-<p><span class="smcap">D<b>R.</b></span>
-<span class="smcap">N<b>ORMANDY’S</b></span>
-<span class="smcap">P<b>URPLE</b></span>
-<span class="smcap">I<b>NK.</b></span>—To produce a purple-colored
-ink called the “King of Purples,” Dr. Normandy recommends
-the following proportions to be observed:—To twelve
-pounds of Campeachy wood add as many gallons of boiling
-water; pour the solution through a funnel with a strainer made
-of coarse flannel, on one pound of hydrate or acetate of deutoxide
-of copper finely pulverized (at the bottom of the funnel
-a piece of sponge is placed), then add immediately 14lbs. of
-sulphate of alumina and potash, and for every 340 gallons of
-liquid add eighty pounds of gum arabic or gum Senegal. Let
-these remain for three or four days, and a beautiful purple
-color will be produced.</p>
-
-<p><span class="smcap">D<b>R.</b></span>
-<span class="smcap">N<b>ORMANDY’S</b></span>
-<span class="smcap">B<b>LUE</b></span>
-<span class="smcap">I<b>NK.</b></span>—Dr. Normandy’s blue ink is
-made by operating upon Chinese blue
-or cyanoferruret of <span class="xxpn" id="p315">{315}</span>
-iron. The cyanoferruret of iron is to be ground in water with
-oxalic acid or bin-oxalate of potash, adding gum arabic in the
-following proportions: to seven ounces of water add three
-drachms of Chinese blue, 1 drachm of bin-oxalate of potash, and
-1 drachm of gum arabic; to these ingredients a solution of tin
-may be added.</p>
-
-<p><span class="smcap">G<b>IROND’S</b></span>
-<span class="smcap">S<b>UBSTITUTE</b></span>
-<span class="smcap">F<b>OR</b></span>
-<span class="smcap">G<b>ALLS.</b></span>—The substitute for gallnuts,
-patented by M. Girond, of Lyons, in 1825, is an extract
-from the shell of the chestnut, and also from the wood and sap
-of the chestnut-tree. The extract is denominated <i>Damajavag</i>,
-and the mode of preparing it is by reducing the chestnut-shell
-into small pieces, and boiling them in water.</p>
-
-<p>One hundred-weight of the shells of chestnuts broken into
-small pieces is to be immersed in about 180 or 200 quarts of
-water, in a vessel of copper or any other material, except iron, and
-after having been allowed to soak in this water for about 12 hours,
-the material is then to be boiled for about three hours, in order to
-obtain the extract. The wood of the chestnut tree may be cut into
-small pieces or shaved thin, and treated in the same way.</p>
-
-<p>The extract is now to be drawn off from the boiler, and filtered
-through a fine sieve or cloth, after which the water must
-be evaporated from it until the extract is reduced to the consistence
-of paste.</p>
-
-<p>It may now be cut into cakes of any convenient size, and
-dried in an oven of low temperature, and when hard, may be
-packed for sale, and used for any of the purposes in the arts
-to which gallnuts have been heretofore applied. The quantity
-of damajavag obtained from the above will be about 8 or
-<span class="nowrap">10 lbs.</span></p>
-
-<p>In using this damajavag, it is only necessary to pound or
-otherwise reduce it to powder when it may be mixed with
-other ingredients as pulverized gall nuts.</p>
-
-<p>The same chemical properties belong to the sap of the chestnut-tree,
-which may be extracted by tapping the trunk, and
-when so obtained, may be used for the same purpose as gallnuts.</p>
-
-<p><span class="smcap">S<b>TEPHENS’</b></span>
-<span class="smcap">B<b>LUE</b></span>
-<span class="smcap">I<b>NK.</b></span>—Stephens’ blue ink is prepared as
-follows:—Take Prussian blue, whether produced from a combination
-of prussiate of potash and salts of iron,
-or the Prussian <span class="xxpn" id="p316">{316}</span>
-blue of commerce, as commonly manufactured, and put this
-into an earthen vessel, and pour over it a quantity of strong
-acid, sufficient to cover the Prussian blue. Muriatic acid, sulphuric
-acid, or any other acid which has a sufficient action upon
-iron will do. If sulphuric acid is used it should be diluted a
-little, that is, with a quantity of water equal to about its bulk. The
-Prussian blue is allowed to remain in the acid from twenty-four
-to forty-eight hours or longer, and then the mixture is diluted
-with a large quantity of water, stirring it up at the time,
-for the purpose of washing from it the salts of iron. When in
-this state of dilution, it is allowed to stand until the color has
-subsided, when the supernatant liquor is drawn off with a
-syphon and more water added to it. This process is repeated
-until the acid, with the iron, has been completely washed away,
-which is known by testing it with prussiate of potash,
-which will show if it yields any blue precipitate; if not, it is
-sufficiently washed. The product is then placed upon a filter,
-and suffered to remain until the liquid has all drained away.</p>
-
-<p>The Prussian blue, thus prepared, is reduced to a state containing
-less iron than the Prussian blue of commerce, in which
-state it is more readily acted upon, and rendered soluble than
-in any other condition.</p>
-
-<div class="dkeeptogether">
-<p>This Prussian blue may then be placed in evaporating dishes,
-and gently dried. To form the Prussian blue, so operated
-upon, into a solution, oxalic acid is added, and carefully mixed
-with it, after which cold water is added (cold distilled water is
-best) a little at a time, making it into a dense or dilute solution,
-according to the color required. The quantity of oxalic
-acid may vary according to the quantity of water used. It will
-be found that the Prussian blue that has undergone the process
-of digestion, as described, requires but a small quantity of
-oxalic acid to dissolve it: about one part of oxalic acid will dissolve
-six parts of Prussian blue, the weight taken before digesting
-in the acid. This will answer for a concentrated solution,
-but for a dilute solution more acid will be required.</p>
-
-<div class="fsz6">(TO BE CONTINUED.)</div>
-<hr class="hr34" /></div>
-
-<div class="chapter dedtrl">
-<div><span class="xxpn" id="p317">{317}</span></div>
-<h3>VARIA—EDITORIAL.</h3>
-
-<hr class="hr12" />
-
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">Q<b>UINIDINE.</b></span></h4>—Sulphate of quinidine
-is advertised, “eo nomine,” for sale in the London Journals. What
-we get, as yet, occurs only as an adulteration of the sulphate of
-quinine. The same virtues, and to an equal extent, are ascribed by
-the advertisers to the new article, that are possessed by quinine.
-We do not know what authority there is for this statement, but it is
-exceedingly desirable that careful and well conducted experiments
-should be made to determine the properties and relative value of
-quinidine, quinoidine, and cinchonine. The great importance of quinine
-and its immense and constantly increasing consumption, long ago created
-a well founded anxiety lest the sources whence we obtain it should
-become exhausted or materially diminished. If the allied alkaloids will
-in any degree replace it, it is a fact of the highest value. Quinidine,
-in particular, is contained in some varieties of bark in which little
-or no quinine is found, and if the statements which have been made of
-the identity of its effects with quinine, probably without any better
-foundation than the closeness of resemblance of the two substances,
-should prove correct, the destruction of the cinchona Calisaya which is
-going on, may be in some measure stayed.</div>
-
-<hr class="hr34" />
-
-<div class="dkeeptogether">
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">E<b>XTRACT</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">B<b>ARK.</b></span></h4>—A new article has appeared in our markets under the
-name of Extract of Bark. The specimen that came under our observation was
-a dark brown substance, homogenous, and about the consistence of dry opium.
-It was very little soluble in water, much more so in alcohol, and completely so
-in diluted sulphuric acid. From chemical examination it would appear to contain
-about 46 per cent of quinine, with perhaps traces of quinidine and cinchonine.
-At the price at which we hear it is offered it will be sought for by the
-manufacturers of sulphate of quinine.</div>
-
-<hr class="hr34" />
-</div>
-
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">S<b>YRUP</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">T<b>URPENTINE.</b></span></h4>—M. Trousseau often uses the syrup of turpentine in
-chronic catarrh of the bladder and the lungs, in old copious suppurations, etc.,
-but as the standard works contain no formula, the preparation intended is not
-always obtained. <span class="xxpn" id="p318">{318}</span></div>
-
-<p>The following is the formula which has been published by M. Dorvault, according
-to the indications furnished by M. Trousseau, as being at once the most
-rational, and as furnishing a product preferable in all respects to that of the two
-formulæ given in the officine.</p>
-
-<div><div class="nowrap">
-<table summary="">
-<tr>
- <td class="pleft">Turpentine,<a class="aftntanc" href="#fn24" id="fnanch24">24</a></td>
- <td class="pleft">100 grammes.</td></tr>
-<tr>
- <td class="pleft">Water,</td>
- <td class="pleft">375 grammes.</td></tr>
-</table></div></div>
-
-<p>Digest during two days, taking care to agitate frequently; afterwards make a
-syrup after the manner of the balsam of Tolu, by adding</p>
-
-<div><div class="nowrap">
-<table summary="">
-<tr>
- <td class="pleft">White sugar,</td>
- <td class="pleft">750 grammes.</td></tr>
-</table></div></div>
-
-<p>This syrup contains besides the resinous principles, the nature of which is not
-well ascertained, from 1-40 to 1-100 of its weight of the essence of Turpentine.</p>
-
-<p>It is limpid, of an aromatic odor—very sweet, and of an agreeable taste; it
-may be employed pure, or used to sweeten appropriate drinks.</p>
-
-<div class="dkeeptogether">
-<p>Dose: from one to a number of tablespoonsful per day.—<i>Bulletin de Therap.</i></p>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch24" id="fn24">24</a>
-The turpentine recommended by M. Dorvault is a variety of
-the Strasburg turpentine, having an agreeable odor of lemon.</p></div>
-
-<hr class="hr34" /></div>
-
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">A<b>LOINE.</b></span></h4>—Our readers will recollect that Dr. Pereira has found Aloine, the
-chrystalline neutral principle recently discovered in Barbadoes aloes, by Mr.
-Smith of Edinburgh, in Socotorine aloe juice, (New York Journal of Pharmacy,
-No. 6, p. 177.) Since then Mr. Smith has succeeded in procuring it from Socotorine
-aloes. It was much longer in crystallizing than when obtained from Barbadoes
-aloes, but did so at last. When the impure product is recrystallized from rectified
-spirits it presents the same appearance as the purified crystal of Barbadoes
-aloes (the crystals obtained by Dr. Pereira which were spontaneously deposited
-from the juice, were much smaller) and seems identical with that substance. It
-has not yet been obtained from Cape aloes, but undoubtedly exists in that substance,
-though probably from its inferior activity in much smaller quantity.</div>
-
-<div class="dkeeptogether">
-<p>Aloine has been introduced into the practice of medicine in Edinburgh, and the
-Messrs. Smith have already (June) sold a quarter of a hundred weight of it. It is
-five times more active than good aloes—a single grain producing all the effect
-of a large aloetic pill; the Edinburgh physicians describe it as acting “<i>tuto, cito,
-et jucunde</i>,” safely, speedily, and pleasantly. If this is meant altogether seriously,
-in the second of the char­ac­ter­is­tics it presents a marked contrast with the crude
-drug. From the convenience with which it may be exhibited, it bids fair to
-come into general and extensive use.</p>
-
-<hr class="hr34" /></div>
-
-<div class="divh4ord"><h4 class="h4runin">
-<i>Action of Sulphuric Acid on the insoluble residue left by
-Opium, exhausted by water. Formation of a new Alkaloid,
-by</i> M. <span class="smcap">S<b>TANISLAS</b></span> <span
-class="smcap">M<b>ARTIN</b>.</span></h4>—The smallest object added to a
-kaleidoscope produces new shades and different images; so it is <span
-class="xxpn" id="p319">{319}</span> with vegetable chemistry; every
-practical man knows that a foreign body, an hours delay in executing
-a work already commenced, changes the nature of the products. Two
-experiments on the inert residue of opium, exhausted by water give
-another illustration of this truth.</div>
-
-<p>The residue of opium submitted to fermentation, affords us a substance which
-has a great analogy to paramorphia; this substance has since been studied by
-M. A. Guergy. The account of the labor of that chemist has been reproduced
-in the review of the Journal de Pharmacie, 1849.</p>
-
-<p>Our second operation consists in treating the residue of opium exhausted by
-water, with water acidulated with sulphuric acid. The result is the formation
-of an alkali which has many of the chemical properties of narcotine, but which
-differs from it completely by its insolubility in ether.</p>
-
-<p>This alkali has no relation with codeine or narceine; besides we obtain an
-extractive matter, soluble in all proportions in water, to which it communicates
-the property of frothing like soap.</p>
-
-<p>The following is the method of proceeding. The residue of opium, exhausted
-with water, is boiled in distilled water acidulated with sulphuric acid, after ten
-minutes ebullition it has the appearance of a thick magma; it is strained with
-strong expression; when the colature is cold it is filtered through paper.</p>
-
-<p>The colature is highly colored; its odor is similar to that of opium, its taste is
-exceedingly bitter.</p>
-
-<p>Ammonia is added until litmus paper is no longer altered; the liquid is filtered,
-the precipitate washed with distilled water, and permitted to dry; afterwards
-it is boiled with a sufficient quantity of rectified alcohol and again filtered. The
-alcoholic solution deposits on cooling, numerous needle like crystals, colored by
-a brownish bitter resin. It is purified in the ordinary manner.</p>
-
-<div class="dkeeptogether">
-<p>What are the therapeutic properties of this alkaloid, of the extractive saponaceous
-matter, and of the brown bitter resin! Do they partake of the properties
-of opium? We know not; the physician alone can determine their value.—<i>Bulletin
-de Therapeutique.</i></p>
-
-<hr class="hr34" /></div>
-
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">G<b>ELATINIZATION</b></span>
-<span class="smmaj">OF</span>
-<span class="smmaj">THE</span>
-<span class="smcap">T<b>INCTURE</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">R<b>HATANY.</b></span></h4>—Mr. Editor,—Some years
-ago having occasion to prepare some saturated Tincture of Rhatany,
-about eighteen, ounces were put aside in a glass stoppered bottle.
-The tincture being examined but a short time since, was found to be
-gelatinized, as is generally the case with old tincture of kino. Having
-never seen such a change before, I sought information, and ascertained
-through the United States Dispensatory that a French Pharmaceutist
-in Paris has remarked the same phenomenon, What is the cause of this
-remarkable change, attended as it is, with the loss of astringency?
-Is it not, perhaps, caused by the same action which produces peculiar
-exudation from the bark of certain trees possessed of tannin,
-retaining it for a <span class="xxpn" id="p320">{320}</span> while
-and afterwards, when cut up in logs, losing their tanning properties
-and exuding a species of ulmine? Is it not the same process which
-takes place in the decomposition of the kino and rhatany? But why is
-catechu exempt from such a decomposition? If you can enlighten me, and
-especially can explain how to prevent this change, you will much oblige
-myself and numerous readers.</div>
-
-<hr class="hr34" />
-
-<div class="divh4ord"><h4 class="h4runin">
-<span class="smcap">L<b>IST</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">D<b>ELEGATES</b></span>
-<span class="smmaj">TO</span>
-<span class="smmaj">THE</span>
-<span class="smcap">C<b>ONVENTION.</b></span></h4>—On the Sixth of this month the National
-Convention will meet in Philadelphia, and we see that our Philadelphia
-friends, with a reference to the convenience of the Delegates, have fixed upon 4
-o’clock in the afternoon as the hour for assembling. The meeting will be held
-in the Hall of the College of Pharmacy, in Zane Street, above Seventh, which
-has been placed at the disposal of the Convention. As far as heard from, the
-following is a list of Delegates:―</div>
-
-<ul class="ulin2">
-  <li>
-<i>Philadelphia College of Pharmacy</i>,
-<ul class="ulin2">
-  <li><span class="smcap">D<b>ANIEL</b></span> B. <span class="smcap">S<b>MITH</b>,</span></li>
-  <li><span class="smcap">C<b>HARLES</b></span> <span class="smcap">E<b>LLIS</b>,</span></li>
-  <li><span class="smcap">W<b>ILLIAM</b></span> <span class="smcap">P<b>ROCTER,</b></span> <span class="smcap">J<b>R.</b>,</span></li>
-</ul></li>
-
-  <li><i>Massachusetts College of Pharmacy</i>,
-<ul class="ulin2">
-  <li><span class="smcap">J<b>OSEPH</b></span> <span class="smcap">B<b>URNETT</b>,</span></li>
-  <li><span class="smcap">S<b>AMUEL</b></span> <span class="smcap">C<b>OLCORD</b>,</span></li>
-  <li><span class="smcap">S<b>AMUEL</b></span> R. <span class="smcap">P<b>HILBRICK</b>,</span></li>
-</ul></li>
-
-  <li><i>Richmond Phar­ma­ceu­ti­cal Society</i>,
-<ul class="ulin2">
-  <li><span class="smcap">A<b>LEXANDER</b></span> <span class="smcap">D<b>UVAL</b>,</span></li>
-  <li><span class="smcap">J<b>OHN</b></span> <span class="smcap">P<b>URCEL</b>,</span></li>
-  <li><span class="smcap">J<b>OSEPH</b></span> <span class="smcap">L<b>AIDLEY</b>,</span></li>
-</ul></li>
-
-  <li><i>Maryland College of Pharmacy</i>,
-<ul class="ulin2">
-  <li><span class="smcap">G<b>EORGE</b></span> W. <span class="smcap">A<b>NDREWS</b>,</span></li>
-  <li><span class="smcap">D<b>AVID</b></span> <span class="smcap">S<b>TEWART</b>,</span> M. D.</li>
-</ul></li>
-
-  <li><i>Cincinnatti College of Pharmacy</i>,
-<ul class="ulin2">
-  <li><span class="smcap">W<b>ILLIAM</b></span> B. <span class="smcap">C<b>HAPMAN</b>,</span></li>
-  <li><span class="smcap">E<b>DWARD</b></span> S. <span class="smcap">W<b>AYNE</b>,</span></li>
-  <li><span class="smcap">C<b>HARLES</b></span> A. <span class="smcap">S<b>MITH</b>,</span></li>
-</ul></li>
-
-  <li><i>College of Pharmacy of the City of New York</i>,
-<ul class="ulin2">
-  <li><span class="smcap">G<b>EORGE</b></span> D. <span class="smcap">C<b>OGGESHALL</b>,</span></li>
-  <li>L. S. <span class="smcap">H<b>ASKELL</b>,</span></li>
-  <li><span class="smcap">J<b>OHN</b></span> <span class="smcap">M<b>EAKIM</b>.</span></li>
-</ul></li></ul>
-
-</div><!--chapter dedtrl-->
-
-<div class="chapter">
-<div><span class="xxpn" id="p321">{321}</span></div>
-<h2 class="h2nobreak"><span class="hsmall">NEW YORK</span>
-JOURNAL OF PHARMACY.
-<span class="hsmall"><span class="hdate">
-NOVEMBER, 1852.</span></span></h2>
-</div><!--chapter-->
-
-<div class="divhhang2"><h3 class="h3runin">ACCIDENTAL
-SUB­STI­TU­TION OF EX­TRACT OF BEL­LA­DON­NA
-FOR EX­TRACT OF DAN­DE­LI­ON.<br />
-PROSECUTION OF THE MANUFACTURER.</h3></div>
-
-<div id="dp321">
-<div class="pleft phanga">
-<img class="iglyph-a" src="images/p321.jpg"
- width="445" height="45" alt="In the Court of Appeals," />
-</div>
-<div class="pleft phanga">
-<span class="smcap">S<b>AMUEL</b></span>
-<span class="smcap">T<b>HOMAS,</b></span>
-<span class="smcap">J<b>R.</b></span>
-<span class="smmaj">AND</span>
-<span class="smcap">M<b>ARY</b></span>
-<span class="smcap">A<b>NN</b></span>
-<span class="smcap">T<b>HOMAS,</b></span>
-<span class="smmaj">HIS</span>
-<span class="smcap">W<b>IFE,</b></span></div>
-<div class="pleft phanga">
-<i>Against</i>
-<span class="smcap">H<b>OSEA</b></span>
-<span class="smcap">W<b>INCHESTER</b>.</span></div>
-<div class="pleft phanga">
-<span class="smcap">R<b>UGGLES</b>,</span> <i>Chief Judge</i>.</div>
-</div>
-
-<p class="padtopc">This action was brought to recover damages from the defendant
-for negligently putting up, labelling and selling as and
-for the extract of <i>dandelion</i>, which is a simple and harmless
-medicine, a jar of the extract of <i>belladonna</i>, which is a deadly
-poison; by means of which the plaintiff, Mary Ann Thomas,
-to whom, being sick, a dose of dandelion was prescribed by a
-physician, and a portion of the contents of the jar was administered
-as and for the extract of dandelion, was greatly injured,
-&amp;c.</p>
-
-<p>The facts proved were briefly these: Mrs. Thomas being in
-ill health, her physician prescribed for her a dose of dandelion.
-Her husband purchased what was believed to be the medicine
-prescribed, at the store of Dr. Foord, a physician and druggist
-in Cazenovia, Madison County, where the plaintiffs reside.</p>
-
-<p>A small quantity of the medicine thus purchased, was administered
-to Mrs. Thomas, on whom it produced very alarming
-effects; such as coldness of the surface and extremities,
-feebleness of circulation, spasms of the muscles, giddiness of the
-head, dilation of the pupils of the eyes, and derangement of
-mind. She recovered, however, after some time, from its effects,
-although, for a short time, her life was thought
-to be in <span class="xxpn" id="p322">{322}</span>
-great danger. The medicine administered was <i>belladonna</i>,
-and not dandelion.</p>
-
-<p>The jar from which it was taken was labelled
-<i><span class="nowrap">“½lb.</span> Dandelion,
-prepared by A. Gilbert, No. 108 John Street, N. Y.
-Jar 8.02</i>.” It was sold for, and delivered by Dr. Foord, to be
-the extract of dandelion as labelled. Dr. Foord purchased the
-article as the extract of dandelion, from James S. Aspinwall, a
-druggist at New York. Aspinwall bought it of the defendant
-as extract of dandelion, believing it to be such.</p>
-
-<p>The defendant was engaged at No. 108 John Street, New
-York, in the manufacture and sale of certain vegetable extracts
-for medicinal purposes, and in the purchase and sale of others.
-The extracts manufactured by him were put up in jars for sale,
-and those which he purchased, were put up by him in like
-manner. The jars containing extracts manufactured by himself,
-and those containing extracts purchased by him from
-others, were labelled alike. Both were labelled like the jar in
-question, as “prepared by A. Gilbert.” Gilbert was a person
-employed by the defendant, at a salary, as an assistant in his
-business. The jars were labelled in Gilbert’s name because he
-had been previously engaged in the same business, on his own
-account, at No. 108 John Street, and probably because Gilbert’s
-labels rendered the articles more saleable. The extract
-contained in the jar sold to Aspinwall, and by him to Foord,
-was not manufactured by the defendant, but was purchased
-by him from another manufacturer or dealer. The extract of
-dandelion and the extract of belladonna resemble each other in
-color, consistence, smell and taste, but may, on careful examination,
-be distinguished, the one from the other, by those who
-are well acquainted with these articles. Gilbert’s labels were
-paid for by Winchester, and used in his business, with his
-knowledge and assent.</p>
-
-<p>The defendant’s counsel moved for a nonsuit on the following
-grounds:―</p>
-
-<p>1. That the action could not be sustained, as the defendant
-was the remote vender of the article in question,
-and there was <span class="xxpn" id="p323">{323}</span>
-no connexion, transaction, or privity between him and the
-plaintiffs, or either of them.</p>
-
-<p>2. That this action sought to charge the defendant with the
-consequences of the negligence of Aspinwall and Foord.</p>
-
-<p>3. That the plaintiffs were liable to, and chargeable with the
-negligence of Aspinwall and Foord, and therefore could not
-maintain this action.</p>
-
-<p>4. That according to the testimony Foord was chargeable
-with negligence, and that the plaintiffs therefore could not sustain
-this suit against the defendant; if they could sustain a suit
-at all, it would be against Foord only.</p>
-
-<p>5. That this suit, being brought for the benefit of the wife,
-and alleging her as the meritorious cause of action, cannot be
-sustained.</p>
-
-<p>6. That there was not sufficient evidence of negligence in the
-defendant to go to the jury.</p>
-
-<p>The Judge overruled the motion for a nonsuit, and the defendant’s
-counsel excepted.</p>
-
-<p>The Judge, among other things, charged the jury that if they
-should find from the evidence that either Aspinwall or Foord
-were guilty of negligence in vending as and for dandelion the
-extract taken by Mrs. Thomas, or that the plaintiff Thomas, or
-those who administered it to Mrs. Thomas, were chargeable
-with negligence in administering it, the plaintiffs were not entitled
-to recover; but if they were free from negligence, and if
-the defendant Winchester was guilty of negligence in putting
-up and vending the extracts in question, the plaintiffs were entitled
-to recover, provided the extract administered to Mrs.
-Thomas was the same which was put up by the defendant and
-sold by him to Aspinwall, and by Aspinwall to Foord.</p>
-
-<p>That if they should find the defendant liable, the plaintiffs
-in this action were entitled to recover damages only for the personal
-injury and suffering of the wife, and not for loss of service,
-medical treatment, or expense to the husband, and that
-the recovery should be confined to the actual damages suffered
-by the wife. <span class="xxpn" id="p324">{324}</span></p>
-
-<p>The action was properly brought in the name of the husband
-and wife, for the personal injury and suffering of the wife, and
-the case was left to the jury, with the proper directions on that
-point. <i>1 Chitty on Pleadings. 62 ed. of 1828.</i></p>
-
-<p>The case depends on the first point taken by the defendant
-on his motion for a nonsuit; and the question is whether the
-defendant, being a remote vender of the medicine, and there
-being no privity or connexion between him and the plaintiffs,
-the action can be maintained.</p>
-
-<p>If in labelling a poisonous drug with the name of a harmless
-medicine for public market, no duty was violated by the defendant,
-excepting that which he owed to Aspinwall, his immediate
-vender, in virtue of his contract of sale, this action cannot
-be maintained. If A build a wagon and sell it to B, who sells
-it to C, and C hires it to D, who, in consequence of the gross
-negligence of A in building the wagon, is overturned and injured.
-D cannot recover damages against A, the builder.—A’s
-obligation to build the wagon faithfully, arises solely out of
-his contract with B. The public have nothing to do with it.
-Misfortune to third persons, not parties to the contract, would
-not be a natural and necessary consequence of the builder’s negligence;
-and such negligence is not an act immediately dangerous
-to human life.</p>
-
-<p>So for the same reason, if a horse be defectively shod by a
-smith, and a person hiring the horse from the owner is thrown
-and injured in consequence of the smith’s negligence in shoeing,
-the smith is not liable for the injury. The smith’s duty in
-such case grows exclusively out of his contract with the owner
-of the horse; it was a duty which the smith owed him alone,
-and to no one else. And, although the injury to the rider may
-have happened in consequence of the negligence of the smith,
-the latter was not bound, either by his contract or by any considerations
-of public policy or safety, to respond for his breach
-of duty to any one except the person he contracted with.</p>
-
-<p>This was the ground on which the case of <i>Winterbotham
-vs. Wright. 10 Mees and Wellsby, 109</i>,
-was decided. A <span class="xxpn" id="p325">{325}</span>
-contracted with the Post Master General to provide a coach to
-convey the mail bags along a certain line of road, and B and
-others also contracted to horse the coach along the same line.
-B and his co-contractors hired C, who was the plaintiff, to
-drive the coach. The coach, in consequence of some latent defect,
-broke down; the plaintiff was thrown from his seat, and
-lamed. It was held that C could not maintain an action against
-A for the injury thus sustained. The reason of the decision is
-best stated by Baron Rolfe. A’s duty to keep the coach in
-good condition was a duty to the Post Master General, with
-whom he made his contract, and not a duty to the driver employed
-by the owners of the horses.</p>
-
-<p>But the case in hand stands on a different ground. The defendant
-was a dealer in poisonous drugs. Gilbert was his agent
-in preparing them for market; the death, or great bodily harm
-of some person was the natural and almost inevitable consequence
-of the sale of belladonna by means of the false label.—Gilbert,
-the defendant’s agent, would have been punishable for
-manslaughter if Mrs. Thomas had died in consequence of taking
-the falsely labelled medicine. Every man who, by his culpable
-negligence, causes the death of another, although without
-intent to kill, is guilty of manslaughter. 2 <i>R. S.</i> 662. § 19.
-A chemist who negligently sells laudanum in a phial labelled
-as paregoric, and thereby causes the death of a person to whom
-it is administered, is guilty of manslaughter. <i>Tessymond’s
-case, 1 Lewins’ crown cases, 169.</i> “So highly does the law
-value human life that it admits of no justification wherever life
-has been lost, and the carelessness or negligence of one person
-has contributed to the death of another.” <i>Regina vs. Swindall,
-2 Car. and Kir. 232–3.</i> And this rule applies not only where
-the death of one is occasioned by the negligent act of another,
-but where it is caused by the negligent omission of a duty of
-that other. <i>2 Car. and Kir. 368–371.</i> Although the defendant
-Winchester may not be answerable, criminally, for the negligence
-of his agent, there can be no doubt of his liability in
-a civil action, in which the act of the agent is
-to be regarded <span class="xxpn" id="p326">{326}</span>
-as the act of the principal. In respect to the wrongful and
-criminal character of the negligence complained of, this case
-differs widely from those put by the defendant’s counsel. No
-such imminent danger existed in those cases.</p>
-
-<p>In the present case the sale of the poisonous article was
-made to a dealer in drugs, and not to a consumer. The injury,
-therefore, was not likely to fall on him, or on his vendee who
-was also a dealer; but much more likely to be visited on a remote
-purchaser, as actually happened. The defendant’s negligence
-put human life in imminent danger. Can it be said that
-there was no duty on the part of the defendant to avoid the
-creation of that danger by the exercise of greater caution. Or,
-that the exercise of that caution was a duty only to his immediate
-vendee, whose life was not endangered? The defendant’s
-duty arose out of the nature of his business, and the danger to
-others incident to its mismanagement. Nothing but mischief
-like that which actually happened could have been expected
-from sending the poison falsely labelled into the market; and
-the defendant is justly responsible for the propable consequences
-of the act.</p>
-
-<p>The duty of exercising caution in this respect did not arise
-out of the defendant’s contract of sale to Aspinwall. The
-wrong done by the defendant was in putting the poison mislabelled
-into the hands of Aspinwall, as an article of merchandize
-to be sold and afterwards used as the extract of <i>dandelion</i>
-by some person then unknown. The owner of a horse and
-cart, who leaves them unattended in the street, is liable for any
-damage which may result from his negligence. <i>Lynch vs.
-Mordon, 1 ad. and Ellis, U. S. 29, 5 Car. and Payne 190.</i>
-<i>Illidge vs. Goodwin.</i> The owner of a loaded gun, who puts
-it into the hands of a child by whose indiscretion it is
-discharged, is liable for the damage occasioned by the discharge.
-<i>5 Maule and Sel. 198.</i> The defendant’s contract of sale to Aspinwall
-does not excuse the wrong done to plaintiffs. It was a
-part of the means by which the wrong was effected. The plaintiffs
-injury and their remedy would have stood
-on the same <span class="xxpn" id="p327">{327}</span>
-principle, if the defendant had given the <i>belladonna</i> to Dr.
-Foord without price; or, if he had put it in his shop without
-his knowledge, under circumstances which would propably
-have led to its sale, on the faith of the label.</p>
-
-<p>In <i>Longmead vs. Holliday, 6 Law and Eq. Rep. 562</i>, the
-distinction is recognized between an act of negligence imminently
-dangerous to the lives of others, and one that is not so.
-In the former case, the party guilty of the negligence is liable
-to the party injured, whether there be a contract between them
-or not; in the latter, the negligent party is liable only to the
-party with whom he contracted, and on the ground that negligence
-is a breach of the contract.</p>
-
-<p>The defendant on the trial insisted that Aspinwall and Foord
-were guilty of negligence in selling the article in question for
-what it was represented to be in the label; and that the suit if
-it could be sustained at all, should have been brought against
-Foord. The judge charged the jury that if they or either of them
-were guilty of negligence in selling the <i>belladonna</i> for <i>dandelion</i>,
-the verdict must be for the defendant, and left the question
-of their negligence to the jury, who found on that point for the
-plaintiff. If the case really depended on the point thus raised,
-the question was properly left to the jury. But, I think it did
-not. The defendant by affixing the label to the jar represented
-its contents to be <i>dandelion</i>, and to have been “prepared” by
-his agent Gilbert. The word “prepared” on the label must be
-understood to mean that the article was manufactured by him,
-or that it had passed through some process under his hand,
-which would give him personal knowledge of its true name
-and quality. Whether Foord was justified in selling the article
-upon the faith of the defendant’s label, would have been an
-open question in an action by the plaintiffs against him; and I
-wish to be understood as giving no opinion on that point. But
-it seems to me to be clear, that the defendant cannot in this
-case set up as a defence that Foord sold the contents of the jar
-as and for what the defendant represented it to be. The label
-conveyed the idea distinctly to Foord that the
-contents of the <span class="xxpn" id="p328">{328}</span>
-jar was the extract of <i>dandelion</i>, and that the defendant knew
-it to be such. So far as the defendant is concerned, Foord was
-under no obligation to test the truth of the representation.
-The charge of the judge in submitting to the jury the question
-in relation to the negligence of Foord and Aspinwall, cannot
-be complained of by the defendant.</p>
-
-<div class="dkeeptogether">
-<p>Judgment Affirmed.</p>
-
-<p class="psignature">
-<span class="dleft spwanada">A Copy.</span>
-H. R. SELDEN, <i>State Reporter</i>.</p>
-
-<p class="fsz6 padtopc"><span class="smcap">M<b>EM.</b></span>—The original verdict against Winchester was $800; the
-costs of appeal, &amp;c. swelled the amount to near $1,400, which was paid
-by Winchester.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>NOTES IN PHARMACY, No. 5.
-<span class="hsmall">
-BY BENJAMIN CANAVAN.</span></h3>
-</div><!--section-->
-
-<div class="divh4ord"><h4 class="h4runin nowrap">
-<span class="smcap">S<b>UCCI</b></span>
-<span class="smcap">I<b>NSPISSATI</b></span>
-<span class="smmaj">PER</span>
-<span class="smcap">A<b>ERE</b></span>
-<span class="smcap">S<b>ICCO.</b></span></h4>—I take occasion again to
-notice these preparations, for the reason, that I perceive from
-a note, by the Editor of this Journal, appended to an article
-on “Cicuta,” &amp;c., in the last (September) number: that he
-considers the extracts of Messrs. Tilden or Currie, superior to
-the best English extracts he has seen. I think, however, that
-on reflection, he will agree with me that those prepared by means
-of a current of dried air—some of which so made have been imported
-and used here—must particularly, when there is anything
-volatile about them,—be superior to all others; indeed, so favorably
-am I inclined to regard this process, that I think the profession,
-medical and phar­ma­ceu­ti­cal, should <i>demand</i> its adoption
-by those engaged in the business of preparing extracts; until
-which is the case, I shall feel it incumbent upon me to use the
-imported article, as I have been in the habit of doing. Moreover,
-the relative virosity of the <i>narcotic plants</i>
-of the <span class="xxpn" id="p329">{329}</span>
-American and European continents are still in favor of the latter,
-although, if recent researches are to be depended upon, the difference
-is not so great as was supposed. Mr. Currie, I believe,
-prepares some at least, if not all his extracts with imported
-herbs, and in vacuo, and they are therefore the best made here;
-but these are the <i>dried</i> herbs, and cannot afford as good an extract,
-ceteris paribus, as when the fresh plant is used. The
-English extracts of indigenous plants are, strictly speaking,
-<i>inspissated juices</i>, according to the <i>London Pharmacopœia</i>.
-The juice of a plant inspissated by air alone, and that quickly
-too, must be tantamount in its properties to the fresh plant
-whence obtained, so far as we are at present aware, or at least
-to the same, dried in the same equally safe manner; wherefore,
-I consider them preferable to all other preparations of the
-family of Extracts.<a class="aftntanc"
- href="#fn25" id="fnanch25">25</a></div>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch25" id="fn25">25</a>
-Mr. Canavan mistakes—the assertion was that the
-Extract of Conium, prepared by Tilden or by Currie, was superior
-to the best English Extract of that article we have seen, and a
-comparison of the odor of the two articles, under the influence
-of a little liquor potassae, will readily convince the observer
-of its correctness. The question as to the other Extracts is one
-of great interest, and we still believe it awaits a satisfactory
-solution.—<span class="smcap">[E<b>D.</b>]</span></p></div>
-
-<div class="divh4ord"><h4 class="h4runin nowrap">
-<span class="smcap">S<b>ANGUINARINA.</b></span></h4>—Having been called upon to prepare some
-of this article, I undertook to do so by the process said to have
-been adopted by Mr. Dana, viz.: displacing the root with dilute
-acetic acid; precipitating by ammonica; boiling with
-purified animal charcoal; treating with alcohol, and finally
-evaporating the alcoholic solution, by which I obtained from
-two ounces of the root, about twenty grains only, having the
-sensible properties of the article very strongly, and being of a
-reddish brown color, assuming, when finely pulverized, an ochreish
-hue. It has been described as a “white, pearly substance,”
-which it might have become by more perfect discoloration, or
-the use of a different acid. The liquor from which it was precipitated,
-lost its peculiar taste, but not all its color, showing
-that the color of the root does not depend altogether on this
-principle, as was supposed. The article in question has been
-used by one practitioner, who stated it to have met his expectations,
-administered in doses of one sixth of a grain. The preparation
-in question is a very desirable one, as the objectionable
-taste of the ordinary preparations is a frequent bar to
-their use.</div>
-
-<div class="divh4ord"><h4 class="h4runin nowrap">
-<span class="smcap">A<b>LOINE.</b></span></h4>—On this subject it may be well to
-mark the fact, <span class="xxpn" id="p330">{330}</span>
-that the officinal “ext. aloe purificat,” presents the active property
-of the aloes, freed from its griping quality, (though this
-is doubted; but the same doubt would seem to apply to aloine.)
-It is, however, about twice the strength of the crude extract,
-and is generally used when the “tuto cito et jucunde” effect is
-desired. The change which is supposed to take place in the
-aloine, from the heat used in the preparation of the purified
-extract, would only—according to the Messrs. Smith of Edinburg—prevent
-its cry­stal­li­za­tion, and therefore the extract
-should be equally advantageous, except, perhaps, in regard of
-bulk, which is not a very <i>great</i> object.</div>
-
-<div class="divh4ord"><h4 class="h4runin nowrap">
-<span class="smcap">Z<b>IMMER</b></span>
-<span class="smcap">T<b>EST</b></span>
-<span class="smmaj">FOR</span>
-<span class="smcap">Q<b>UINIDINE.</b></span></h4>—In
-em­ploy­ing this test, some
-mod­i­fi­ca­tion of the original directions is necessary, in order to
-success. The word <i>drop</i> is used, but it is doubtful whether
-<i>minim</i> may not be meant, and if not, the difference in density
-of the liquids used would prevent our getting, by dropping,
-the correct quantities. This I found to be the case, and to save
-future trouble I give the minutiæ of the experiment as I performed
-it, with success; no evidence of the presence of quinidine
-being shown, as was expected:</div>
-
-<div><ul class="ulstnz">
-  <li><span class="spwa"><img class="iglyph-a" src="images/u211e.prescription.take.jpg"
-  width="53" height="84" alt="℞" /></span> Aquae gtt. xxiij.</li>
-  <li><span class="spwanada">Acid.</span> Sulph. C. P. gtt. vi.</li>
-  <li><span class="spwanada">Aether</span> Sulph. <i>concentr.</i> gtt. lx.</li>
-  <li><span class="spwanada">Aquae</span> Ammonia F. F. F. gtt. xx.</li></ul>
-</div>
-
-<p>Et agita bene.</p>
-
-<p>In each instance, the drops were allowed to fall from the
-lip of an ordinary quart tincture bottle, except the sulphuric
-acid, which was contained in a small pint tincture bottle,
-and of which I used <i>three times the number of drops</i> directed;
-the drops being about one third the size of a drop of
-distilled water, which was shown to be correct, by the necessity
-for that quantity to effect a solution which took place without
-the aid of external heat. With regard to this matter of
-drops, it is a considerable eyesore. I would recommend to
-apothecaries, (perhaps it might be deemed worthy of the action
-of the convention), to agree upon some standard
-<i>size</i> for the <span class="xxpn" id="p331">{331}</span>
-drop,—say that of a drop of distilled water, under definite circumstances.
-It is true, we have a measure; but it is for minims
-not for drops, whilst in this way, by a little practice, the eye
-might be accustomed to the proper size of the drop, so that
-there would be little or no difficulty in obtaining an exact result,
-by increasing or diminishing the number of drops, according
-to the proportional size of its drop, to the standard one.
-Of course, when I speak of “keeping the drop in the eye,” I
-do not mean to imply anything incompatible with the Maine
-Liquor Law. I speak aquatically, not <i>spiritually</i>.</p>
-
-<hr class="hr34" />
-
-<div class="section">
-<h3>NATIONAL PHARMACEUTICAL CONVENTION.</h3>
-</div><!--section-->
-
-<p>According to the arrangement which had previously been
-announced, the National Convention met in Philadelphia, on
-Wednesday the 6th of October, at 4 P. M. In the absence of
-Dr. Guthrie, the President, the Convention was organized by
-the appointment of Mr. Coggeshall, of New York, as President
-<i>pro tempore</i>; Mr. A. B. Taylor, of Philadelphia, as acting Secretary.
-A committee was then appointed by the Chair, consisting
-of Messrs. Ellis, of Philadelphia, Colcord, of Boston, and Laidley,
-of Richmond, to examine the credentials of the delegates
-present; and to report a resolution in regard to the admission of
-such apothecaries as might be present,
-who, though not <span class="xxpn" id="p332">{332}</span>
-delegated by any incorporated institution, desired to attend the
-Convention.</p>
-
-<p>The committee reported that satisfactory credentials had been
-presented by the following gentlemen:―</p>
-
-<p><i>From the Massachusetts College of Pharmacy</i>—Joseph
-Burnett, Samuel M. Colcord, Dr. Samuel R. Philbrick.</p>
-
-<p><i>From the College of Pharmacy, of the City of New York</i>—George
-D. Coggeshall, L. S. Haskell, John Meakim.</p>
-
-<p><i>From the Richmond Phar­ma­ceu­ti­cal Society</i>—Alexander
-Duvall, John Purcell, Joseph Laidley.</p>
-
-<p><i>From the Cincinnatti College of Pharmacy</i>—William B.
-Chapman, Charles Augustus Smith, Edward S. Wayne.</p>
-
-<p><i>From the Philadelphia College of Pharmacy-</i>-Daniel B.
-Smith, Charles Ellis, William Procter, Jr.</p>
-
-<p><i>From the Maryland College of Pharmacy</i>—Dr. David
-Stewart, George W. Andrews.</p>
-
-<p>Henry F. Fish, of Waterbury, Connecticut, as the representative
-of the apothecaries and druggists of Hartford county,
-Connecticut. The following resolution was also offered by the
-committee:―</p>
-
-<p><i>Resolved</i>, That those gentlemen whose interest in the object
-of the Convention has induced them to meet with us on this
-occasion, be invited to take seats in the Convention, and fully
-participate in its proceedings.</p>
-
-<p>The report and resolutions were adopted, and the committee
-continued to act on claims of delegates, and others not yet
-arrived.</p>
-
-<p>After the roll had been called, the following gentlemen were
-invited to seats in the convention, viz.:―</p>
-
-<div><ul class="ulstnz">
-  <li>San Francisco, California
-<ul class="ulin1"><li>CHARLES L. BACHE,</li></ul></li>
-  <li>New York
-<ul class="ulin1"><li>EUGENE DUPUY,</li></ul></li>
-  <li>Philadelphia
-<ul class="ulin1"><li>EDWARD PARRISH and</li>
-  <li>ALFRED B. TAYLOR.</li></ul></li></ul>
-</div>
-
-<p>A committee, consisting of one from
-each delegation, was <span class="xxpn" id="p333">{333}</span>
-then chosen to nominate officers for the Convention, and
-on their nomination, the following gentlemen were duly
-elected:―</p>
-
-<div><ul class="ulstnz">
-  <li><span class="smcap">P<b>RESIDENT</b></span>
-<ul class="ulin1"><li>DANIEL B. SMITH, of Philadelphia.</li></ul></li>
-
-  <li><span class="smcap">V<b>ICE</b></span>
-<span class="smcap">P<b>RESIDENTS</b></span>
-<ul class="ulin1"><li>GEORGE W. ANDREWS, of Baltimore,</li>
-  <li>SAMUEL M. COLCORD, of Boston,</li>
-  <li>C. AUGUSTUS SMITH, of Cincinnati.</li></ul></li>
-
-  <li><span class="smcap">R<b>ECORDING</b></span>
-<span class="smcap">S<b>ECRETARY</b></span>
-<ul class="ulin1"><li>GEORGE D. COGGESHALL, of New York.</li></ul></li>
-
-  <li><span class="smcap">C<b>ORRESPONDING</b></span>
-<span class="smcap">S<b>ECRETARY</b></span>
-<ul class="ulin1"><li>WILLIAM PROCTER, <span class="smcap">J<b>R.</b>,</span> of Philadelphia.</li></ul>
-</li></ul>
-</div>
-
-<p>After the officers had taken their seats, the following report
-was presented by the committee appointed at the Convention,
-held the previous year at New York, “To act as a standing
-committee, to collect such information as maybe deemed valuable,
-together with memorials and suggestions from Medical and
-Phar­ma­ceu­ti­cal Associations to be presented to the next Convention.”</p>
-
-<p>“The undersigned, a committee appointed at the Convention, held
-last year in New York, and instructed “To collect and receive such
-information as may be valuable, and memorials and suggestions from
-Medical and Phar­ma­ceu­ti­cal Associations, to be presented to the next
-Convention,” respectfully report: That in the period that has elapsed
-since their appointment—not­with­stand­ing the fact of their readiness to
-receive any communications, having been duly announced—they have
-received no contributions towards the end or object of their appointment,
-except those relating to the inspection of drugs. They have,
-however, not been unmindful of the duty imposed upon them, and now
-offer the following suggestions, as tending to aid the business of the
-Convention, in so far as they exhibit some of the more prominent
-subjects, worthy of its serious deliberation and action.</p>
-
-<p>1st, The number of phar­ma­ceu­tists constituting the professional
-body in the United States is large, comprehends all grades of qualifications,
-and extends to every city and town in the country. The professed
-object of the present Convention being to adopt measures calculated
-to benefit this large body of citizens, in a professional point of
-view, by showing that there exist many grounds of sympathy between
-them, not­with­stand­ing the present want of united action; we believe,
-that the institution of a national association, whose members may come
-from all sections of the body, is calculated to enlist
-this feeling of <span class="xxpn" id="p334">{334}</span>
-brotherhood, and direct its power, as a reforming force, towards the
-elevation of the average standard of qualification now existing. In
-view of this, it is suggested, whether the passage of a resolution by
-this Convention, resolving itself into a National Association, should not
-properly engage its attention at its commencement, so that the important
-details of forming a Constitution—explaining the nature of its organization,
-&amp;c. &amp;c., might receive the deliberate consideration they
-merit, before being adopted.</p>
-
-<p>As the basis upon which the Association will rest, will be the decision
-as to what shall constitute a member, we believe its ultimate usefulness
-will very much depend on the character of this decision, and
-we cannot refrain from presenting some reflections on the subject.</p>
-
-<p>The inefficiency or inadequacy of the present basis, viz.:—Delegates
-from incorporated and unincorporated societies is here demonstrated,
-by the small number who have been appointed in answer to the
-call; at least, this must be true, so long as the process of local organization
-is so dilatory. The aim should be, to enlist as much as possible
-of the talent now engaged in the phar­ma­ceu­ti­cal ranks.</p>
-
-<p>We think, therefore, that membership in the proposed association
-should be of a representative character, to as full an extent as practicable.
-Colleges and societies of pharmacy should, of course, send
-delegates. Then, provision should be made for the apothecaries, in
-cities and towns where no society exists, whereby they may send representatives,
-to the extent of one for every ten apothecaries, in such
-places; each representative to bring with him a certificate from his
-constituents. Finally, to provide for the admission of isolated individuals,
-who may not have neighbors sufficient to entitle them to act as
-representatives, but who feel an interest in the association. Power
-should be given to the committee, on credentials, under certain
-restrictions.</p>
-
-<p>The formation of the constitution, and the preparation of a code of
-ethics applicable to the present condition of the profession; sufficiently
-stringent to elevate the members above many things now too prevalent,
-and yet not so binding as to exclude a large number, who, though well
-disposed, are unable to free themselves from participation in acts contrary
-to the highest standard, without a sacrifice greater than could be
-expected of them, should engage the wisest action of the Convention,
-to render them practicable
-in their working. <span class="xxpn" id="p335">{335}</span></p>
-
-<p>2nd, The subject of <i>Phar­ma­ceu­ti­cal Education</i> is, in the opinion of
-this committee, one of great importance, and deserving of the consideration
-of the committee, in several points of view. Indeed, the
-primary object of the Convention being called, was in reference to the
-improvement of the standard practice throughout the country; and this
-cannot be effected without extending the present means of education,
-either by schools, or by an increase of facilities, offered by proprietors
-to their apprentices and assistants. In too many instances the proprietors
-are illy fitted to extend to those whom they have engaged to teach
-the business of a Pharmaceutist the tuition that of right belongs to them.
-As schools of pharmacy are of gradual growth, and cannot be expected
-to exist, except in large cities, the Convention would do well to consider
-what subsidiary means may be enlisted to reach those of our
-brethren who reside in small towns. One of the first of these collateral
-aids will be found in local organizations, embracing the proprietors
-in such towns where, by a union of their exertions and contributions
-they may encourage phar­ma­ceu­ti­cal literature, by forming libraries,
-and uphold among themselves correct practice,—the employment only
-of good drugs, and the receipt of fair prices.</p>
-
-<p>In France, where but three phar­ma­ceu­ti­cal schools exist, there are
-such societies in all large towns, which have halls and libraries,
-where their young men and apprentices have opportunities for gaining
-knowledge; and laboratories wherein they occasionally perform operations
-not easily executed with the instruments and utensils most
-usually found in shop laboratories. If such associations can be formed
-by the proprietors, they will soon influence the apprentices, and thus
-effect the object aimed at, to a great extent.</p>
-
-<p>The superior advantages of tuition in well conducted schools of
-pharmacy will not be doubted, especially, when it is preceded by several
-years shop practice. Access to these, by young men at a distance,
-can always be had, when their circumstances enable them to attend, and
-thus finish their phar­ma­ceu­ti­cal education. The perfection of a
-school of pharmacy is attained by attaching to it a practical laboratory,
-wherein the advanced pupils can have an opportunity to become
-familiar with the more difficult manipulations of phar­ma­ceu­ti­cal chemistry,
-and of extemporaneous pharmacy. As yet, neither of the
-schools in this country have that addition, which arises from the fact,
-that the expense of conducting them, renders their support
-by the fees <span class="xxpn" id="p336">{336}</span>
-of the pupils almost impossible. We think the voice of the Convention
-should be raised to encourage the formation of such schools, and
-also, to advocate the practice of preparing chemicals in the shop
-laboratory.</p>
-
-<p>3rd, The apprenticeship system, which obtains, in many parts of the
-United States, is a subject worthy the consideration of the Convention.
-The conditions, conducing to mutual advantage, between the employer
-and the employed, are not sufficiently attended to in general. Proprietors
-often do not consider the fitness of applicants, both as regards natural
-endowments and preliminary education, with that care and attention
-that a due regard to such applicants demands; and consequently,
-a large number of inefficient apothecaries are entailed upon the country—inefficient
-from lack of talent, or from disgust at a business for
-which they have no inclination. More attention to the claims of apprentices,
-on the <i>teaching</i> of their employers, should be advocated by
-the Convention as due to the former, as advantageous to the latter, and
-eventually to the profession.</p>
-
-<p>4th, The committee believe that the subject of <i>secret medicines</i>, or
-quackery, as applied to Pharmacy, together with the course usually
-followed by quacks, in bringing their nostrums into notice, is becoming
-yearly more fraught with ill consequences, both to the consumers
-and the apothecaries, and merits the consideration of the Convention,
-as to whether the reference of the subject to a committee to investigate,
-would not result in some advantage.</p>
-
-<p>5th, The subject of the <i>inspection of imported drugs</i>, as regards the
-<i>actual</i> working of the law, is of deep interest to all. The possibility
-of bringing the influence of this Convention to bear, in regard to the
-continuance in office of able men, solely on the ground of fitness, is
-worth consideration. The usefulness of this law rests absolutely on
-the ability and cons­cien­tious­ness of the inspector, and if incumbents,
-perfectly satisfactory to those concerned, are removed on political
-grounds, and replaced by inexperienced and unqualified persons, it is
-apparent that the good results of the law will cease.</p>
-
-<p>Whatever may be the efficiency of the law against the importation
-of inferior drugs, it will not reach those <i>at home</i>, who are disposed to
-resort to adulteration as a means of increasing their profits. The power
-of the General Government ceases with the Custom House. It will
-be necessary in order to reach this evil effectually, as far as
-it can be <span class="xxpn" id="p337">{337}</span>
-done by legislation; to induce our State Legislatures and Municipal
-Authorities to authorize some form of inspection by which the delinquents
-can be reached; not the drug adulterator merely, but the medicine
-adulterator—the apothecary who scruples not to reduce the
-strength of standard medicines, that he may reduce his prices. Whatever
-may be the proper course of this Convention, we believe that eventually
-the National Association should urge, with all the force of its influence,
-the enactment of State laws tending to the reformation of
-these evils.</p>
-
-<p>6th, The general adoption of our <i>National Pharmacopœia</i> as a guide
-in the preparation of officinal medicines, is much to be desired. We
-believe that this Convention should encourage its adoption, and should
-request the publishers of that work to issue a small sized cheap edition,
-so that every physician and apothecary shall have a copy. We
-also believe that a fruitful source of variation in the preparations of
-the shops, is the existence of a number of formulæ for the same preparation,
-as found in the British Pharmacopœias parallel with that of
-our own code, in the commentaries in general use.</p>
-
-<p>7th, The <i>indiscriminate sale of poisons</i> by druggists and apothecaries,
-as at present conducted, is a serious evil in the United States.
-Any views which may originate in the Convention, tending to abate
-this evil, would no doubt have some influence, if circulated by its
-authority.</p>
-
-<p>8th, The separation of Pharmacy from the practice of Medicine,
-has long been effected on the continent of Europe, by the direct interference
-of the government, each profession being in the hands of a distinct
-class of men. Inheriting, as we do, our medical institutions
-from Great Britain, the confusion of interests which has long prevailed
-there has in some measure descended to us; and many instances
-of medical practitioners conducting apothecary shops, like the so-called
-<i>apothecaries</i> of England, exist among us. The increase of this class
-in some localities has been marked of late years—a fact attributable
-to the “undue multiplication of graduates in medicine, who, finding the
-ranks of their profession so full as to render prospect of immediate
-success doubtful, turn their attention towards Pharmacy, as a subsidiary
-means of support. As these mongrel apothecaries too frequently
-use their shops merely as stepping-stones to business, they tend directly
-to depreciate the standard of practice on the one
-hand, and tempt <span class="xxpn" id="p338">{338}</span>
-young apothecaries, who are struggling against the difficulties of an
-already excessive competition, to turn their attention to medical practice
-with or without a diploma, as may suit their circumstances or fancy,
-on the other, and thus complicate the confusion. As pharmacy never
-will advance as it should, whilst this amalgamation exists in cities and
-towns to any large extent, we earnestly recommend to this Convention,
-that a voice may go forth at its present session, calling attention
-to this growing evil.</p>
-
-<p>9th, Believing, that if the Phar­ma­ceu­tists of the United States are
-true to themselves, the Meetings of the Association, of which the present
-may be considered the beginning, will annually increase in interest
-and importance, we would suggest—what must have occurred to
-many present—that they should be partially devoted to the advancement
-of Pharmacy, as well as to the sciences on which it is based, by
-inviting contributions of original papers, and by committing subjects
-requiring investigation to suitable committees, who should report the
-results of their researches at the ensuing Annual Meeting, when,
-if they meet the approbation of the Association, it might direct their
-publication. Participation in the proceedings of such a gathering of
-their brethren, would prove a powerful incentive to many phar­ma­ceu­tists,
-whose tastes lead them into scientific paths, to cultivate their talents
-by the pursuit of investigations fraught with usefulness to their
-profession at home, and with honor to it abroad.</p>
-
-<p>And lastly, whatever may be the ultimate action of the Convention,
-in relation to the subjects brought forward in this Report, we would
-respectfully suggest that a full digest of its proceedings be directed to
-be published, and largely circulated among the Phar­ma­ceu­tists of the
-United States, as calculated to do much good.</p>
-
-<div><div class="nowrap">
-<div class="dleft psignature"><span class="smcap">(S<b>IGNED</b>,)</span></div>
-<ul class="ulstnz"><li>
-<span class="smcap">C<b>OMMITTEE</b></span>
-<ul class="ulin1"><li>WILLIAM PROCTER, <span class="smcap">J<b>R.</b>,</span></li>
-  <li>SAMUEL M. COLCORD,</li>
-  <li>GEO. D. COGGESHALL.</li></ul></li></ul></div></div>
-
-<p>The Second Meeting of this Association was mainly occupied
-in reading and discussing a draft of a Constitution and code
-of Ethics.</p>
-
-<p><span class="smcap">T<b>HIRD</b></span>
-<span class="smcap">S<b>ITTING</b>,</span> October 7th, 4 o’clock, P. M.</p>
-
-<p>President in the chair.</p>
-
-<p>On the roll being called, the delegates
-generally were present. <span class="xxpn" id="p339">{339}</span></p>
-
-<p>The minutes of the preceding sitting were read and adopted.</p>
-
-<p>The President informed the Convention, that the Business
-Committee not being ready to report, it was understood that
-Dr. Stewart, Examiner of Drugs, &amp;c., at the port of Baltimore,
-had some statements to offer in regard to the working of
-the Drug Law at that port, and the Convention assenting, requested
-him to proceed.</p>
-
-<p>Dr. Stewart stated, that as there had been some difference
-of opinion among the Drug Examiners, as to the intention of
-the law in certain cases, he desired the opinion of the Convention
-regarding the inferior class of Cinchona Barks that came
-from Maracaibo, Carthagena, &amp;c., and other articles about
-which there is difference of opinion among druggists. In illustration
-of the difficulties of the subject, he remarked that one
-invoice of bark, that in a commercial point of view was not esteemed,
-and which came invoiced at ten cents per pound, had
-yielded, on analysis, two and a half per cent of cinchonine;
-whilst Loxa bark, invoiced at thirty cents per pound, had afforded
-but a fraction of one per cent. He considered the admission
-of the barks in question as quite different from deteriorated
-or adulterated drugs, in as much as they possessed a
-range of power which, though inferior to the best Peruvian
-barks, was yet useful, and capable of application in medicine.</p>
-
-<p>He therefore offered the following resolution:</p>
-
-<p>“Resolved, that it is the opinion of this Convention, that all
-varieties of drugs, that are good of their kind, should be admitted
-by the Special Examiners of drugs and medicines.”</p>
-
-<p>Pending the consideration of this resolution, Mr. Coggeshall
-informed the Convention that Dr. Bailey, the Special Examiner
-of Drugs for the port of New York, had furnished, at his request,
-a report on the character of imported drugs, coming under
-his supervision, and on the general working of the laws,
-which, by request, was read. (Published in our last.)</p>
-
-<p>A similar report from Mr. Edward Hamilton, late Drug Examiner
-at the port of Boston, communicated to Mr. S. M.
-Colcord, at his request, with a view to its
-being presented to <span class="xxpn" id="p340">{340}</span>
-this Convention, was also read. (To be published in our next.)</p>
-
-<p>Dr. Stewart then opened the debate on the subject, arguing
-that drugs, of whatever virtue or variety, so that they are good
-of their kind, should be admitted. In reference to Barks he
-could say, that perhaps a larger amount of the varieties of that
-drug came to the port of Baltimore than any other. That the
-merchants in that trade were so desirous of getting the best
-kinds, that it was quite usual for them to import specimens by
-way of the Isthmus, and have them examined before ordering
-their invoices, to ascertain whether they would pass the Custom-house,
-that he had, (as Examiner at that port,) chemically
-examined a large number of samples of the barks, both Peruvian
-and Carthagena, and that the latter had invariably contained
-more or less of alkaloids, and were generally of good
-quality, of their kind.</p>
-
-<p>He therefore considered the fact that a drug is, or may be
-used as an adulteration for other drugs, should not exclude it
-if it is used to any extent on its own merits. In illustration,
-Dr. Stewart remarked that the Examiner might go on a vessel
-and observe, side by side, two casks of oil, consigned to the
-same individual, one invoiced “cod liver oil,” and the other
-“sperm oil.” On examination he finds that they are what
-they purport to be; the suspicion would arise very naturally,
-that the latter was to be used for adulterating the former, yet,
-should sperm oil be excluded, because certain parties use it for
-an adulteration? He thought not, and on the same grounds
-he considered that the inferior barks and rhubarb should be
-admitted, although some persons may use them for adulteration.</p>
-
-<p>At the request of the President, Professor Carson, of the
-University of Pennsylvania, addressed the Convention on the
-subject before it. He coincided generally with the views of
-Dr. Stewart, as regarded the value of the drugs in question.
-He expressed the opinion that numerous varieties of the so-called
-Carthagena and Maracaibo barks, were possessed of decided
-medicinal virtue; that several kinds
-of European rhubarb <span class="xxpn" id="p341">{341}</span>
-were of much value in medicine, especially in times when the
-officinal varieties are scarce, and that these drugs should all
-be admitted, when not deteriorated or adulterated.</p>
-
-<p>Mr. Haskell, of New York, advocated the same views, more
-especially, as related to English rhubarb, bringing forward the
-testimony of Dr. Pereira, to the effect, that some specimens
-of Banbury rhubarb were almost, if not fully equal to the Chinese
-drug, and they were here even of rather higher price.
-He also stated, that a large demand existed in this country for
-the yellow Carthagena barks, that the House, of which he
-Was a member, sold large quantities in powder, and that the
-parties purchasing it did so, knowing its origin. He was not
-aware of the use to which it was put, but presumed that it was
-employed legitimately.</p>
-
-<p>Mr. Fisk, of Connecticut, stated, that through the part of
-New England that he represented, considerable quantities of
-the barks in question were used legitimately, as tonics; and
-that no instance of their being used as an adulteration of the
-Peruvian barks had come to his knowledge.</p>
-
-<p>Mr. Coggeshall on the other side of the question, called the
-attention of the Convention to the item in Dr. Bailey’s Report,
-showing that three hundred thousand pounds of these barks
-had been rejected at the port of New York, in about two years
-and a half. He argued that this bark was not consumed there;
-that it was not used in the manufacture of the alkaloids; that
-the allegation that it was used for making tooth powders would
-hardly account for the great consumption of it, and the question
-naturally arose for what purpose was it imported? He
-believed that it was used extensively to grind with the
-Peruvian barks, as an adulteration, and to make an inferior
-extract, which could be done cheaply and profitably, and
-it was largely sold as an officinal preparation, that many of
-the persons who came to our cities to buy drugs, were not able
-to judge of their purity, and bought them without asking any
-questions, save, as regarded price,—and so convinced was he
-of the application of these false barks to
-these false purposes, <span class="xxpn" id="p342">{342}</span>
-that as a protective measure, in his opinion, they should be excluded.
-And also, in regard to English and other European
-rhubarb, that the argument of Professor Carson would not hold
-good while the markets were so well supplied with the Russian
-and Chinese varieties, to which the Banbury, regarded as the
-best of the European, was so very inferior. It might be used
-as a dernier resort, but should only be so used. Entirely independent
-of this argument, however, Mr. Coggeshall considered
-that European rhubarb should be excluded, because of its peculiar
-adaptation and general use as an adulteration, owing to its
-fine color, which enables the adulterator to improve the appearance
-of the inferior Chinese variety, to mix it with the Russian
-article in powder, without depreciating its appearance; or, as it
-is notoriously done, to a great extent, substitute it entirely for
-the true article.</p>
-
-<p>Mr. Colcord, of Boston, advocated the latter view, and hoped
-that the Resolution would not pass.</p>
-
-<p>Other members of the Convention joined in the debate, after
-which, the question was taken on the Resolution of Dr. Stewart,
-and it was lost.</p>
-
-<p>As the importance of the subject introduced by Dr. Stewart,
-was fully appreciated by the Convention, at the same time that
-no direct course of action seemed proper for it to pursue,
-the following Resolution was offered by Mr. Smith, of Cincinnati,
-viz.:</p>
-
-<p>“Resolved, that the whole subject of the Inspection of Drugs
-shall be referred to a Committee, who shall be instructed to
-confer with the Examiners, and endeavor to arrive at some
-practicable means of fixing standards for imported drugs.”</p>
-
-<p>The resolution was unanimously adopted, and Mr. Taylor, of
-Philadelphia, Mr. Meakim, of New York, and Mr. Burnett, of
-Boston, were appointed by the President, to carry it into effect.</p>
-
-<p>On motion of Mr. Procter, Dr. Stewart, of Baltimore, was
-added to the Committee.</p>
-
-<div class="dkeeptogether">
-<p class="fsz6">[This
-Report is made up from the Report of the Executive Committee,
-published in Philadelphia. The conclusion of the proceedings will be
-given in our next.]</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div><span class="xxpn" id="p343">{343}</span></div>
-<h3>OBSERVATIONS UPON A GENERAL METHOD
-FOR DETECTING THE ORGANIC ALKALOIDS
-IN CASES OF POISONING.
-<span class="hsmall">
-BY PROFESSOR STAS, OF BRUSSELS.</span></h3>
-</div><!--section-->
-
-<p>Whatever certain authors may have said on the subject, it is
-possible to discover in a suspected liquid all the alkaloids, in
-whatever state they may be. I am quite convinced that every
-Chemist who has kept up his knowledge as to analysis, will not
-only succeed in detecting their presence, but even in determining
-the nature of that which he has discovered, provided that
-the alkaloid in question is one of that class of bodies, the properties
-of which have been suitably studied. Thus he will be
-able to discover conia, nicotine, aniline, picoline, petinine, morphine,
-codeine, narcotine, strychnine, brucine, veratrine, colchicine,
-delphine, emetine, solanine, aconitine, atropine, hyoscyamine.
-I do not pretend to say that the chemical study of all
-these alkaloids has been sufficiently well made to enable the experimenter
-who detects one of them to know it immediately,
-and affirm that it is such an alkaloid, and not such another.
-Nevertheless, in those even which he cannot positively determine
-or specify, he may be able to say that it belongs to such
-a family of vegetables—the Solanaceæ, for example. In a case
-of poisoning by such agents, even this will be of much importance.
-The method which I now propose for detecting the alkaloids
-in suspected matters, is nearly the same as that employed
-for extracting those bodies from the vegetables which contain
-them. The only difference consists in the manner of setting
-them free, and of presenting them to the action of solvents.
-We know that the alkaloids form acid salts, which are equally
-soluble in water and alcohol; we know also that a solution of
-these acid salts can be decomposed so that the base set at liberty
-remains either momentarily or permanently in solution
-in the liquid. <i>I have observed that all the solid and fixed alkaloids
-above enumerated, when maintained in
-a free state</i> <span class="xxpn" id="p344">{344}</span>
-<i>and in solution in a liquid, can be taken up by ether when
-this solvent is in sufficient quantity.</i> Thus, to extract an alkaloid
-from a suspected substance, the only problem to resolve
-consists in separating, by the aid of simple means, the foreign
-matters, and then to find a base which, in rendering the alkaloid
-free, retains it in solution, in order that the ether may extract
-it from the liquid. Successive treatment by water and
-alcohol of different degrees of concentration, suffices for separating
-the foreign matters, and obtaining in a small bulk a solution
-in which the alkaloid can be found. The bicarbonates
-of potash or soda, or these alkalies in a caustic state, are convenient
-bases for setting the alkaloids at liberty, at the same
-time keeping them wholly in solution, especially if the alkaloids
-have been combined with an excess of tartaric or of
-oxalic acid.</p>
-
-<p>To separate foreign substances, animal or otherwise, from the
-suspected matters, recourse is commonly had to the tribasic acetate
-of lead, and precipitating the lead afterwards by a current
-of sulphuretted hydrogen. As I have several times witnessed,
-this procedure has many and very serious inconveniences. In
-the first place, the tribasic acetate of lead, even when used in
-large excess, comes far short of precipitating all the foreign
-matters; secondly, the sulphuretted hydrogen, which is used to
-precipitate the lead, remains in combination with certain organic
-matters which undergo great changes by the action of the
-air and of even a moderate heat; so that animal liquids which
-have been precipitated by the tribasic acetate of lead, and from
-which the lead has been separated afterwards by hydrosulphuric
-acid, color rapidly on exposure to the air, and exhale at the
-same time a putrid odor, which adheres firmly to the matters
-which we extract afterwards from these liquids. The use of a
-salt of lead presents another inconvenience, viz.: the introduction
-of foreign metals into the suspected matters, so that
-that portion of the suspected substance is rendered unfit for
-testing for mineral substances. The successive and combined
-use of water and alcohol at different
-states of concentration, <span class="xxpn" id="p345">{345}</span>
-permits us to search for mineral substances, whatever be their
-nature, so that in this way nothing is compromised, which is of
-immense advantage when the analyst does not know what poison
-he is to look for.</p>
-
-<p>It is hardly necessary to say, that in medico-legal researches
-for the alkaloids, we ought never to use animal charcoal for decolorizing
-the liquids, because we may lose all the alkaloid in
-the suspected matters. It is generally known that animal charcoal
-absorbs these substances at the same time that it fixes the
-coloring and odoriferous matters.</p>
-
-<p>[This is no doubt true; we must not use animal charcoal to
-decolorize, and then look for the alkaloid in the <i>liquid</i>, but we
-may use it, at least in the case of strychnia and some of the
-non-volatile alkaloids, to separate them, and then we look for
-them <i>in the charcoal</i>. See notice of Graham and Hofmann’s
-Process for Detecting Strychnia: <i>Monthly Journal</i>, Aug., 1852,
-p. 140; <i>Phar­ma­ceu­ti­cal Journal</i>, vol. xi., p. 504, May, 1852.]</p>
-
-<p>The above observations do not proceed from speculative ideas
-only, but are the result of a pretty long series of experiments
-which I have several times employed for discovering these organic
-alkaloids. To put in practice the principles which I have
-thus explained, the following is the method in which I propose
-to set about such an analysis:—I suppose that we wish to look
-for an alkaloid in the contents of the stomach or intestines; we
-commence by adding to these matters twice their weight of
-pure and very strong alcohol;<a class="aftntanc" href="#fn26" id="fnanch26">26</a>
-we add afterwards, according
-to the quantity and nature of the suspected matter, from ten to
-thirty grains of tartaric or oxalic acid—in preference tartaric;
-we introduce the mixture into a flask, and heat it to 160° or
-170° Fahrenheit. After it has completely cooled it is to be filtered,
-the insoluble residue washed with strong
-alcohol, and the <span class="xxpn" id="p346">{346}</span>
-filtered liquid evaporated in vacuo. If the operator has not an
-air-pump, the liquid is to be exposed to a strong current of air at a
-temperature of not more than 90° Fahrenheit. If, after the volatilization
-of the alcohol, the residue contains fatty or other
-insoluble matters, the liquid is to be filtered a second time, and
-then the filtrate and washings of the filter evaporated in the
-air-pump till nearly dry. If we have no air pump, it is to be
-placed under a bell-jar over a vessel containing concentrated
-sulphuric acid. We are then to treat the residue with cold
-anhydrous alcohol, taking care to exhaust the substance thoroughly;
-we evaporate the alcohol in the open air at the ordinary
-temperature, or still better, in vacuo; we now dissolve
-the acid residue in the smallest possible quantity of water, and
-introduce the solution into a small test-tube, and add little by
-little pure powdered bicarbonate of soda or potash, till a fresh
-quantity produces no further effervescence of carbonic acid.
-We then agitate the whole with four or five times its bulk of
-pure ether, and leave it to settle. When the ether swimming
-on the top is perfectly clear, then decant some of it into a capsule,
-and leave it in <i>a very dry place</i> to spontaneous evaporation.</p>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch26" id="fn26">26</a>
-When we wish to look for an alkaloid in the tissue of an
-organ, as the liver, heart, or lungs, we must first divide the organ
-into very small fragments, moisten the mass with pure strong alcohol,
-then express strongly, and by further treatment with alcohol exhaust
-the tissue of everything soluble. The liquid so obtained, is to be
-treated in the same way as a mixture of suspected matter and alcohol.</p></div>
-
-<p>Now, two orders of things may present themselves; either
-the alkaloid contained in the suspected matter is liquid and volatile,
-or solid and fixed. I shall now consider these two
-hypotheses.</p>
-
-<h4>EXAMINATION FOR A LIQUID AND VOLATILE ALKALI.</h4>
-
-<p>We suppose there exists a liquid and volatile alkaloid. In
-such a case, by the evaporation of the ether, there remains in
-the inside of the capsule some small liquid striæ which fall to
-the bottom of the vessel. In this case, under the influence of
-the heat of the hand, the contents of the capsule exhale an
-odor more or less disagreeable, which becomes, according to
-the nature of the alkaloid, more or less pungent, suffocating,
-irritant; it presents, in short, a smell like that of a volatile alkali
-masked by an animal odor. If we discover any traces of
-the presence of a volatile alkaloid, we add then
-to the contents <span class="xxpn" id="p347">{347}</span>
-of the vessel, from which we have decanted a small quantity
-of ether, one or two fluid drachms of a strong solution of caustic
-potash or soda, and agitate the mixture. After a sufficient
-time, we draw off the ether into a test-tube; we exhaust the
-mixture by two or three treatments with ether, and unite all
-the ethereal fluids. We pour afterwards into this ether, holding
-the alkaloid in solution, one or two drachms of water, acidulated
-with a fifth part of its weight of pure sulphuric acid,
-agitate it for some time, leave it to settle, pour off the ether
-swimming on the top, and wash the acid liquid at the bottom
-with a new quantity of ether. As the sulphates of ammonia,
-of nicotine, aniline, quinoleine, picoline, and petinine, are entirely
-insoluble in ether, the water acidulated with sulphuric
-acid contains the alkaloid in a small bulk, and in the state of a
-pure sulphate; but as the sulphate of conia is soluble in ether,
-the ether may contain a small quantity of this alkali, but the
-greater part remains in the acidulated watery solution. The
-ether, on the other hand, retains all the animal matters which
-it has taken from the alkaline solutions. If it on spontaneous
-evaporation leaves a small quantity of a feebly-colored yellowish
-residue, of a repulsive animal odor, mixed with a certain
-quantity of sulphate of conine, this alkaloid exists in the suspected
-matter under analysis. To extract the alkaloid from the
-solution of the acid sulphate, we add to the latter an aqueous
-and concentrated solution of potash or caustic soda, we agitate
-and exhaust the mixture with pure ether; the ether dissolves
-ammonia, and the alkaloid is now free. We expose the ethereal
-solution at the lowest possible temperature to spontaneous
-evaporation; almost all the ammonia volatilizes with the ether,
-whilst the alkaloid remains as residue. To eliminate the last
-traces of ammonia, we place for a few minutes the vessel containing
-the alkaloid in a vacuum over sulphuric acid, and obtain
-the organic alkaloid with the chemical and physical characters
-which belong to it, and which it is now the Chemist’s
-duty to determine positively.</p>
-
-<p>I applied, on the 3d March, 1851, the process
-which I have <span class="xxpn" id="p348">{348}</span>
-described, to the detection of nicotine in the blood from the
-heart of a dog poisoned by two cubic centimetres [0.78 C.I.] of
-nicotine introduced into the œsophagus, and I was able in a
-most positive manner to determine the presence of nicotine in
-the blood. I was able to determine its physical characters, its
-odor, taste, and alkalinity. I succeeded in obtaining the chloroplatinate
-of the base perfectly crystallized in quadrilateral rhomboidal
-prisms of a rather dark yellow color, and to ascertain
-their insolubility in alcohol and ether.</p>
-
-<p>I have applied the same process for the detection of conia in
-a very old tincture of hemlock, which my friend and colleague
-M. de Hemptinne was so kind as to put at my disposal; and I
-was equally successful in extracting from the liquid colorless
-conia, presenting all the physical and chemical properties of
-this alkali. I was also able to prove that the ether which holds
-conia in solution, carries off a notable portion of this alkaloid
-when the solvent is exposed to spontaneous evaporation.</p>
-
-<h4>EXAMINATION FOR A SOLID AND FIXED ALKALOID.</h4>
-
-<p>Let us now suppose that the alkali is solid and fixed; in
-that case, according to the nature of the alkali, it may happen
-that the evaporation of the ether resulting from the treatment
-of the acid matter, to which we have added bicarbonate of
-soda, may leave or not a residue, containing an alkaloid. If it
-does, we add a solution of caustic potash or soda to the liquid,
-and agitate it briskly with ether. This dissolves the vegetable
-alkaloid, now free and remaining in the solution of potash or
-soda. In either case, we exhaust the matter with ether. Whatever
-be the agent which has set the alkaloid free, whether it be
-the bicarbonate of soda or potash, or caustic soda or potash, it
-remains, by the evaporation of the ether, on the side of the
-capsule as a solid body, but more commonly a colorless milky
-liquid, holding solid matters in suspension. The odor of the
-substance is animal, disagreeable, but not pungent. It turns
-litmus paper permanently blue.</p>
-
-<p>When we thus discover a solid alkaloid, the first thing to do
-is to try and obtain it in a crystalline state, so as to
-be able to <span class="xxpn" id="p349">{349}</span>
-determine its form. Put some drops of alcohol in the capsule
-which contains the alkaloid, and leave the solution to spontaneous
-evaporation. It is, however, very rare that the alkaloid
-obtained by the above process is pure enough to crystallize.
-Almost always it is soiled by foreign matters. To isolate these
-substances, some drops of water, feebly acidulated with sulphuric
-acid, are poured into the capsule, and then moved over its
-surface, so as to bring it in contact with the matter in the capsule.
-Generally we observe that the acid water does not moisten
-the sides of the vessel. The matter which is contained in it
-separates into two parts, one formed of greasy matter, which
-remains adherent to the sides—the other alkaline, which dissolves
-and forms an acid sulphate. We cautiously decant the
-acid liquid, which ought to be limpid and colorless, if the process
-has been well executed; the capsule is well washed with
-some drops of acidulated water, added to the first liquid, and
-the whole is evaporated to three-fourths in vacuo, or under a
-bell-jar over sulphuric acid. We put into the residue a very
-concentrated solution of pure carbonate of potash, and treat
-the whole liquid with absolute alcohol. This dissolves the alkaloid,
-while it leaves untouched the sulphate of potash and
-excess of carbonate of potash. The evaporation of the alcoholic
-solution gives us the alkaloid in crystals.</p>
-
-<p>It is now the Chemist’s business to determine its properties,
-to be able to prove its individuality. I have applied the principles
-which I have just expounded to the detection of morphine,
-iodine, strychnine, brucine, veratrine, emetine, colchicine, aconitine,
-atropine, hyoscyamine—and I have succeeded in isolating,
-without the least difficulty, these different alkalies, previously
-mixed with foreign matters.</p>
-
-<div class="dkeeptogether">
-<p>I have thus been able to extract, by this process, morphine
-from opium, strychnine and brucine from nux vomica, veratrine
-from extract of veratram, emetine from extract of ipecacuanha,
-colchicine from tincture of colchicum, aconitine from an aqueous
-extract of aconite, hyoscyamine from a very old extract of
-henbane, and atropine from an equally old
-tincture of <span class="xxpn" id="p350">{350}</span>
-belladonna. Thus it is in all confidence that I submit this process
-to the consideration of Chemists who undertake medico-legal
-researches.—<i>Bulletin de l’ Académie Royale de Médecine de
-Belgique</i>, tom. vi., No. 2; <i>and Edinburgh Monthly Journal
-of Medical Science</i>.</p>
-
-<hr class="hr34" /></div>
-
-<div class="chapter dedtrl">
-<h3>VARIA—EDITORIAL.</h3>
-
-<hr class="hr12" />
-
-<div class="divh4ord"><h4 class="h4runin"><span
-class="smcap">O<b>INTMENT</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">S<b>TAVESACRE</b></span> <span
-class="smmaj">IN</span>
-<span class="smcap">I<b>TCH.</b></span></h4>—It
-has long been known that the itch is caused by the attack of a minute
-insect, the acarus scabiei, the male of which has only been lately
-detected, by the microscope. The ordinary sulphur ointment, though
-successful after repeated applications, in destroying the insect, often
-causes a good deal of irritation of the skin, and leaves the patient
-with an eruption as troublesome if not as permanent as the itch itself.
-M. Bourguignon, a French physician, finds that the infusion of the
-seeds of the stavesacre, (Delphinium Staphisagria) or a solution of the
-extract, not only speedily kills the insects and destroys their eggs,
-but that it has no irritating influence whatever upon the skin itself.
-He afterwards adopted an ointment, prepared by digesting over a vapor
-bath, for twenty-four hours, three parts of stavesacre seeds in five
-parts of lard, and straining the product while still liquid. He found
-that friction with this ointment cured the patient in four days, while
-seven days were required when sulphur ointment was used.</div>
-
-<hr class="hr34" />
-
-<div class="divh4ord"><h4 class="h4runin nowrap">
-<span class="smcap">P<b>OISONOUS</b></span> <span
-class="smcap">H<b>ONEY.</b></span></h4>—The family of one of our most
-respectable wholesale druggists has lately suffered severely from
-symptoms of poisoning, caused by some honey which they had eaten.
-The family of one of his neighbors likewise, to whom, induced by its
-particularly fine appearance, he had sent some of the honey, were
-affected in a similar manner. The number of those who partook of the
-suspected article, all of whom were affected, though not to the same
-degree, renders it certain that the symptoms were not caused by any
-idiosyncracy, but were produced by some poisonous principle, probably
-derived from some narcotico-acrid plant on which the bees had
-fed.</div>
-
-<p>On eating it there was an unpleasant sense of pricking and burning
-in the throat, nausea, and a burning sensation throughout the whole
-system, together with an immediate effect upon vision, approaching to
-blindness. Several of those who <span class="xxpn" id="p351">{351}</span>
-ate of the honey vomited violently and were in great distress. One was rendered
-entirely blind and insensible, and it was feared for some time might not recover.
-In the other cases the effect passed off in some ten or twelve hours. In one case
-a single drop of the honey, taken on the end of the finger from the box where it
-had leaked through a crevice, had such an effect on the sight that the person
-could not see to read a newspaper, but it passed off within an hour.</p>
-
-<p>“We are not aware,” continues our informant, “of any poisonous plants in the
-vicinity where the honey was made, except what is called kill-calf, (Andromeda
-Mariana) which is found in abundance on Hempstead Plains, at a distance
-of about a mile.”</p>
-
-<div class="dkeeptogether">
-<p>If, as is supposed, the poison was derived from some plant in which the bees
-had fed, it must have been elaborated or concentrated in the economy of the insect,
-or been the product of some reaction of the honey itself upon the poisonous
-principle, since no poisonous vegetable is known which would produce such effects,
-in such minute quantity.</p>
-
-<hr class="hr34" /></div>
-
-<div class="dkeeptogether">
-<div class="divh4ord"><h4 class="h4runin nowrap">
-<span class="smcap">N<b>EW</b></span> <span
-class="smcap">R<b>EMEDIES.</b></span></h4>—Dr. J. Y. Simpson, of Edinburg,
-the discoverer of the anaesthetic properties of Chloroform, has lately
-been experimenting on the physiological and therapeutical properties
-of a varitey of substances which have not previously been used in
-medicine. He finds that the alkaloid furfurine in poisonous doses,
-produces upon animals many of the symptoms of poisoning by quinine,
-and that in smaller doses on the human subject it acts as a tonic, if
-not an anti-periodic. He has likewise used nickel, generally in the
-form of sulphate, and finds that it is exceedingly analagous in its
-therapeutic effects to the salts of iron. In one instance, however,
-a case of severe periodic headache, it proved completely successful,
-after iron with quinine, and a great many other remedies had been tried
-in vain.</div>
-
-<hr class="hr34" /></div>
-
-<div class="divh4ord"><h4 class="h4runin nowrap">
-<span class="smcap">T<b>HE</b></span> <span
-class="smcap">C<b>ONVENTION.</b></span></h4>—The <i>event</i> for Phar­ma­ceu­tists
-in the past month, was the Meeting of the Convention at Philadelphia.
-The number present was smaller than could have been wished, yet
-great as could reasonably have been anticipated. Eight states were
-represented, including Mr. Bache, of San Francisco, California, and
-there were delegates present from five Colleges. We have devoted,
-perhaps, an undue portion of our space to a partial record of its
-proceedings. Though on particular points there were differences of
-opinion, yet on the whole the meetings were characterized by great
-unanimity of sentiment, as well as cordiality of feeling. Our great
-hope for the Convention is, that it will form a bond of union among
-the scattered and divided members of the profession in the United
-States; that it will tend to bring them into one great body, united
-by common interests and common pursuits, that it will tend to soften
-commercial jealousies between individuals, as well as between states
-and cities; that it will enable the profession when united, to
-exercise its rightful and legitimate influence upon <span class="xxpn"
-id="p352">{352}</span> public opinion; that in the profession itself
-it will promote a more extended course of education, a higher standard
-of attainment and nobler principles of conduct. These are great
-aims and worthy of strenuous efforts, and it is to be hoped that no
-personal or sectional jealousies may be permitted to stand in the way
-of their attainment. The Convention has made a good beginning, “Esto
-perpetua.”</div>
-
-<hr class="hr34" />
-
-<div class="section">
-<h4>COLLEGE OF PHARMACY OF THE CITY OF NEW YORK.</h4>
-</div><!--section-->
-
-<p>The regular Winter Course of Lectures in this Institution, will commence on
-Monday, 1st instant, at 7 o’clock, P. M., and be continued four months, on Monday,
-Wednesday and Friday evenings of each week, at the College Rooms.</p>
-
-<blockquote>
-
-<p class="pleft phanga">On Materia Medica and Pharmacy, from 7 to 8 o’clock, by Prof.
-B.W. <span class="smcap">M<b>C</b>C<b>READY</b>,</span> M.D.</p>
-
-<p class="pleft phanga">On Chemistry, from 8 to 9 o’clock, by Professor R. O.
-<span class="smcap">D<b>OREMUS</b>,</span> M.D.</p>
-
-<p class="pleft phanga">On Botany, by Professor I. F. <span class="smcap">H<b>OLTON</b>,</span> of which further notice
-will be given.</p></blockquote>
-
-<p>The Chemical Lectures will comprise instruction in the Science as extensively
-connected with many of the useful and ornamental arts, rendering them of great
-advantage to the community at large as well as to the Apothecary.</p>
-
-<p>In calling public attention to the present Course, the Trustees would more especially
-call upon the Medical Profession and Druggists and Apothecaries generally,
-to encourage them in carrying out, in the most effectual manner, the important
-design of providing, at a nominal expense, for a knowledge of Chemistry,
-Pharmacy, and the collateral Sciences, to our future Apothecaries, and to all
-others who will avail themselves of the facilities offered.</p>
-
-<p>In urging these, the Trustees have no selfish ends to attain beyond the gratification
-of ministering to the public good in the elevation of their profession;
-they desire to see their efforts appreciated and sustained by full classes, and
-would earnestly ask of their brethren to make sufficient sacrifice of time and
-convenience to enable their Assistants and Pupils to profit by the opportunity
-offered for their instruction. The advantages will recur directly to the employer
-in the improved capacity and usefulness of his Assistants.</p>
-
-<p>The Trustees solicit the influence of the Medical Profession to aid them in cultivating
-a desire to improve this important Auxilliary Department of the Profession,
-as the successful treatment of disease is greatly dependent on the integrity
-and intelligence of the apothecary.</p>
-
-<p>Tickets for the Course on Chemistry, at $7, and on Materia Medica and Pharmacy,
-at $7, may be procured from</p>
-
-<div><ul class="ulstnz">
-  <li><span class="smcap">M<b>R.</b></span> GEORGE D. COGGESHALL, No. 809 <span class="smcap">B<b>ROADWAY</b>.</span></li>
-  <li><span class="smcap">M<b>R.</b></span> J. S. ASPINWALL, No. 86 <span class="smcap">W<b>ILLIAM</b></span>
-<span class="smcap">S<b>TREET</b>.</span></li>
-  <li><span class="smcap">D<b>R.</b></span> W. J. OLLIFFE, No. 6 <span class="smcap">B<b>OWERY</b>.</span></li>
-  <li><span class="smcap">A<b>ND</b></span>
-<span class="smmaj">AT</span>
-<span class="smmaj">THE</span>
-<span class="smcap">C<b>OLLEGE</b></span>
-<span class="smcap">R<b>OOMS,</b></span> No. 511 <span class="smcap">B<b>ROADWAY.</b></span></li>
-</ul>
-
-<p>October, 1852.</p>
-</div>
-
-<div class="divh4ord fsz6"><h4 class="h4runin nowrap">
-<span class="smcap">E<b>RRATUM.</b></span></h4>—In the October No.
-on page <a href="#p294" title="go to p. 294">294,</a>
-twentieth line from
-the top, for <i>manifestations</i>, read <i>modifications</i>.</div>
-
-</div><!--chapter dedtrl-->
-
-<div class="chapter">
-<div><span class="xxpn" id="p353">{353}</span></div>
-<h2 class="h2nobreak"><span class="hsmall">NEW YORK</span>
-JOURNAL OF PHARMACY.
-<span class="hsmall"><span class="hdate">
-DECEMBER, 1852.</span></span></h2>
-</div><!--chapter-->
-
-<h3>ON THE PRESERVATION OF IODIDE OF IRON.
-<span class="hsmall">
-BY HENRY WURTZ.</span></h3>
-
-<p>There can be no doubt that imperfections exist in many of
-the methods at present in use for the preservation of various
-articles of the materia medica. Wherever the fault may be in
-these cases, the evil is generally shared between the physicians
-and the patients, much the larger share of course, falling to the
-latter. The <i>iodide of iron</i> is one of these articles, and it will
-appear probable from the sequel that, in a multitude of cases,
-this remedy is administered to the patient in quantities which
-are inconstant and much too small to produce the effect contemplated
-by the physician in his prescription.</p>
-
-<p>One method, extensively employed, of preserving iodide of
-iron, for use in medicine, is in the form of an aqueous solution
-in which a coil of iron wire is kept immersed. This method is
-given by Pereira,<a class="aftntanc" href="#fn27" id="fnanch27">27</a>
-as proposed by Hemingway. Pereira also
-remarks in another place that “it is important to know, that
-by keeping a coil of iron wire in a solution of the protiodide,
-as suggested by Mr. Squire, no free iodine or sesquiodide of
-iron is formed although the liquid may be fully exposed to air
-and light; sesquioxide of iron is formed, but if the solution be
-filtered it is found to contain protiodide only.”</p>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch27" id="fn27">27</a>
-Materia Medica, 3rd Am. Ed. 1, 745.</p></div>
-
-<p>In a paper previously published in this journal, I have remarked
-with reference to this matter, that
-I should strongly <span class="xxpn" id="p354">{354}</span>
-suspect in this case a formation of a subiodide of iron and consequent
-abstraction of iodine from the solution.<a class="aftntanc" href="#fn28" id="fnanch28">28</a>
-Since that
-time I have been enabled to confirm this supposition by experiment.
-Pieces of iron wire placed in contact with a colorless
-solution of iodide of iron caused, in the course of a few
-hours, the deposition of a precipitate, which had a dark orange
-color quite distinct from the dark brown color of hydrated sesquioxide
-of iron precipitated from a solution of the protochloride
-of iron by metallic iron. This precipitate, being washed
-with distilled water until the washings gave no indication of
-the presence of <i>iron</i>, was still found to contain much iodine.
-No quantitative analysis of the precipitate, however, was attempted,
-for it was found that the washings which no longer
-contained a trace of iron still gave with nitric acid and starch,
-a strong iodine reaction, thus indicating that the subiodide of
-iron upon the filter, whatever its composition, was decomposed
-by the action of water and oxygen as soon as the neutral iodide
-of iron was washed out. This is probably the reason why
-previous observers have mistaken this precipitate for pure sesquioxide
-of iron, having continued washing the precipitate
-until the washing no longer gave an <i>iodine</i> reaction, instead of
-an <i>iron</i> reaction as in the plan adopted by me, and consequently
-until all the subiodide of iron was decomposed and nothing but
-sesquioxide of iron was actually left upon the filter.</p>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch28" id="fn28">28</a>
-New-York Journal of Pharmacy, August, 1852.</p></div>
-
-<p>The washings, however, after the removal of the iodide
-of iron, gave no iodine reaction with starch until after the
-addition of nitric acid; iodine, therefore, could only have
-been present in the form of hydriodic acid and the reaction
-by which the unknown subiodide of iron was decomposed
-may be represented as
-follows:—2&#x202f;Fe&#x202f;I<span class="spfract"><span class="spfup">1</span><span class="spfdn">x</span></span>&#x202f;+
-<span class="spfract"><span class="spfup">1</span><span class="spfdn">x</span></span>H&#x202f;O&#x202f;+
-(3−<span class="spfract"><span
-class="spfup">1</span><span class="spfdn">x</span></span>)O&#x202f;= Fe&#x202f;<sup>2</sup>O<sup>3</sup> +
-<span class="spfract"><span class="spfup">1</span><span
-class="spfdn">x</span></span>HI.</p>
-
-<p>Since the above experiments were made, I have found that
-I have, after all, merely been in a measure confirming an observation
-of the illustrious Ber­zelius. <i>Gmelin’s Handbuch</i>
-under the head of <i>Ein­fach­io­dei­sen</i>, has the following, “Nach
-Ber­zel­ius ist das braune Pulver welches sich
-beim Aussetzen des <span class="xxpn" id="p355">{355}</span>
-wäss­rigen Ein­fach­io­dei­sens an die Luft absetzt, nicht reines
-Eisenoxyd, sondern ein basisches salz.”<a class="aftntanc" href="#fn29" id="fnanch29">29</a></p>
-
-<p>It appears, therefore, that the method of preserving iodide
-of iron in solution, in contact with metallic iron is perfectly
-fallacious. This remedy, if preserved in solution at all, should
-be kept in bottles hermetically closed.</p>
-<div class="dkeeptogether">
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch29" id="fn29">29</a>
-According to Berzelius, the brown powder, which is
-deposited upon exposure of aqueous protiodide of iron to the air, is
-not pure sesquioxide of iron, but a basic salt.</p></div>
-
-<hr class="hr34" /></div>
-
-<div class="section">
- <h3>OBSERVATIONS ON THE VOL­A­TIL­I­TY AND SOL­U­BIL­I­TY
- OF CAN­THAR­DIN IN VIEW OF THE MOST EL­E­GI­BLE
- PHAR­MA­CEU­TI­CAL TREAT­MENT OF SPA­NISH FLIES. <span
- class="hsmall"> BY WILLIAM PROCTER, JR.</span></h3>
- </div><!--section-->
-
-<p>Cantharides have been used in Pharmacy since the days of
-Hippocrates. It was not till 1810, however, that the principle
-giving them activity was isolated by Robiquet (Annal. de
-Chimie lxxvi. 302,) and subsequently named <i>Cantharidin</i> by
-Dr. Thomas Thompson. Since then various experimenters
-have been engaged in the chemical investigation of these flies,
-and in the more recent treatises they are stated to consist of
-<i>cantharidin</i>, <i>yellow fixed oil</i>, <i>green fixed oil</i>, <i>a yellow viscous
-substance</i>, <i>a black matter</i>, <i>ozmazome</i>, <i>uric acid</i>, <i>acetic acid</i>,
-<i>phosphoric acid</i>, and the <i>phosphate of lime and magnesia</i>.
-It is proverbial among apothecaries and physicians, that the
-phar­ma­ceu­ti­cal preparations designed to produce vesication,
-vary very much in their power as prepared by different individuals,
-and from different samples of cantharides by the same
-recipes. Is this variableness of power due to the inequality of
-strength of the commercial drug? or, are we to attribute it to
-the treatment employed by the apothecary? The real importance
-of these queries demands an
-answer. To proceed <span class="xxpn" id="p356">{356}</span>
-properly, the investigator should examine cantharidin in a pure
-state, ascertain how far the statements of writers are correct,
-then by a series of analyses, quantitative as regards that principle,
-determine whether its proportion varies, and to what extent,
-in different specimens of cantharides of fair quality; and
-finally to test the preparations derived from the same samples
-and see how far they correspond with the inferences drawn
-from the ascertained properties and proportion of the active
-principle. I have at present undertaken to resolve but a part
-of these queries—yet by far the most important ones—as will
-be seen.</p>
-
-<div class="dleft dwth08">
-<img src="images/i356.jpg" width="288" height="140"
-alt="Cantharidin crystal forms" /></div>
-
-<p>Cantharidin is a white, neutral substance, of which the formula
-according to Regnault is C<sub>10</sub>&#x202f;H&#x202f;O<sub>4</sub>. Gmelin considers it
-of the nature of a solid volatile oil. As usually seen it has the
-form of minute flatted four-sided prisms (<i>c</i>,) much broken up,
-so as to appear like scales. When deposited from an ethereal
-solution of cantharides by slow evaporation, or from its solution
-in hot acetic acid by cooling, it assumes the form of flattened
-oblique four-sided prisms with dihedral summits, derived from
-the rectangular prism by the bevelment
-of its edges (see fig. <i>a</i> and <i>b</i>
-from <i>c</i>.) The crystals by slow sublimation
-are four-sided rectangular
-prisms of great brilliance and sometimes
-iridescent, <i>c</i> and <i>d</i>.<br class="brclearfix" /></p>
-
-<p><span class="smcap">S<b>OLUBILITY.</b></span>—Pure
-cantharidin is insoluble in water, hot or
-cold. It is slightly soluble in cold alcohol, readily so when
-hot. Ether dissolves it to a greater extent, yet much more
-easily hot than cold. Chloroform is its best solvent, cold or
-hot, as shown in a former essay (Am. Jour. Pharm. vol. xxiii.
-124,) and will remove it from the aqueous infusion of the flies.
-Acetic ether dissolves cantharidin, especially when hot, but
-does not retain much on cooling. When one part of cantharides
-is mixed with 20 parts of olive oil and heated to 250° Fahr.
-it is completely dissolved. As the solution cools, the cantharidin
-rapidly separates in shining needles in
-such quantity as <span class="xxpn" id="p357">{357}</span>
-at first to give the oil a pulpy consistence. The clear cold oil
-retains sufficient to act as an efficient rubefacient but not as an
-epispastic. One part of cantharidin requires 70 parts of oil
-of turpentine to dissolve it at the boiling temperature, the
-greater part separating, as the solution cools, in long asbestos-like
-needles. A piece of paper saturated with the cold solution
-and applied to the skin under adhesive plaster did not
-vesicate. Acetone (from the distillation of acetate of lime) dissolves
-cantharidin with great readiness and ranks next to chloroform
-in this regard. The solution deposits the substance in
-crystals by evaporation. The commercial methylic alcohol or
-wood naphtha also dissolves cantharidin, but to a much less
-extent than acetone. When acetic acid
-<span class="nowrap">sp. gr. 1.41</span>
-<span class="nowrap">(U. S. P.,)</span>
-is added to cantharidin, it but slightly acts on it in the cold;
-heat much increases its solvent power, which is lost on cooling
-and the substance deposited by standing, though not immediately.
-One part of cantharidin was mixed with 40 parts of <i>crystallizable</i>
-acetic acid and agitated together during five hours, but a
-small percentage was dissolved; but on applying heat the
-crystals were dissolved quickly. On standing, nearly all of
-the cantharidin was slowly deposited in regular crystals. To
-ascertain whether, as has been asserted,<a class="aftntanc" href="#fn30" id="fnanch30">30</a>
-a combination was
-effected, and an <i>acetate</i> of cantharidin produced, an acetic solution
-of cantharidin was evaporated to dryness and the crystals
-mixed with strong sulphuric acid and heated till dissolved,
-while the nose was held near, without the slightest evidence of
-acetic odor; one twentieth of a grain of acetate of potassa was
-then added, which instantly evolved the well marked smell of
-acetic acid. Formic acid dissolves but a trace of cantharidin,
-cold or hot; and muriatic acid sp. gr. 1.18 hardly can be said
-to act on it in the cold, but when boiling a minute portion is
-taken up. The same is true of phosphoric acid dissolved in
-five parts water. Sulphuric acid sp. gr. 1.840, when heated
-readily dissolves pure cantharidin
-without being discolored, <span class="xxpn" id="p358">{358}</span>
-and deposits it in crystals unchanged by cooling. Hot nitric
-acid sp. gr. 1.38, dissolves cantharidin readily, and deposits the
-greater part of it on cooling in brilliant crystals, unchanged.
-A concentrated solution of ammonia slowly dissolves cantharidin
-to a small extent, and yields it up on evaporation in
-crystals. Solutions of pottassa and of soda also dissolve this
-principle.</p>
-
-<div class="dftnt">
-
-<p class="pfirst">
-<a class="afnlabel" href="#fnanch30" id="fn30">30</a>
-New York Jour. Pharm. vol. 1. p. 72.</p></div>
-
-<p><span class="smcap">I<b>TS</b></span>
-<span class="smcap">V<b>OLATILITY.</b></span>—About ten grains of pure and perfectly dry
-cantharidin was spread on the pan of an Oertling’s balance,
-(sensitive to 1-150th of a grain,) and the equilibrium carefully
-adjusted with platina weights. After exposure for a week to
-the action of the air, a vessel of lime being present to keep the
-air dry, no change in the adjustment had occurred. To further
-test the volatility of cantharidin, a portion of it was put at
-the bottom of a dry test tube, through a paper funnel so as not
-to soil the sides, which was then fixed so as to dip half an inch
-in a mercurial bath having a thermometer suspended in it.
-It lost nothing appreciable after being kept at 212° F. for half
-an hour, no sublimate being visible with a lens. At 220° F.
-no visible effect was produced. Kept at 250° F. for twenty
-minutes, a very slow sublimation commenced. At 300° F. the
-vaporization was but slightly increased. The heat was then
-raised to 360° F., when the sublimation became more decided,
-yet still slow. Between 402° F. and 410° F. it fused, and
-rapidly sublimed at a few degrees higher. Cantharidin at this
-temperature volatilizes with great ease and condenses in beautiful
-well defined crystals like salicylic acid.</p>
-
-<p>The specific gravity of cantharidin is considerable, as it sinks
-in nitric acid sp. gr. 1.38; it is exceedingly acrid; its powder
-applied to the skin with a little oil, produces speedy vesication,
-and taken internally it is an irritant poison of the most virulent
-kind.</p>
-
-<p>Such are some of the more prominent characters of this remarkable
-substance, which exhibits a permanence and want of
-affinity extraordinary in an animal principle. Let us now see
-how far experiments with cantharidin as it exists in the flies in
-substance, correspond with its behaviour in
-an isolated state. <span class="xxpn" id="p359">{359}</span></p>
-
-<p>1st. Is cantharidin, as it exists in Spanish flies, volatile at
-common temperatures, or at the temperature usually employed
-in making the cerate; and if so to what extent?</p>
-
-<p><i>a.</i> Six hundred grains of powdered cantharides were put into
-a quart flask, a pint of water poured on, and macerated two
-hours. The flask was then adapted to a glass tubulated receiver
-by means of a long glass tube, the joints made tight,
-and the tube refrigerated throughout its length by a current of
-cool water, the receiver itself being surrounded by water. A
-sand-bath heat was then applied and the materials in the flask
-kept boiling during several hours, until half a pint liquid had
-distilled. The product in the receiver was opalescent, with
-white particles floating through it, and had a strong odor of
-spanish flies. It was decanted into a bottle, and agitated repeatedly
-with half an ounce of chloroform, which dissolved the
-particles and removed the opalescence. The chloroform, when
-separated with a funnel, and evaporated spontaneously, yielded
-a colorless semi-crystalline residue, having a waxy consistence
-and a strong odor different from that of the flies. It
-fused at 120° Fahr., was volatile <i>per se</i>, but was partially decomposed
-and condensed in drops which subsequently solidified.
-This substance is soluble in alcohol, ether and chloroform,
-is decomposed and dissolved by sulphuric acid, produces <i>no
-signs of vesication after forty-eight hours’ contact with the
-skin</i> under adhesive plaster, and is most probably the same
-volatile principle that has been noticed by Orfila.</p>
-
-<p>The long glass tube was then examined for a sublimate, by
-rinsing it thoroughly with chloroform, which, on evaporation,
-afforded more of the same substance obtained from the distilled
-water, and like it did not produce vesication.</p>
-
-<p>This experiment shows conclusively that cantharidin <i>does not
-volatilize to an appreciable extent with water evaporating
-from cantharides</i>.</p>
-
-<p><i>b.</i> More water was added to the residue in the flask, again
-boiled for fifteen minutes and thrown on a displacing filter,
-and water added to the solid residue, after
-the decoction had <span class="xxpn" id="p360">{360}</span>
-ceased to pass, until the absorbed liquid was displaced. The
-decoction was much less odorous than the distilled water, and
-had a deep reddish-brown color. Half of this was agitated repeatedly
-with chloroform. The latter decanted and evaporated
-yielded a crop of crystals intermixed with some coloring matter.
-A part of these heated in a tube over a lamp, gave immediately
-the brilliant crystaline sublimate of cantharidin well
-marked; another portion applied to the skin produced vesication
-in a few hours.</p>
-
-<p>The other half of the decoction was evaporated to a soft extract
-by direct heat. This produced speedy and deep vesication,
-more effectual than that of pure cantharidin, as in the extract
-that principle was in a soluble state by virtue of the yellow
-matter of the flies.</p>
-
-<p><i>c.</i> The residual flies were then dried carefully and exhausted
-with ether, which assumed a deep green color. A green semi-fluid
-fatty oil was obtained by evaporation, from which a fluid
-yellow oil separated by standing, which produced a tardy vesication,
-not comparable with the aqueous extract.</p>
-
-<p><i>d.</i> One hundred grains of flies in powder were introduced
-into a test tube so as not to soil the sides. This was then kept
-at the temperature of 212° F. during six hours, by causing
-it to dip into a vessel of boiling water through a tin plate.
-The hygrometric water was removed as it condensed above.
-At the end of the experiment a minute deposit of microscopic
-crystals less than one thirtieth of a grain, was observed above
-the flies on the side of the tube.</p>
-
-<p><i>e.</i> Two hundred grains of flies were introduced into a two
-ounce retort, which they half filled, adapted to a two ounce
-receiver, and this again connected with a third vessel. The
-retort heated by a mercurial bath, was kept at 225° F., for two
-hours, without any product except a little odorous hygrometric
-water. The heat was then raised to 412° F., when a colorless
-oily matter flowed slowly into the receiver, mixed with
-water, whilst a crystalline matter mixed with oil collected in
-the neck. This crystalline matter mixed with
-the oil produced <span class="xxpn" id="p361">{361}</span>
-vesication when applied to the skin. The heat was now rapidly
-increased so as to produce brown vapors, from which was
-condensed a dark colored empyreumatic oil, abundant crystals
-of an ammonical salt collected in the tubes and on the sides of
-the receiver, whilst the aqueous liquor in the receiver was
-strongly ammonical. Neither the dark oil nor the crystals produced
-vesication, the high temperature having probably decomposed
-the cantharidin.</p>
-
-<p>From these experiments it must be admitted that cantharidin
-is less volatile than has been asserted. The effect produced
-on the eye of the pupil of Robiquet who was watching
-the cry­stal­li­za­tion of cantharidin during the evaporation of an
-ethereal solution, may be accounted for by the mechanical action
-of the dense ethereal vapor escaping near his eye, as he
-watched the process with a lens, carrying off some particles of
-cantharidin; and the readiness with which this principle may
-be brought mechanically in contact with the skin of the face,
-during a series of experiments, by want of care, will easily account
-for the occasional testimony of writers in favor of its
-volatility at low temperatures based on that kind of evidence.
-During the whole of the experiments detailed in this paper,
-the author has not experienced any inconvenience to his eyes
-or face except in two instances, once when decomposing cantharides
-by destructive distillation, during which some of the
-vapors escaped near his person, and again where a small capsule
-containing aqueous extract of cantharides was accidentally
-exposed to high temperature over a lamp so as to partially decompose
-it; he suffered slight pain for a few hours in the conjunctiva
-of both eyes.</p>
-
-<p>It must also be admitted that the heat ordinarily employed
-in making the blistering cerate of the United States Pharmacopœia,
-does not injure the preparation by volatilizing the cantharidin,
-and that the recommendation to digest the flies in the
-melted vehicle on a water bath is not only not injurious, but
-decidedly advantageous, as it increases, many fold, the solvent
-power of
-the fatty matter. <span class="xxpn" id="p362">{362}</span></p>
-
-<p>2d. Having ascertained the solvent powers of olive oil, oil
-of turpentine and acetic acid, on pure cantharidin, the following
-experiments were made with those menstrua, and with water,
-on the flies in substance:</p>
-
-<p><i>a.</i> One hundred grains of powdered cantharides were mixed
-with two hundred grains of olive oil in a large test tube,
-which was corked, and the mixture heated in a boiling
-water bath during four hours, with occasional agitation. The
-contents of the tube were then poured into a small glass displacement
-apparatus, surrounded with water kept hot by a
-lamp, and the saturated oil gradually displaced, without cooling,
-by the addition of fresh portions of oil. The oily liquid
-thus obtained had a deep green color, smelled strongly of the
-flies, and when applied to the skin produced full vesication
-in about twelve hours contact. After standing twenty-four
-hours shining needles of cantharidin gradually separated, but
-not in quantity.</p>
-
-<p><i>b.</i> One hundred grains of powdered flies were mixed with
-two hundred grains of pure oil of turpentine in a closed tube,
-heated in a boiling water bath four hours, and displaced while
-hot as in the preceding experiment. The terebinthinate solution
-had a dull yellow color, and was perfectly transparent as
-it passed, but in a short time numerous minute stellated crystals
-commenced forming, which increased in quantity by standing.
-The saturated cold solution, separated from the crystals
-after standing twenty-four hours, did not blister when applied
-to the skin.</p>
-
-<p><i>c.</i> One hundred grains of powdered flies were digested in a
-close vessel, at the temperature of boiling water, in three hundred
-grains of acetic acid sp. gr. 1.041, for six hours, and then
-subjected to displacement in the hot filter above noticed. A
-dark reddish-brown transparent liquid passed, which had very
-little odor of flies, even when a portion was exposed until the
-acetic acid had nearly all evaporated. A portion of this liquid
-applied to the skin produced complete vesication in about ten
-hours. After standing a few hours,
-numerous minute <span class="xxpn" id="p363">{363}</span>
-granular crystals were deposited, which gradually increased in
-amount and size.</p>
-
-<p>These three experiments prove that hot fatty matter is a
-good solvent for cantharidin as it exists in the flies, and that
-it retains more on cooling than either turpentine or acetic
-acid. That hot oil of turpentine is a good solvent for extracting
-cantharidin, although it does not retain much on cooling,
-and that officinal acetic acid at the temperature of 212° F. will
-remove cantharidin readily from Spanish flies, but retains but
-a part on cooling.</p>
-
-<p><i>d.</i> Five hundred grains of recently powdered flies, contained
-in a flask, were boiled in a pint of water, for an hour, and
-the clear decoction decanted, the residue again treated with
-half a pint of water, so as to remove all matter soluble in that
-liquid. The decoctions were mixed, filtered, and evaporated
-carefully to dryness. The extract was exhausted by repeated
-treatment with boiling alcohol, which left a dark colored pulpy
-matter, very soluble in water, from which it is precipitated
-by subacetate of lead. The alcoholic solution was now evaporated
-to a syrup, and on cooling yielded a yellow extract like
-mass, interspersed with numerous minute four-sided prisms.
-By washing a portion with water, the yellow matter was removed,
-leaving the crystals white and pure. The aqueous
-washings yielded by evaporation a residue of crystals, and
-does not vesicate. When the alcoholic extract was treated
-with chloroform the crystals were dissolved, and the yellow
-matter left. On evaporating the chloroform solution the crystals
-were re-obtained with all the characters of cantharidin. The
-matter left by chloroform was now treated with water, in
-which it dissolved, except a trace of dark substance, and was
-again evaporated carefully. It afforded a yellow honey-like
-residue, thickly interspersed with crystals and strongly acid to
-litmus, without vesicating power.</p>
-
-<p>A portion of the yellow matter separated from the alcoholic extract
-by water was boiled with some cantharidin, filtered and
-evaporated. The residue treated with
-chloroform afforded no <span class="xxpn" id="p364">{364}</span>
-cantharidin; hence it would appear that although the yellow
-matter enables the cantharidin to dissolve in water and cold
-alcohol, when once separated its solvent power ceases.</p>
-
-<p>Having now studied the effects of the ordinary solvents on
-cantharidin in a free state, and in the condition in which it
-exists in the insect, we are prepared to consider with some
-clearness, the phar­ma­ceu­ti­cal preparations of the Spanish fly,
-and their action as vesicants.</p>
-
-<p><i>a.</i> If 1-30th of a grain of pure cantharidin, in fine powder,
-be placed on the skin of the arm and covered with a piece of
-warmed adhesive plaster, active vesication occurs in eight hours,
-with pain. If the same quantity of cantharidin be put on the
-other arm, a small piece of paper be laid over it, and then a
-piece of adhesive plaster with a circular hole in it be applied,
-so as to hold on the paper, no vesication occurs in sixteen
-hours, the powder remaining dry. If then a large piece of
-plaster be put over the whole, at the end of eight hours more
-no blistering action will have taken place. If now a trace of
-olive oil be applied to the back of the paper covering the cantharidin,
-and the plaster replaced, speedy vesication will occur.
-These experiments prove that cantharidin must be in solution
-to have its vesicating action, and that oily matter is a proper
-medium.</p>
-
-<p><i>b.</i> When powdered flies are stirred into the ordinary vehicle
-of resin, wax, and lard, so as to chill it almost immediately
-as was formerly directed, but little of the cantharidin is dissolved
-by the fatty matter, and when applied to the skin the
-process of vesication is retarded. If, however, the cerate be
-kept fluid for a length of time, say for half an hour, by a
-water-bath or other regular heat, no loss of cantharidin occurs
-by the heat, the active principle is in a great measure dissolved
-by the fat, and every part is impregnated and active. In the
-foregoing experiments it has been shown that twenty parts of
-olive oil will dissolve one of cantharidin when hot. If we admit
-with Thierry that cantharides contain but four thousandths
-of their weight of cantharidin, the quantity
-contained in a <span class="xxpn" id="p365">{365}</span>
-pound of cerate is about <i>eight</i> grains, whilst the lard in the
-same weight of cerate is 1600 grains, or two hundred times
-the weight of that principle, not to speak of the influence of
-the wax and resin, which, in union, with the melted lard, act
-as solvents. Hence the whole of the cantharidin may be dissolved
-by the vehicle. Another advantage of employing a
-continued heat in digestion is the removal of the hygrometric
-water from the flies, which is the source of the mouldiness to
-which the cerate is prone in certain conditions.</p>
-
-<p>In a former essay (Amer. Journ. Pharm., vol. xiii, p. 302,) I
-have advocated digestion in making this cerate, (a recommendation
-also made by Mr. Donovan, of Dublin, about the same
-time,) and also the use of a portion of the oil of turpentine to
-facilitate the solution of the cantharidin, but the foregoing experiments
-prove that fatty matter is quite as good, if not a better
-solvent alone than with turpentine.</p>
-
-<p><i>c.</i> It has been asserted long ago by Beaupoil, Robiquet and
-others, that water will perfectly extract the active matter from
-Spanish flies, which these experiments corroborate. Hence it
-is easy to understand how the condensed perspiration may facilitate
-the action of a blister, especially when, as was formerly
-much the case, its surface is coated with the dust of the flies,
-and the skin moistened.</p>
-
-<p>It is also clear why the Unguentum Cantharidis of the
-United States Pharmacopœia is active although made with a
-decoction of flies, yet, in this preparation, care should be observed
-not to evaporate all the water, as on the existence of the
-aqueous extract in a soft state depends much of the efficiency of
-the preparation as an irritant dressing.</p>
-
-<p><i>d.</i> In the Linimentum Cantharidis, United States Pharm.,
-in which an ounce of flies is digested in eight fluid ounces of
-oil of turpentine, the cantharidin is to be the menstruum as 1
-to 1500, a proportion probably quite sufficient to retain it in
-solution. The importance of the officinal direction to digest is
-evident. It is quite doubtful whether this liniment, as made
-by the process of Dr. Joseph Hartshorne, one part
-of flies to <span class="xxpn" id="p366">{366}</span>
-three parts of oil, will retain all the cantharidin after standing
-awhile.</p>
-
-<p><i>e.</i> The Acetum Cantharidis, (Lond. Ph.) made by macerating
-an ounce of flies in ten fluid ounces of acetic acid, 1.48, has
-been criticised by Mr. Redwood, (Pharm. Journal, Oct. 1841,)
-who arrived at the conclusion that it owed its vesicating power
-almost solely to the acid, he not being able to discover cantharidin
-in it. The inefficiency of <i>cold</i> acetic acid as a solvent
-for <i>pure</i> cantharidin has been proven by the above experiments,
-and its efficiency when hot equally shown. There can
-be little doubt that the London preparation would be much
-improved by <i>digesting</i> the flies in the acid for an hour in a
-close glass vessel at the temperature of boiling water.</p>
-
-<p><i>f.</i> The <i>cantharidal collodion</i> of M. Ilisch has been considerably
-used as a vesicant in this country. Ether being a good
-solvent for cantharidin readily keeps that principle in solution.
-When applied to the skin, the escape of the ether leaves a
-coating of ethereal extract of cantharides, admixed with collodion.
-This preparation sometimes fails from a deficiency of
-cantharidin, at other times from want of a sufficient body in
-the collodion excipient, and it has been found more advantageous
-to treat the cantharides with ether till exhausted, distill
-off the ether, and add the oily residue to collodion of the proper
-consistence. The addition of a little olive oil, and of Venice
-turpentine, as recommended by Mr. Rand, will give more
-activity to the preparation, especially if a piece of oiled silk or
-adhesive plaster be applied over the part.</p>
-
-<p><i>g.</i> Besides these, many other epispastic preparations are
-made in France and other countries. The acetic alcoholic extract
-of cantharides of Ferrari is made by digesting four parts
-of cantharides in sixteen parts of alcohol 36° B. mixed with
-one part of acetic acid 10° B. In the opinion of the author,
-the acetic acid tends to prevent the cry­stal­li­za­tion of the cantharidin,
-a statement rendered doubtful by the above experiments,
-as that principle separates in crystals from an acetic solution
-of cantharides. The alcohol dissolves
-the green oil <span class="xxpn" id="p367">{367}</span>
-which gives to the extract a butyraceous consistence. This is
-undoubtedly an efficient preparation, and is used by spreading
-it on paper with a brush, and applying to the skin. Nearly
-all the French preparations direct digestion of from 2 to 6
-hours, showing evidently that the experience of phar­ma­ceu­tists
-is opposed to the opinion that cantharides is “a very volatile
-substance, even at common temperatures.”</p>
-
-<p>The vesicating tafeta of the Codex, is that proposed by
-Messrs. Henry &amp; Guibourt, and is made by fusing together
-one part of the ethereal extract of cantharides and two of wax,
-and spreading it on waxed paper or linen in the manner of adhesive
-plaster. This preparation is said to lose its efficiency
-by exposure to the air. How can this occur in view of the results
-which have been detailed above? admitting the fact, it is
-not probable that the change lies in the strong tendency of
-the cantharidin to separate in crystals? a change easily observable
-in the ethereal extract. This is the chief objection to
-some otherwise excellent preparations of cantharides for vesication,
-and it is far more probably the true explanation, than,
-that volatility should be the cause.</p>
-
-<div class="dkeeptogether">
-<p>The recently prepared and soft aqueous extract of cantharides
-has been shown to be a powerful epispastic. Will this
-extract of the consistence of honey, associated with sufficient
-acetic acid, alcohol, or acetone, to preserve it, keep without
-the gradual separation of the cantharidin? If so, it will undoubtedly
-prove one of the very best blistering agents, as by
-simply applying a covering of it over the surface of waxed
-paper, or adhesive plaster, with a camel’s-hair brush, a perfect
-blistering plaster can be made quickly and neatly, and all tendency
-to change of aggregation by the action of the air on the
-menstruum avoided. This is a question now under trial, and
-should it result favorably, a formula will be published. The
-extraordinary tendency of cantharidin to crystallize, even
-under the most adverse circumstances, taken in connection
-with its insolubility, <i>per se</i>, has hardly received sufficient attention
-from phar­ma­ceu­tists as a cause of
-the deterioration of <span class="xxpn" id="p368">{368}</span>
-cantharidal preparations, and the discovery of a menstruum,
-that will retain that principle in solution for an indefinite period,
-is a problem yet to be solved, and worthy the attention of
-phar­ma­ceu­ti­cal investigators.</p>
-
-<p>Philadelphia, September, 1852.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON GELSEMINUM SEMPERVIRENS OR YELLOW
-JASSAMIN.
-<span class="hsmall">
-BY WILLIAM PROCTER, JR.</span></h3>
-</div><!--section-->
-
-<p>Considerable attention has recently been turned to the Yellow
-Jassamin of our Southern States, from the accidental discovery
-of certain remarkable effects produced by it when taken
-internally. A planter of Mississippi having suffered much
-from a tedious attack of bilious fever, which resisted the usual
-medicines employed in such cases, requested one of his servants
-to obtain from the garden a certain root, from which he
-intended to prepare an infusion for drinking. By mistake, the
-person sent collected a different root, and administered the tea to
-his master, who, soon after taking it, was seized with a complete
-loss of muscular power, being, in fact, so completely prostrated
-as to be unable to move a limb or to raise the eyelids, yet he
-could hear, and could appreciate what was occurring around
-him. After some hours, during which his friends were watching
-him with much anxiety and little hope, he gradually recovered
-his muscular control, and was astonished to find that
-the fever had left him. Having ascertained from his servant
-what plant he had collected, he subsequently employed it successfully
-on his own plantation as well as among his neighbors.
-The history becoming known to a quackish physician, he prepared
-from it a nostrum called the
-“Electrical Febrifuge,” in <span class="xxpn" id="p369">{369}</span>
-which, it was disguised by oil of winter-green, (<i>Eclectic</i> Dispensatory,
-page 186.)</p>
-
-<p>The Gelseminum is not noticed by Dr. Griffith in his Medical
-Botany, nor in the recent edition of the United States Dispensatory,
-and so far appears to have been used chiefly by the
-“Eclectic” practitioners of Cincinnati and other parts of the
-Western States. The accompanying description of the plant
-is taken partly from a specimen sent from Memphis, Tennessee,
-where, in common with other parts of the south-western
-States, it is cultivated as an ornamental garden plant.</p>
-
-<p>The Gelseminum belongs to the natural order Apocyneæ, so
-remarkable for the great activity of many of its genera, and
-the name of the genus, given by Jussieu, is one of the ancient
-names of the jessamine, and that of the species arises from its
-evergreen foliage.</p>
-
-<p><span class="smcap">G<b>ELSEMINUM</b></span> belongs to Pentandria Digynia of Linnæus, and
-to the natural order Apocyneæ of Jussieu.</p>
-
-<p><i>Generic characters.</i>—Regular, calyx five parted, (the sepals
-of this species being furnished with bract-like appendages)
-carolla funnel-form, border spreading, five lobed, nearly equal,
-capsule compressed, flat, two partible, two-celled, seeds flat
-and attached to the margins of the valves, (Eaton.)</p>
-
-<p><i>Specific characters.</i>—The G. sempervirens is known at the
-South under the names yellow jasmine, wild jasmine, and
-woodbine. In Florida it flowers in March, and in Mississippi
-and Tennessee in May and June. Its stem is twining, smooth
-and glabrous; its leaves are opposite, perennial, lanceolate,
-entire, dark green above, paler beneath; with short petioles.
-The flowers, which are esteemed poisonous, are yellow, about
-an inch long and half an inch wide at the top, of a fine yellow
-color, and have an agreeable odor, which perfumes the air
-when they bloom. It grows luxuriantly, climbing from tree
-to tree, forming a delightful shade. According to Eaton, from
-whose botany we glean part of the above botanical notice, there
-is a variety called inodorum which has scentless flowers.</p>
-
-<p>The Gelseminum is indigenous to the Southern States, and
-its beauty has caused its introduction
-into the gardens. <span class="xxpn" id="p370">{370}</span></p>
-
-<p><i>Medical properties and uses.</i>—The root is the part used, and
-the tincture is the preparation most usually employed, and, as
-made, must be a saturated tincture. The roots, in a green
-state, well bruised, are introduced into a suitable vessel, and
-covered with whiskey, or diluted alcohol. After standing two
-weeks, the tincture is separated by expression and filtered. It
-has a dark red color, and a pleasant bitter taste. The dose is
-from ten to fifty drops. The following account of its medical
-properties and effects is taken from a paper in the “Eclectic
-Medical Journal,” August, 1852, page 353, by F. D. Hill of
-Cincinnati:</p>
-
-<blockquote>
-
-<p>“Gelseminum is stimulant, tonic, and anti-spasmodic. By its relaxing effect
-it produces gentle diaphoresis, and is said to be <i>narcotic</i>. Its effect in large
-doses, or doses too frequently repeated, is extreme relaxation, and general prostration
-of the whole muscular and nervous system. It will suspend and hold in
-check muscular irritability and nervous excitement with more force and power
-than any known remedy. It is of a pleasant bitter taste, and performs its wonder-working
-cures, in all febrile diseases, without exciting either nausea, vomiting,
-or purging. When enough has been given to produce its specific effect, the
-eye is dimmed, the vision clouded and double, the head light and dizzy. When
-these effects follow the ad­min­i­stra­tion of this remedy, no more should be given
-until the patient has entirely recovered from its influence. ‘It maybe used
-in all species of fevers, nervous and bilious headache, colds, pneumonia, hemorrhages,
-leucorrhea, chorea, ague-cake, asthma, and many other diseases: but its
-efficacy has been most admired in all forms and grades of fevers.’ It should
-always be used with great care and caution. The root is said to possess a resinous
-principle, which, when extracted by pure alcohol, will produce death in very
-small doses. But no such effect need be expected from the proper dose of the
-common tincture. There is danger of carrying it to such an extent as to suspend
-involuntary muscular action, and when this is the case, death must ensue.
-‘It is incompatible with no known substance, and may follow any <i>preceeding
-treatment with perfect safety</i>.’ The dose is forty drops for an adult, and children
-in proportion to age and temperament. It is given either with or without quinine.
-It has been used alone for <i>chronic rheumatism</i>, in doses of forty drops,
-three times a day, with marked effects. Three or four doses, with a mild cathartic,
-will remove the redness and swelling attending inflamed sore eyes. Special
-attention should be directed to the general health and constitution of the
-patient before giving gelseminum. If the bowels be constipated they should be
-moved by a gentle aperient, and kept in a relaxed condition. It requires double
-the quantity to produce the effect on some that it does on others; and should the
-practitioner ever produce too great a degree of relaxation, he should lose no
-time in stimulating and toning
-up his patient.” <span class="xxpn" id="p371">{371}</span></p></blockquote>
-
-<div class="dkeeptogether">
-<p>The alleged effects of this plant on the human system, taken
-in connection with its medico-botanical relations, mark it out
-as being probably one of the most valuable of our indigenous
-remedial agents, and render it well worthy of the investigation
-of regular physicians.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON THE MANUFACTURE OF WRITING INKS.
-<span class="hsmall">
-(<i>Concluded from page <a href="#p316" title="go to p. 316">316.</a></i>)</span></h3>
-</div><!--section-->
-
-<p>Prussian blue, that has not undergone digestion in acid in
-the way above pointed out, will require a much larger proportion
-of oxalic acid, from twice to three times its weight; and
-even then it will be greatly liable to precipitation after standing;
-but when treated in the way described, it is not liable to precipitate,
-but remains a permanent solution.</p>
-
-<p><span class="smcap">S<b>TEPHENS’</b></span>
-<span class="smcap">R<b>ED</b></span>
-<span class="smcap">I<b>NK.</b></span>—Stephens’ red ink is prepared as follows:—Take
-a quantity of common soda, potash or carbonate
-of ammonia, to which is to be added, at intervals, twice its
-weight of crude argol in powder.</p>
-
-<p>When the effervescence, arising from this combination, has
-ceased, pour off the solution, or filter it from the insoluble matter;
-to this, add by measure half the quantity of oxalate of
-alumina, or oxalo-phosphate of alumina, prepared by adding to
-precipitated alumina or phosphate of alumina, in a damp state,
-as much oxalic acid as will dissolve. Into this mixture, put,
-when cold, as much cochineal, first bruised or powdered, as will
-give it a fine red color, varying the quantity according to the
-shade of color required; and after letting it stand for the space
-of forty eight hours, strain it off for use.</p>
-
-<p><span class="smcap">P<b>ROFESSOR</b></span>
- <span class="smcap">R<b>UNGE’S</b></span>
- <span class="smcap">W<b>RITING</b></span>
- <span class="smcap">F<b>LUID.</b></span>—One of the least ex­pen­sive
-for­mu­las for the man­u­fac­ture of a writ­ing ink, is that
-given by Professor Runge, who says: “I have
-for some time <span class="xxpn" id="p372">{372}</span>
-endeavored to find a black fluid possessing the properties of
-forming no deposit, of adhering strongly to the paper, of being
-unaffected by acids, and lastly, what is of great importance, not
-acted upon by steel pens.</p>
-
-<p>“After many experiments, I have succeeded in obtaining a
-composition of the kind required, very simple in its preparation,
-containing nothing but logwood, chromate of potash, and
-water, and free from vinegar, gum, copperas, blue vitriol, and
-even nutgalls. The low price of this writing fluid is also in
-its favor. It is prepared by simply adding one part of chromate
-of potash to 1000 parts of decoction of logwood, made by
-boiling twenty-two pounds of logwood in a sufficient quantity
-of water to give fourteen gallons of decoction; to this decoction,
-when cold, the chromic salt is gradually added, and the mixture
-well stirred. The addition of gum is injurious. In the
-preparation of this ink, it must be remembered that the yellow
-chromate and not the bi-carbonate of potash is employed, and
-great care is required to ensure due adjustment of the relative
-proportions of the ingredients used. The best way is to make
-a decoction of logwood, and <i>gradually</i> add to it, well stirring
-the mixture, as much solution of chromate as will give the
-shade required.</p>
-
-<p>“It appears astonishing what a small quantity of the chrome
-salt is required to convert a large quantity of decoction of logwood
-into a black writing fluid; the fact is however certain,
-and care must be taken not to allow the proportion of chrome
-salt to exceed half a part for each 500 parts of decoction of logwood,
-as a larger quantity exercises a prejudicial effect in destroying
-the coloring matter of the liquid, whilst in the proportion
-above mentioned, a deep blue black writing ink is formed,
-which, unlike the ink made with tannogallate of iron, is
-perfectly fluid, forming no deposit. This writing fluid possesses
-another advantage; the paper which has been written upon
-with it may be washed with a sponge, or be left twenty-four
-hours under water, without the writing being effaced. Weak
-acids do not destroy the writing, nor do they
-even change the <span class="xxpn" id="p373">{373}</span>
-shade, whilst that made with gallnuts is effaced, and the ink
-prepared with logwood and copperas is turned red.</p>
-
-<div class="dkeeptogether">
-<p>“New steel pens are coated with a greasy substance, which
-prevents the ready flow of the ink; this should, therefore, be
-removed previous to use by moistening the pens with saliva,
-and then washing them in water. The application of an alkaline
-solution is still preferable to remove this greasy matter.
-The cleansing of the steel pens is absolutely essential in the
-case of using the ink above mentioned. I have used this ink
-upwards of two years, and my steel pens are not in the least
-degree affected. No rust is formed on the pens, so that after
-years of service the only wear experienced is that from constant
-use on the paper, thus rendering unnecessary the use of
-pens tipped with iridium and other hard substances.”</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<h3>ON THE GROWTH OF VARIOUS KINDS OF MOULD
-IN SYRUP.</h3>
-</div><!--section-->
-
-<p>Professor Balfour, the Professor of Botany in the University
-of Edinburgh, has read a valuable paper on this subject, at the
-Botanical Society in that city, in which he states that mould of
-various kinds, when placed in syrup, has a tendency to spread
-out and form a flat, gelatinous, and leathery expansion. This
-he shows by experiments, as follows:—Mould that had grown
-upon an apple was put into syrup; and in the course of two
-months there was formed upon the syrup a cellular, flat, expanded
-mass, while the syrup was converted into vinegar.</p>
-
-<p>Mould that had grown upon a pear was also put into syrup,
-and the same result was produced. He also experimented in
-the same manner with various moulds that were growing upon
-bread, tea, and some other vegetable
-substances; the effect <span class="xxpn" id="p374">{374}</span>
-produced, in most cases, was to cause a fermentation, resulting
-in the production of vinegar. In another experiment, a quantity
-of raw sugar, treacle, and water, were put into a jar, without
-any mould being introduced. When examined, after a
-lapse of four or five months, a growth like that of the vinegar
-plant was visible, and vinegar was formed. This plant was removed,
-and put into fresh syrup, which was followed again by
-the production of vinegar. It appears that, when purified
-white sugar only is used to make syrup, the plant, when placed
-in it, does not produce vinegar so speedily; the length of time
-required for the changes varying from four to six months.
-Dr. Balfour thinks this may possibly be owing, to the presence
-of some ingredient in the raw sugar and treacle, which may
-tend to promote the production of vinegar.</p>
-
-<div class="dkeeptogether">
-<p>In connection with this subject, I may refer to the <i>Vinegar
-Plant</i>, which is considered by some eminent botanists to be an
-unnatural and peculiar form of some fungus. This plant, which
-has a tough gelatinous consistence, when put into a mixture of
-treacle, sugar and water, gives rise to an acetous fermentation.
-The vinegar, which is the result of this acetous fermentation, is
-of a syrupy nature; and when evaporated to dryness, a large
-quantity of saccharine matter is left. Various conjectures have
-been hazarded as to the origin of this vinegar plant; some
-stating that it came from South America, or other distant regions;
-and others that it is a spontaneous production. Dr.
-Lindley is of opinion that it is a peculiar form of <i>penicillum
-glaucum</i>, or common blue-mould. The general opinion appears
-to be, that it is in an anomalous state of mould, or of some fungus:
-and the peculiar form and consistence it assumes on different
-occasions, seems to depend upon the nature of the material
-in, or upon which, it makes its appearance.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div><span class="xxpn" id="p375">{375}</span></div>
-<h3>CONSTITUTION OF THE AMERICAN PHARMACEUTICAL
-ASSOCIATION.</h3>
-</div><!--section-->
-
-<p><i>Whereas</i>, The advancement of phar­ma­ceu­ti­cal knowledge and the
-elevation of the professional character of apothecaries and druggists
-throughout the United States are objects that are dear to us in
-common with all well disposed phar­ma­ceu­tists; and, <i>whereas</i>, a large
-portion of those in whose hands the practice of pharmacy now exists, are
-not properly qualified for the responsible offices it involves, chiefly by
-reason of the many difficulties that impede the acquirement of a correct
-knowledge of their business;―</p>
-
-<p><i>Therefore</i>, We, the members of a Convention now met at Philadelphia,
-composed of apothecaries and druggists from different sections of
-the Union, and from all the Colleges and Societies therein existing,
-with the object of deliberating on the condition of our profession, <i>do</i>
-hereby resolve and constitute ourselves into a permanent asociation,
-to meet annually at such times and places as may hereafter be determined,
-for more effectually accomplishing the objects for which we
-are now assembled; and do now adopt the following
-<span class="smcap">C<b>ONSTITUTION</b>:</span></p>
-
-<div><span class="smcap">S<b>ECTION</b></span> 1.</div>
-
-<p>This association shall be called “<i>The American Phar­ma­ceu­ti­cal
-Association</i>.”</p>
-
-<div><span class="smcap">S<b>ECTION</b></span> 2. <i>Of the Members.</i></div>
-
-<p><i>Article</i> I. All phar­ma­ceu­tists and druggists who shall have attained
-the age of twenty-one years, whose character, morally and professionally,
-is fair, and who, after duly considering the obligations of the
-Constitution and Code of Ethics of this Association are willing to subscribe
-to them, shall be eligible for membership.</p>
-
-<p><i>Article</i> II. The members shall consist of delegates from regularly
-constituted Colleges of Pharmacy, and Phar­ma­ceu­ti­cal Societies, who
-shall present properly authorized credentials, and of other reputable
-Phar­ma­ceu­tists feeling an interest in the objects of the Association,
-who may not be so delegated, the latter being required to present a
-certificate signed by a majority of the delegates from the places whence
-they come. If no such delegates are present at the Association, they
-may, on obtaining the certificates of any three members
-of the <span class="xxpn" id="p376">{376}</span>
-Association, be admitted, provided they be introduced by the committee on
-credentials.</p>
-
-<p><i>Article</i> III. All persons who become members of this Association
-shall be considered as permanent members, but may be expelled for
-improper conduct by a vote of two thirds of the members present at
-any annual meeting.</p>
-
-<p><i>Article</i> IV. Every member in attendance at the annual meetings
-shall pay into the hands of the Treasurer the sum of two dollars as
-his yearly contribution.</p>
-
-<p><i>Article</i> V. Every local Phar­ma­ceu­ti­cal Association shall be
-entitled to five delegates.</p>
-
-<div><span class="smcap">S<b>ECTION</b></span>
-III. <i>Of the Officers.</i></div>
-
-<p>The officers of this association shall be a President, three Vice
-Presidents, a Recording Secretary, a Corresponding Secretary, a
-Treasurer, and an Executive Committee of three, which may include
-any of the members except the President, all of whom shall be elected
-annually.</p>
-
-<p><i>Article</i> I. The President shall preside at the meetings and preserve
-order. He shall nominate all committees, except a majority of the
-members present direct a resort to balloting or other means. He shall
-sign all certificates of membership, approve of all foreign
-correspondence, and countersign all orders on the Treasurer drawn by the Executive
-Committee. And he shall, at least three months previously to
-the annual meeting publish a call in all the phar­ma­ceu­ti­cal and in
-such medical and other Journals as he may select, stating therein the
-objects of the Association, and the conditions of membership.</p>
-
-<p><i>Article</i> II. In case of the temporary absence, or inability of the
-President, his duties shall devolve on one of the Vice Presidents.</p>
-
-<p><i>Article</i> III. The Recording Secretary shall keep fair and correct
-minutes of the proceedings of the Association. He shall keep a roll
-book of the members, and see that it is corrected annually, and he
-shall furnish to the Executive Committee a correct transcript of the
-minutes of the meeting for publication in the Transactions of the Association.</p>
-
-<p><i>Article</i> IV. The Corresponding Secretary shall attend to the
-official correspondence directed by the association with other bodies, or
-with its members, all of which correspondence shall be approved by
-the President. <span class="xxpn" id="p377">{377}</span></p>
-
-<p><i>Article</i> V. The Treasurer shall receive and take care of the funds
-of the Association; shall pay its money only on the order of the
-Executive Committee, countersigned by the President; and shall present
-a statement of his accounts annually that they may be audited.</p>
-
-<p><i>Article</i> VI. The Executive Committee shall take charge of the
-publication of the proceedings of the Association, including such papers
-on scientific subjects as it may direct to be published; attend to
-their distribution; pay the expenses incurred on behalf of the
-Association at its meetings or in the interim, and report a statement of their
-transactions to the next meeting.</p>
-
-<div><span class="smcap">S<b>ECTION</b></span>
-IV. <i>Of the Meetings.</i></div>
-
-<p><i>Article</i> I. The meetings shall be held annually, at such time and
-place as shall be determined at the adjournment of the previous meeting,
-observing that no two meetings shall be held consecutively at
-the same place.</p>
-
-<p><i>Article</i> II. The meetings shall be organized by the President of
-the previous year, or, in his absence, by either of the Vice Presidents
-in the order of their election, or, in their absence, by the Recording
-Secretary, who shall act <i>pro tempore</i> until the nomination and election
-of officers for the session.</p>
-
-<p><i>Article</i> III. Immediately after the temporary organization of the
-Association the roll shall be called, when a committee on credentials
-shall be appointed from the <i>members</i> present, to whom the certificates
-of delegates shall be submitted, and who shall examine the claims of
-all other applicants for membership before they are submitted to the
-Association.</p>
-
-<div class="dkeeptogether">
-<div><span class="smcap">S<b>ECTION</b></span> V.</div>
-
-<p>This Constitution may be altered or amended by a vote of three-fourths
-of the members present at any regular meeting, and notice to alter or
-amend the same shall be given at least one sitting before
-a vote thereupon.</p>
-
-<hr class="hr34" /></div>
-
-<div class="section">
-<div><span class="xxpn" id="p378">{378}</span></div>
-<h3>CODE OF ETHICS OF THE AMERICAN PHARMACEUTICAL
-ASSOCIATION.</h3>
-</div><!--section-->
-
-<p>The American Phar­ma­ceu­ti­cal As­soc­ia­tion, com­posed
- of Phar­ma­ceu­tists and Drug­gists through­out the Un­it­ed
- States, feeling a strong interest in the success and
- ad­vance­ment of their pro­fes­sion in its practical
- and scien­ti­fic rela­tions, and also impressed with
- the belief that no amount of know­ledge and skill
- will protect themselves and the public from the ill
- effects of an undue com­pe­ti­tion, and the temp­ta­tions
- to gain at the expense of quality, unless they are
- upheld by high moral obligations in the path of duty,
- have sub­scribed to the fol­low­ing <i>Code of Ethics</i> for
- the gov­ern­ment of their pro­fes­sion­al conduct.</p>
-
-<p><span class="smcap">A<b>RT.</b></span> I. As the practice of pharmacy can only become uniform by
-an open and candid intercourse being kept up between apothecaries
-and druggists among themselves and each other, by the adoption of the
-National Pharmacopœia as a guide in the preparation of officinal
-medicines, by the discontinuance of secret formulæ and the practices
-arising from a quackish spirit, and by an encouragement of that <i>esprit
-du corps</i> which will prevent a resort to those disreputable practices
-arising out of an injurious and wicked competition;—<i>Therefore</i>, the
-members of this Association agree to uphold the use of the
-Pharmacopœia in their practice; to cultivate brotherly feeling among the
-members, and to discountenance quackery and dishonorable
-competition in their business.</p>
-
-<p><span class="smcap">A<b>RT.</b></span> II.
-As labor should have its just reward, and as the skill,
-knowledge and responsibility required in the practice of pharmacy
-are great, the remuneration of the pharmaceutist’s services should be
-proportioned to these, rather than to the market value of preparations
-vended. The rate of charges will necessarily vary with geographical
-position, municipal location, and other circumstances of a permanent
-character, but a resort to intentional and unnecessary reduction in the
-rate of charges among apothecaries, with a view to gaining at the
-expense of their brethren, is strongly discountenanced by this
-Association as productive of evil results.</p>
-
-<p><span class="smcap">A<b>RT.</b></span> III.
-The first duty of the apothecary, after duly preparing
-himself for his profession, being to procure good drugs and prepartions,
-(for without these his skill and knowledge are of small avail,) he
-frequently has to rely on the good faith of the druggists
-for their selection. <span class="xxpn" id="p379">{379}</span>
-Those druggists whose knowledge, skill and integrity enable them to
-conduct their business faithfully, should be encouraged, rather than
-those who base their claims to patronage on the cheapness of their
-articles solely. When accidentally or otherwise, a deteriorated, or
-adulterated drug or medicine is sent to the apothecary, he should invariably
-return it to the druggist, with a statement of its defects.
-What is too frequently considered as a mere error of trade on the part
-of the druggist becomes a <i>highly culpable</i> act when countenanced by
-the apothecary; hence, when repetitions of such frauds occur, they
-should be exposed for the benefit of the profession. A careful but
-firm pursuit of this course would render well-disposed druggists more
-careful, and deter the fraudulently inclined from a resort to their disreputable
-practices.</p>
-
-<p><span class="smcap">A<b>RT.</b></span> IV.
-As the practice of pharmacy is quite distinct from the
-practice of medicine, and has been found to flourish in proportion as
-its practitioners have confined their attention to its requirements; and
-as the conducting of the business of both professions by the same individual
-involves pecuniary temptations which are often not compatible
-with a conscientious discharge of duty; we consider that the members
-of this Association should discountenance all such professional
-amalgamation; and in conducting business at the counter, should
-avoid prescribing for diseases when practicable, referring applicants
-for medical advice to the physician. We hold it as unprofessional and
-highly reprehensible for apothecaries to allow any per centage or commission
-to physicians on their prescriptions, as unjust to the public,
-and hurtful to the independence and self-respect of both parties concerned.
-We also consider that the practice of some physicians, (in
-places where good apothecaries are numerous) of obtaining medicines
-at low prices from the latter, and selling them to their patients, is not
-only unjust and unprofessional, but deserving the censure of all high-minded
-medical men.</p>
-
-<p><span class="smcap">A<b>RT.</b></span> V. The important influence exerted on the practice of pharmacy
-by the large proportion of physicians who have resigned its
-duties and emoluments to the apothecary, are reasons why he should
-seek their favorable opinion and cultivate their friendship, by earnest
-endeavors to furnish their patients with pure and well-prepared medicines.
-As physicians are liable to commit errors in writing their prescriptions,
-involving serious consequences to health
-and reputation if <span class="xxpn" id="p380">{380}</span>
-permitted to leave the shop, the apothecary should always, when he
-deems an error has been made, consult the physician before proceeding;
-yet in the delay which must necessarily occur, it is his duty,
-when possible, to accomplish the interview without compromising the
-reputation of the physician. On the other hand, when apothecaries commit
-errors involving ill consequences, the physician, knowing the constant
-liability to error, should feel bound to screen them from undue
-censure, unless the result of a culpable negligence.</p>
-
-<div class="dkeeptogether">
-<p><span class="smcap">A<b>RT.</b></span> VI.
-As we owe a debt of gratitude to our predecessors for
-the researches and observations which have so far advanced our scientific
-art, we hold that every apothecary and druggist is bound to contribute
-his mite towards the same fund, by noting the new ideas and
-phenomena which may occur in the course of his business, and publishing
-them, when of sufficient consequence, for the benefit of the
-profession.</p>
-
-<hr class="hr34" /></div>
-
-<div class="chapter dedtrl">
-<h3>VARIA—EDITORIAL.</h3>
-
-<hr class="hr12" />
-
-<div class="dkeeptogether">
-<div class="divh4ord"><h4 class="h4runin">
-THE JOURNAL.</h4>—With
-the present number, the first volume of the Journal is
-completed. In a pecuniary point of view its success has fully equalled the expectations
-of its originators; it is no longer an experiment, but is established on a
-firm basis, and will be continued with increased energy and a larger experience
-in the art of journalism. We have tried to keep faithfully in view the objects
-with which the Journal was commenced; while we have endeavored to present
-to our readers whatever of general interest or importance has been published
-abroad, we have the gratification to believe that some contributions to the general
-stock have first appeared in our pages which would otherwise never have seen
-the light. But those who confine the benefit of a journal solely to the information
-it imparts have but a limited view of its usefulness; an account of what
-is done abroad excites but little emulation compared with far humbler efforts
-made by our own friends, and in our own neighborhood, and the encouragement
-and promotion of such efforts is a large good, quite independent of the results
-that may be attained. The mere attempt to write on a subject like scientific pharmacy
-leads to a close scanning of the foundation of our opinions, to renewed experiments
-to ascertain their justness, to more enlightened views of the connection and
-bearing of our science. In this way we hope to see the
-good done by the <span class="xxpn" id="p381">{381}</span>
-Journal greatly increased. The contributors to its pages have hitherto been but few
-in number, but its columns are open to all. They are controlled by no clique,
-are subservient to no views of merely personal advancement, and we will gladly,
-welcome communications from all quarters, judging of them only by their merit
-and usefulness.</div>
-
-<hr class="hr34" /></div>
-
-<div class="dkeeptogether">
-<h4>THE DRUG INSPECTION LAW.</h4>
-
-<p>We had intended to have made some remarks on the debate which took place
-in the Convention regarding the admission of certain articles, under the law for
-the inspection of imported drugs, which, though possessing medicinal properties
-are, we believe, merely used for the purpose of adulterating other and better
-articles, but willingly give place to the subjoined communication from Dr.
-Guthrie, which, on the whole, advocates views similar to our own. With regard
-to the Carthagena barks, as they are termed, we confess to a desire for further
-information. Those barks vary very much from each other. Though not rich
-in quinia, some of them contain a large per centage of alkaloids, which are closely
-allied to it. We hope that the committee to whom the subject was referred
-by the Convention will not only cause proper analyses to be made of the
-commercial varieties of these barks, but will have experiments instituted regarding
-their comparative therapeutic value. The Hospitals of our country afford
-abundant cases of malarious disease, and, we have no doubt, the physicians attached
-to them would be ready to institute trials which would afford a satisfactory
-solution to this important question.</p></div>
-
-<blockquote>
-
-<p class="pfirst"><span class="smcap">G<b>EO.</b></span>
-D. <span class="smcap">G<b>OGGESHALL</b>,</span></p>
-
-<p><i>My Dear Sir</i>,—The proceedings of the National Phar­ma­ceu­ti­cal Convention
-have just come to hand, and been perused by me, with no ordinary degree of
-interest.</p>
-
-<p>You have known somewhat of my anxiety concerning these preliminary and
-forming stages of an Association of this character, and will readily believe that
-I have awaited the results of the late Convention, from which, most unfortunately
-for myself, I was compelled to be absent, with great solicitude. That solicitude
-has been relieved, and in its stead I have the assurance that a good foundation
-to a National structure has been laid, towards which hope points and
-expectation looks with joyous anticipations of future good.</p>
-
-<p>I may be permitted to congratulate you upon the successful labors of the convention,
-and more especially upon the fact that you have avoided any untenable
-false ground both in the convention and organization of the Association.</p>
-
-<p>That old stumbling block of “all drugs good of their kind,” in reference to
-our Drug Law, I see made its appearance again, but this time
-from a quarter I <span class="xxpn" id="p382">{382}</span>
-little expected. But it had, not­with­stand­ing its
-new paternity and eminent godfathership,
-only, so far as I can see, the same lame, diffuse and weak conclusions to
-back it.</p>
-
-<p>I was the more surprised at seeing the resolution in the form offered as coming
-from my friend Dr. Stewart, of Baltimore, because I had considered him as one
-who held entirely opposite opinions, and from this fact, that in a communication
-made to me in January last, as special agent of the Treasury Department, charged
-with the examination of the practical workings of the Drug Law, he says, “I
-have inspected several hundred thousand dollars worth of one drug which requires
-some particular notice, as I understand your views and mine correspond
-with regard to it, and you have succeeded in arranging a uniform system of examination
-at the different ports.</p>
-
-<p>The prominent principles upon which its value is based vary from about one to
-four per cent. The commercial article of the best varieties is graduated by the
-quantity of valuable element above referred to, but with regard to the inferior
-kinds this is not the case, as I have found upon repeated analyses that what are
-called bastard varieties (which are not used for extracting the valuable principles
-above referred to) <i>sell at</i> higher prices in proportion to their resemblance to
-the <i>officinal kinds</i>. Even in cases where they contain no valuable medicinal
-constituents they are invoiced at 3 to 4 times the price of the other varieties on
-board the same vessel containing 3 per cent. Now if our object in this law is to
-discourage the introduction of those articles that are used for the purpose of
-adulterating medicines, it is manifest that the true interest of all will be served
-by admitting those only of the bastard varieties that are <i>equal</i> to the inferior
-officinal varieties, particularly as they happen to be at a lower cost and are very
-abundant.” This is Dr. Stewart, Jan. 9, 1852. The whole of his report to me,
-a very interesting and able document, I intend publishing, and have delayed it
-for the purpose of accompanying it with some other matter of the same nature,
-not yet in hand.</p>
-
-<p>If I understand him correctly, he took entirely opposite ground in the Convention,
-and I certainly shall look with no ordinary interest for some explanation of
-a change so entire, in one whose position and well earned reputation give him
-importance and great influence in the final settlement of this matter. What
-new light has shone upon his path? What new facts has he to offer? I say
-<i>final</i> settlement, because I see by the appointment of a committee to whom the
-matter was referred, that the whole subject is but laid over. Although the convention
-negatived the resolution, as it did a <i>similar</i> one a year ago in New York,
-they seem disposed to endow the question with as many lives as are fabled of the
-cat.</p>
-
-<p>Notwithstanding all the reasoning of the author of the resolution, backed by
-the eminent professor, and aided by other reasons, thick no doubt as blackberries,
-you practical men who buy and sell these articles, were not convinced and
-never will be. They may cry out for “tooth powder,” until the demand for
-dentrifice shall quadruple, and tell us of the legitimate use of Carthagena or
-Maracaibo barks; (what is its legitimate use?) all in vain,
-for it is too well <span class="xxpn" id="p383">{383}</span>
-known that the main use of the article is to adulterate the genuine barks. Why
-does the Drug examiner at Baltimore, Dr. Stewart, say that the “bastard varieties
-<i>sell at higher</i> prices in proportion to their
-<i>resemblance to the officinal kinds</i>?”
-Why this demand for such as resemble the genuine, but to supply it to the buyers
-of Peruvian bark for the genuine and officinal. There can be no other conclusion.
-If more proof is wanting I take the remark of the
-gentleman from New-York,
-that the “house he was connected with sold large quantities in powder,
-and the parties purchasing did so knowing its origin.” No one could doubt this
-statement, at least as to the quantity annually purchased, who will go through
-half-a-dozen drug stores in any of the country villages or small towns any where
-in our country from Maine to Louisiana.</p>
-
-<p>He will have offered prime, best quality cinchona bark for 40 to 100 cents
-almost any where, and in one half the cases the venders believe they are selling
-what they offer, for they bought it for that. Is this not so, or is it all bought
-for “tooth powder?” One half the druggists who go to our large cities, buy
-“pale yellow” and red bark, and never think to enquire for the inferior barks,
-and once drive these last from our seaboard cities, and we shall have done with
-them.</p>
-
-<p>You are aware that I have had some opportunity of becoming acquainted with
-the drug trade of our country, and I assure you that throughout its length and
-breadth there is more worthless Peruvian bark sold and consumed by far than
-of the genuine, mostly, I hope through ignorance, but many times knowingly
-on the part of the dealer.</p>
-
-<p>The same that has been said of these false barks, may be said of English rhubarb;
-when it is not sold for and in the place of Turkey, it is used to make powdered
-Turkey out of. But the resolution does not stop short at these two
-articles, as the discussion seemed to. There is “false jalap” undoubtedly good of
-its kind, but unfortunately for the buyer the kind is good for nothing, although
-it makes extract of jalap, that in looks cannot be told from the genuine.</p>
-
-<p>There is also Egyptian opium, and a false Sarsaparilla and many other important
-drugs, that should have received the attention of the friends of this resolution,
-all of which, I beg to assure them, are undoubtedly good of their kind.</p>
-
-<p>But I have written more than I designed by far, as the subject grows upon
-my hands, though I regard it a very important one, and vitally so to the drug
-law which lies at the very foundation of all beneficial results to grow out of this
-association, and the position of the association as to the whole subject is equally
-important, for if we unfortunately commit ourselves to a wrong principle in the
-start, and especially upon this standard of purity as applicable to our Drug examiners,
-which is now regarded as a test question by the community at large, we lose
-all hold upon their confidence, and with it all hope of effecting any good either
-to ourselves as a profession or to the community in general.</p>
-
-<p>My chief object in addressing you this communication (intended for the New
-York Journal of Pharmacy, if you choose so to use it) is to record my experience
-as differing in toto from those of Dr. Stewart and Prof. Carson, and to elicit a
-full discussion of the whole matter. Let us have light!
-light! light enough to <span class="xxpn" id="p384">{384}</span>
-settle this question, especially about the barks, for they are the source of this
-whole contention after all. There must be data enough to be had, upon which
-to form an opinion, and a correct one as to the medicinal virtues of Maracaibo,
-and Carthagena barks, as well as of English rhubarb, false jalap, Egyptian opium
-etc., etc.</p>
-
-<div class="dkeeptogether">
-<p>I shall be perfectly satisfied if the labors of this committee result in fixing a
-definite standard of strength, or amount of alkaloids required to be found in
-barks before consumed for medicine, and therefore admissible under the act, but
-satisfied at nothing short of this, for till that is done there will never be any
-uniformity in the action of the law. I had designed to make some remarks upon
-the requirements of the law and its needed emendation which I must defer to
-more leisure.</p>
-
-<p class="psignature">Yours, <span class="spadr2">etc.,</span> C. B. GUTHRIE.</p>
-
-<p>Memphis, Tenn., November 2, 1852.</p>
-<hr class="hr34" /></div>
-</blockquote>
-
-<div class="dkeeptogether">
-<div class="divhhang2"><h4 class="h4runin">A
-<span class="smmaj">DISCOURSE</span>
-<span class="smmaj">ON</span>
-<span class="smmaj">THE</span>
-<span class="smmaj">TIMES,</span>
-<span class="smmaj">CHARACTER</span>
-<span class="smmaj">AND</span>
-<span class="smmaj">WRITINGS</span>
-<span class="smmaj">OF</span>
-<span class="smcap">H<b>IPPOCRATES,</b></span>
-<span class="smmaj">READ</span>
-<span class="smmaj">BEFORE</span>
-<span class="smmaj">THE</span>
-<span class="smcap">T<b>RUSTEES,</b></span>
-<span class="smcap">F<b>ACULTY</b></span>
-<span class="smmaj">AND</span>
-<span class="smcap">M<b>EDICAL</b></span>
-<span class="smcap">C<b>LASS</b></span>
-<span class="smmaj">OF</span>
-<span class="smmaj">THE</span>
-<span class="smcap">C<b>OLLEGE</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">P<b>HYSICIANS</b></span>
-<span class="smmaj">AND</span>
-<span class="smcap">S<b>URGEONS,</b></span>
-<span class="smmaj">AT</span>
-<span class="smmaj">THE</span>
-<span class="smmaj">OPENING</span>
-<span class="smmaj">OF</span>
-<span class="smmaj">THE</span>
-<span class="smmaj">TERM,</span>
-1852, <span class="smmaj">BY</span>
-<span class="smcap">E<b>LISHA</b></span>
-<span class="smcap">B<b>ARTLETT,</b></span> M. D.,
-<span class="smcap">P<b>ROFESSOR</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">M<b>ATERIA</b></span>
-<span class="smcap">M<b>EDICA,</b></span>
-<span class="smmaj">AND</span>
-<span class="smcap">M<b>EDICAL</b></span>
-<span class="smcap">J<b>URISPRUDENCE.</b></span></h4>
-Published by the Class.</div>
-
-
-<p>Introductory lectures are generally very common-place affairs. Custom has
-prescribed that every year the different medical schools shall be opened with
-them; and custom, too, has prescribed for them a certain limited range of topics.
-Year after year, in a hundred places, the same round is gone over, and the same
-good advice is listened to, and neglected. Dr. Bartlett has broken through all
-this. He has chosen for the subject of his discourse the Character and Writings
-of the Father of Medicine, and he has illustrated them well and thoroughly.
-This is not the place for a detailed notice of the lecture. Yet we cannot but
-call attention to the playful humour, the kindly and genial spirit which set off
-and enliven its details, and which, breathing from the whole air and features of
-the man, render him one of the most agreeable lecturers to whom we have ever
-listened.</p>
-
-<hr class="hr34" /></div>
-
-<div class="dkeeptogether">
-<div class="divh4ord"><h4 class="h4runin">
- <span class="smcap">E<b>XCHANGES.</b></span></h4>—Hitherto
- the exchanges of this journal have not been
- conducted with proper regularity. It has neither
- been transmitted punctually to other journals, nor
- have they been received regularly in return. For the
- future this will be corrected; the journal will be
- forwarded immediately on its publication; and we hope
- our contemporaries will observe a like regularity
- with us.</div>
-</div></div><!--chapter dedtrl-->
-
-<div class="chapter dcnts">
-<div><span class="xxpn" id="p385">{385}</span></div>
-<h2 class="h2nobreak">CONTENTS.</h2>
-
-<p class="pleft phanga"><span class="dright"><a href="#p016" title="go to p. 16">16</a></span>
-Accidents caused by a very small dose of Santonine given to a child,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p062" title="go to p. 62">62</a></span>
-Act relative to the sale of drugs,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p318" title="go to p. 318">318</a></span>
-Action of Sulphuric Acid on the insoluble residue left by opium, exhausted by water. Formation of a new alkaloid,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p073" title="go to p. 73">73</a></span>
-Adulteration of certain drugs, and the methods of detecting said adulteration,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p142" title="go to p. 142">142</a></span>
-Adulteration of sulphate of quinine,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p165" title="go to p. 165">165</a></span>
-Aleppo Scammony, results of the examination of several parcels of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p154" title="go to p. 154">154</a></span>
-Alcohol in essential oils, a test for,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p235" title="go to p. 235">235</a></span>
-Aloe Juice, Socotrine,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p177" title="go to p. 177">177</a></span>
-Aloine, the crystalline cathartic principle of Barbadoes aloes,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p318" title="go to p. 318">318</a></span>
-Aloine,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p252" title="go to p. 252">252</a></span>
-American Journal of Pharmacy,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p225" title="go to p. 225">225</a></span>
-Amount of loss in powdering drugs,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p209" title="go to p. 209">209</a></span>
-Anodyne liquor, Hoffman’s,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p148" title="go to p. 148">148</a></span>
-Application of Organic Chemistry to perfumery,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p177" title="go to p. 177">177</a></span>
-Barbadoes Aloes, Aloine, the cathartic principle of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p161" title="go to p. 161">161</a></span>
-Barium Compounds,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p317" title="go to p. 317">317</a></span>
-Bark, extract of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p321" title="go to p. 321">321</a></span>
-Belladonna, accidental substitution of, for extract of dandelion,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p233" title="go to p. 233">233</a></span>
-Bestucheff’s tincture,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p072" title="go to p. 72">72</a></span>
-Blistering cerate,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p189" title="go to p. 189">189</a></span>
-Broom, Chemical examination of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p224" title="go to p. 224">224</a></span>
-Butter of Cacao,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p063" title="go to p. 63">63</a></span>
-Camphor, as a stimulant,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p033" title="go to p. 33">33</a></span>
-Carbonate of potash, preparation of pure,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p036" title="go to p. 36">36</a></span>
-Carbonate of Soda, preparation of pure,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p064" title="go to p. 64">64</a></span>
-Cavendish Society,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p072" title="go to p. 72">72</a></span>
-Cerate, blistering,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p299" title="go to p. 299">299</a></span>
-Cicuta,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p287" title="go to p. 287">287</a></span>
-Cider, poisoning by adulterated,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p128" title="go to p. 128">128</a></span>
-Chemical technology,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p026" title="go to p. 26">26</a></span>
-Cherry laurel water, strength of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p048" title="go to p. 48">48</a></span>
-Chloric ether,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p197" title="go to p. 197">197</a></span>
-Chloroform, as a solvent,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p116" title="go to p. 116">116</a></span>
-Chloroform, remarkable specimen of decomposed,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p157" title="go to p. 157">157</a></span>
-Chloroform, prepared from essences of lemon, copaiba, peppermint and bergamotte,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p127" title="go to p. 127">127</a></span>
-Chromic acid, an escharotic,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p221" title="go to p. 221">221</a></span>
-Chronic diseases, cure of by movement,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p296" title="go to p. 296">296</a></span>
-Coal gas, used as a source of heat in laboratories,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p240" title="go to p. 240">240</a></span>
-Cod liver oil, chemical composition of,</p>
-
-<p class="pleft phanga" id="p386"><span class="dright"><a href="#p378" title="go to p. 378">378</a></span>
-Code of ethics of the American Phar­ma­ceu­ti­cal Association,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p063" title="go to p. 63">63</a></span>
-Coffinism,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p095" title="go to p. 95">95</a></span>
-Colchicum Autumnale,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p128" title="go to p. 128">128</a>,
-<a href="#p352" title="go to p. 352">352</a></span>
-College of Pharmacy,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p248" title="go to p. 248">248</a></span>
-Colored fires for pyrotechnical purposes,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p003" title="go to p. 3">3</a></span>
-Committee of College of Pharmacy,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p252" title="go to p. 252">252</a></span>
-Comments on comments,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p375" title="go to p. 375">375</a></span>
-Constitution of the American Phar­ma­ceu­ti­cal Association,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p159" title="go to p. 159">159</a>, <a href="#p252" title="go to p. 252">252</a>, <a href="#p285" title="go to p. 285">285</a>, <a href="#p331" title="go to p. 331">331</a>, <a href="#p352" title="go to p. 352">352</a></span>
-Convention of the American Phar­ma­ceu­ti­cal Association,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p224" title="go to p. 224">224</a></span>
-Convention delegates to,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p172" title="go to p. 172">172</a></span>
-Croton oil, Chemical examination of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p015" title="go to p. 15">15</a></span>
-Dandelion, compound fluid extract of Senna and,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p224" title="go to p. 224">224</a></span>
-Delegates to the Convention,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p320" title="go to p. 320">320</a></span>
-Delegates to the National Phar­ma­ceu­ti­cal Convention,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p058" title="go to p. 58">58</a></span>
-Division of gum resins in potions and in diachylon plaster,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p073" title="go to p. 73">73</a></span>
-Drugs, adulteration of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p264" title="go to p. 264">264</a></span>
-Drugs, law, report on,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p225" title="go to p. 225">225</a></span>
-Drugs, amount of loss in powdering,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p158" title="go to p. 158">158</a></span>
-Dry Extracts,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p146" title="go to p. 146">146</a></span>
-Envelopment of pills,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p255" title="go to p. 255">255</a></span>
-Emplastrum epispasticum,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p280" title="go to p. 280">280</a></span>
-Ergotine, preparation of propylamine from,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p127" title="go to p. 127">127</a></span>
-Escharotic, chromic acid as an,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p205" title="go to p. 205">205</a></span>
-Essential oil of bitter almonds,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p154" title="go to p. 154">154</a></span>
-Essential oils, test for alcohol in,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p060" title="go to p. 60">60</a></span>
-Essence of jargonelle pear,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p114" title="go to p. 114">114</a></span>
-Essence of pine apple,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p026" title="go to p. 26">26</a></span>
-Estimation of strength of Medicinal Hydrocianic acid, of bitter almond water, and of cherry laurel water,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p197" title="go to p. 197">197</a></span>
-Ether, chloric,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p317" title="go to p. 317">317</a></span>
-Extract of bark,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p321" title="go to p. 321">321</a></span>
-Extract of belladonna, accidental substitution of, for extract of dandelion,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p015" title="go to p. 15">15</a></span>
-Extract of Senna and dandelion,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p249" title="go to p. 249">249</a></span>
-Extractum lobeliæ fluidum,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p158" title="go to p. 158">158</a></span>
-Extracts, dry,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p373" title="go to p. 373">373</a></span>
-Facts and discoveries in science,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p004" title="go to p. 4">4</a></span>
-False jalap,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p248" title="go to p. 248">248</a></span>
-Fires, colored for pyrotechnical purposes,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p015" title="go to p. 15">15</a></span>
-Fluid extract of senna and dandelion,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p257" title="go to p. 257">257</a></span>
-Fusel oil,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p220" title="go to p. 220">220</a></span>
-Galbanum plant,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p219" title="go to p. 219">219</a></span>
-Gambir,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p296" title="go to p. 296">296</a></span>
-Gas, coal, use of as a means of heat in the laboratory,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p343" title="go to p. 343">343</a></span>
-General method for detecting alkaloids in cases of poisoning,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p264" title="go to p. 264">264</a></span>
-General report on the drug law,</p>
-
-<p class="pleft phanga" id="p387"><span class="dright"><a href="#p319" title="go to p. 319">319</a></span>
-Gelatinization of tincture of rhatany,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p368" title="go to p. 368">368</a></span>
-Gelseminum sempervirens,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p061" title="go to p. 61">61</a></span>
-Growth of plants in various gases,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p243" title="go to p. 243">243</a></span>
-Guarana,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p058" title="go to p. 58">58</a></span>
-Gum resins, division of in potions and in diachylon plaster,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p216" title="go to p. 216">216</a></span>
-Gutta Taban,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p061" title="go to p. 61">61</a></span>
-Heavy oil of wine,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p296" title="go to p. 296">296</a></span>
-Heat, coal gas used as a means of, in the laboratory,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p127" title="go to p. 127">127</a></span>
-Henry’s magnesia,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p069" title="go to p. 69">69</a>, <a href="#p133" title="go to p. 133">133</a></span>
-Hints, practical,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p184" title="go to p. 184">184</a></span>
-Hoffman’s anodyne liquor,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p350" title="go to p. 350">350</a></span>
-Honey, poisonous,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p033" title="go to p. 33">33</a></span>
-Hydrate of potash, preparation of pure,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p036" title="go to p. 36">36</a></span>
-Hydrate of soda,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p026" title="go to p. 26">26</a></span>
-Hydrocyanic acid and bitter almond water, strength of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p127" title="go to p. 127">127</a></span>
-Hygeine, public,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p259" title="go to p. 259">259</a></span>
-Hyposulphite of soda, easy method to make,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p152" title="go to p. 152">152</a></span>
-Impurities, test for, in acetic acid,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p106" title="go to p. 106">106</a></span>
-Indelible ink,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p305" title="go to p. 305">305</a>, <a href="#p371" title="go to p. 371">371</a></span>
-Inks, writing,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p381" title="go to p. 381">381</a></span>
-Inspection of the drug law,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p125" title="go to p. 125">125</a></span>
-Internal use of Atropine,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p121" title="go to p. 121">121</a></span>
-Ioduretted oil, artificial, a substitute for cod liver oil,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p201" title="go to p. 201">201</a></span>
-Ipecacuanha, tincture of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p229" title="go to p. 229">229</a></span>
-Iron, used in Medicine, notes on the preparations of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p250" title="go to p. 250">250</a></span>
-Iron, protiodide of, new method of preparing and exhibiting,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p092" title="go to p. 92">92</a></span>
-Iron, soda, pyrophosphate of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p350" title="go to p. 350">350</a></span>
-Itch, ointment of stavesacre in,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p004" title="go to p. 4">4</a></span>
-Jalap, two varieties of false,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p155" title="go to p. 155">155</a></span>
-Jalap, resin of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p060" title="go to p. 60">60</a></span>
-Jargonelle pear, essence of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p157" title="go to p. 157">157</a></span>
-Lemon, essence of, preparation of chloroform from,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p235" title="go to p. 235">235</a></span>
-Liquid socotrine aloes,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p132" title="go to p. 132">132</a></span>
-Liquor magnesiæ citratis,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p249" title="go to p. 249">249</a></span>
-Lobeliæ extractum fluidum,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p225" title="go to p. 225">225</a></span>
-Loss in powdering drugs,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p132" title="go to p. 132">132</a></span>
-Magnesiæ citratis, liquor,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p199" title="go to p. 199">199</a></span>
-Magnesia, preparation of pure,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p184" title="go to p. 184">184</a></span>
-Magnesia, Henry’s,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p192" title="go to p. 192">192</a></span>
-Manganese,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p273" title="go to p. 273">273</a></span>
-Manufacture of nitrate of potash, (saltpetre),</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p305" title="go to p. 305">305</a>, <a href="#p371" title="go to p. 371">371</a></span>
-Manufacture of writing inks,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p169" title="go to p. 169">169</a></span>
-Matico, pharmacology of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p142" title="go to p. 142">142</a></span>
-Means of detecting adulterations in sulphate of quinine,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p135" title="go to p. 135">135</a></span>
-Measures, weights and,</p>
-
-<p class="pleft phanga" id="p388"><span class="dright"><a href="#p186" title="go to p. 186">186</a></span>
-Medicine and pharmacy in Brazil,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p062" title="go to p. 62">62</a></span>
-Medicines, act relating to,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p229" title="go to p. 229">229</a></span>
-Medicine, preparations of iron used in,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p026" title="go to p. 26">26</a></span>
-Medical hydrocyanic acid, estimation of strength of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p250" title="go to p. 250">250</a></span>
-Method of preparing and exhibiting protiodide of iron,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p343" title="go to p. 343">343</a></span>
-Method of detecting organic alkaloids in cases of poisoning,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p259" title="go to p. 259">259</a></span>
-Method of easy to make hyposulphite of soda,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p205" title="go to p. 205">205</a></span>
-Mode of ascertaining the purity of essential oil of bitter almonds,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p167" title="go to p. 167">167</a></span>
-Monesia, what is,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p221" title="go to p. 221">221</a></span>
-Movements as a cure in chronic diseases,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p285" title="go to p. 285">285</a>, <a href="#p331" title="go to p. 331">331</a></span>
-National Phar­ma­ceu­ti­cal Convention,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p320" title="go to p. 320">320</a></span>
-National Phar­ma­ceu­ti­cal Convention, delegates to,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p318" title="go to p. 318">318</a></span>
-New alkaloid, discovery of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p351" title="go to p. 351">351</a></span>
-New remedies,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p250" title="go to p. 250">250</a></span>
-New method of preparing protiodide of iron,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p017" title="go to p. 17">17</a></span>
-Nicotine, poisoning by,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p061" title="go to p. 61">61</a></span>
-Nitrogen of the air, other gases substituted for,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p273" title="go to p. 273">273</a></span>
-Nitrate of potash, manufacture of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p103" title="go to p. 103">103</a>, <a href="#p129" title="go to p. 129">129</a>, <a href="#p193" title="go to p. 193">193</a>, <a href="#p260" title="go to p. 260">260</a>, <a href="#p328" title="go to p. 328">328</a></span>
-Notes in pharmacy,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p058" title="go to p. 58">58</a></span>
-Notes on the division of gum resins in potions,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p089" title="go to p. 89">89</a></span>
-Notice of some vegetable and animal substances, products of New Granada,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p343" title="go to p. 343">343</a></span>
-Observations on a method of detecting organic alkaloids in cases of poisoning,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p355" title="go to p. 355">355</a></span>
-Observations on the volatility and solubility of cantharidin,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p128" title="go to p. 128">128</a></span>
-Officers of the College of Pharmacy,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p240" title="go to p. 240">240</a></span>
-Oil, cod liver,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p172" title="go to p. 172">172</a></span>
-Oil, Croton,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p257" title="go to p. 257">257</a></span>
-Oil, fusel,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p121" title="go to p. 121">121</a></span>
-Oil, ioduretted,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p205" title="go to p. 205">205</a></span>
-Oil, of bitter almonds,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p065" title="go to p. 65">65</a></span>
-Oil, heavy wine,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p154" title="go to p. 154">154</a></span>
-Oil, test for alcohol in essential,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p350" title="go to p. 350">350</a></span>
-Ointment, stavesacre,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p013" title="go to p. 13">13</a></span>
-Ointment, stramonium,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p127" title="go to p. 127">127</a></span>
-Opium, cultivation of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p318" title="go to p. 318">318</a></span>
-Opium, residue left by,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p045" title="go to p. 45">45</a></span>
-Opium, letter on,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p085" title="go to p. 85">85</a></span>
-Opium, observations on strength of tincture of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p279" title="go to p. 279">279</a></span>
-Opium, tincture of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p060" title="go to p. 60">60</a></span>
-Pear, essence of jargonelle,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p148" title="go to p. 148">148</a></span>
-Perfumery, application of organic chemistry to,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p027" title="go to p. 27">27</a></span>
-Pharmacopœia of the United States,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p030" title="go to p. 30">30</a>, <a href="#p157" title="go to p. 157">157</a>, <a href="#p193" title="go to p. 193">193</a>, <a href="#p331" title="go to p. 331">331</a></span>
-Phar­ma­ceu­ti­cal Convention,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p119" title="go to p. 119">119</a>, <a href="#p328" title="go to p. 328">328</a></span>
-Pharmacy,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p352" title="go to p. 352">352</a></span>
-Pharmacy, College of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p003" title="go to p. 3">3</a>, <a href="#p252" title="go to p. 252">252</a></span>
-Pharmacy, Journal of,</p>
-
-<p class="pleft phanga" id="p389"><span class="dright"><a href="#p169" title="go to p. 169">169</a></span>
-Pharmacology of Matico,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p186" title="go to p. 186">186</a></span>
-Pharmacy in Brazil,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p223" title="go to p. 223">223</a></span>
-Pharmacy in Richmond,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p146" title="go to p. 146">146</a></span>
-Pills, on the envelopment of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p114" title="go to p. 114">114</a></span>
-Pine apple, essence of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p287" title="go to p. 287">287</a></span>
-Poisoning by drinking adulterated cider,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p190" title="go to p. 190">190</a></span>
-Poisoning, by tincture of aconite,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p017" title="go to p. 17">17</a></span>
-Poisoning, Nicotine,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p273" title="go to p. 273">273</a></span>
-Potash, nitrate of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p058" title="go to p. 58">58</a></span>
-Potions, division of gum resins in,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p350" title="go to p. 350">350</a></span>
-Poisonous honey,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p225" title="go to p. 225">225</a></span>
-Powdering drugs, loss in,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p229" title="go to p. 229">229</a></span>
-Preparations of iron used in medicine,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p038" title="go to p. 38">38</a></span>
-Preparations of the pharmacopœia of the United States,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p355" title="go to p. 355">355</a></span>
-Preservation of iodide of iron,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p069" title="go to p. 69">69</a></span>
-Practical hints,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p280" title="go to p. 280">280</a></span>
-Propylamine, prepared from ergotine,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p250" title="go to p. 250">250</a></span>
-Protiodide of iron, new method of preparing,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p321" title="go to p. 321">321</a></span>
-Prosecution of a manufacturer of extract of dandelion,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p199" title="go to p. 199">199</a></span>
-Pure magnesia,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p033" title="go to p. 33">33</a></span>
-Pure Hydrate of potash,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p036" title="go to p. 36">36</a></span>
-Pure Hydrate of Soda,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p192" title="go to p. 192">192</a></span>
-Quinine, spurious sulphate of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p141" title="go to p. 141">141</a>, <a href="#p317" title="go to p. 317">317</a></span>
-Quinidine,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p016" title="go to p. 16">16</a></span>
-Santonine,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p007" title="go to p. 7">7</a></span>
-Scammony resin,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p165" title="go to p. 165">165</a></span>
-Scammony, Aleppo,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p015" title="go to p. 15">15</a></span>
-Senna and dandelion, compound fluid extract of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p093" title="go to p. 93">93</a></span>
-Simaba Cedron,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p235" title="go to p. 235">235</a></span>
-Socotorine aloes juice,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p350" title="go to p. 350">350</a></span>
-Stavesacre ointment,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p013" title="go to p. 13">13</a></span>
-Stramonium ointment,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p192" title="go to p. 192">192</a></span>
-Sulphate of quinine, spurious,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p142" title="go to p. 142">142</a></span>
-Sulphate of quinine, adulteration of,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p318" title="go to p. 318">318</a></span>
-Sulphuric acid, action of on the residue left by opium,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p224" title="go to p. 224">224</a></span>
-Suppositories of butter of cacao,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p251" title="go to p. 251">251</a></span>
-Tannate of zinc,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p317" title="go to p. 317">317</a></span>
-Technology, Chemical,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p154" title="go to p. 154">154</a></span>
-Test for alcohol in essential oils,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p190" title="go to p. 190">190</a></span>
-Tincture of aconite, poisoning by,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p233" title="go to p. 233">233</a></span>
-Tincture, Bestucheff’s,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p201" title="go to p. 201">201</a></span>
-Tincture, Ipecacuanha,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p279" title="go to p. 279">279</a></span>
-Tincture, opium,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p319" title="go to p. 319">319</a></span>
-Tincture of rhatany,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p289" title="go to p. 289">289</a></span>
-United States Customs,</p>
-
-<p class="pleft phanga" id="p390"><span class="dright"><a href="#p296" title="go to p. 296">296</a></span>
-Use of coal gas as a means of heat in laboratories,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p108" title="go to p. 108">108</a></span>
-Valerianic acid,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p007" title="go to p. 7">7</a></span>
-Virgin Scammony,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p135" title="go to p. 135">135</a></span>
-Weights and Measures,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p077" title="go to p. 77">77</a></span>
-Woorara,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p305" title="go to p. 305">305</a>, <a href="#p371" title="go to p. 371">371</a></span>
-Writing inks,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p082" title="go to p. 82">82</a></span>
-Yatamansi,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p368" title="go to p. 368">368</a></span>
-Yellow jessamine,</p>
-
-<p class="pleft phanga"><span class="dright"><a href="#p251" title="go to p. 251">251</a></span>
-Zinc, tannate of,</p>
-
-</div><!--chapter dcnts-->
-
-<div class="chapter dcnts">
-<h2 class="h2nobreak">INDEX OF AUTHORS.</h2>
-
-<p class="pfirst"><span class="smcap">B<b>AILEY,</b></span> <span class="smcap">D<b>R.</b></span> M. J.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p289" title="go to p. 289">289</a></span>
-United States Customs,</p>
-
-<p class="pfirst"><span class="smcap">B<b>ARNES,</b></span> <span class="smcap">M<b>R.</b></span> J. B.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p108" title="go to p. 108">108</a></span>
-Valerianic Acid, and its salts,</p>
-
-<p class="pfirst"><span class="smcap">B<b>ERNARD,</b></span> M. U.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p077" title="go to p. 77">77</a></span>
-On Woorara,</p>
-
-<p class="pfirst"><span class="smcap">B<b>ERNOUILLI,</b></span> J. J.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p154" title="go to p. 154">154</a></span>
-A test for alcohol in essential oils,</p>
-
-<p class="pfirst"><span class="smcap">B<b>OUNWYN,</b></span> M. H.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p250" title="go to p. 250">250</a></span>
-New method of preparing and exhibiting protiodide of iron,</p>
-
-<p class="pfirst"><span class="smcap">B<b>ULL,</b></span> B. W.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p007" title="go to p. 7">7</a></span>
-Virgin scammony, with some remarks upon the char­ac­ter­is­tics of scammony resin,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p165" title="go to p. 165">165</a></span>
-Results of the examination of several parcels of Aleppo scammony,</p>
-
-<p class="pfirst"><span class="smcap">B<b>USHE,</b></span> T. A.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p220" title="go to p. 220">220</a></span>
-On the Galbanum plant,</p>
-
-<p class="pfirst"><span class="smcap">C<b>ANAVAN,</b></span> <span class="smcap">B<b>ENJ.</b></span></p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p103" title="go to p. 103">103</a></span>
-Notes in Pharmacy, No. 1,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p129" title="go to p. 129">129</a></span>
-Notes in Pharmacy, No. 2,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p198" title="go to p. 198">198</a></span>
-Notes in Pharmacy, No. 3,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p260" title="go to p. 260">260</a></span>
-Notes in Pharmacy, No. 4,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p328" title="go to p. 328">328</a></span>
-Notes in Pharmacy, No. 5,</p>
-
-<p class="pfirst"><span class="smcap">C<b>HANTARD,</b></span> M.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p157" title="go to p. 157">157</a></span>
-On the preparation of chloroform from the essences of lemon, copaiba, peppermint, and bergamotte,</p>
-
-<p class="pfirst"><span class="smcap">C<b>OGGESHALL,</b></span> <span class="smcap">G<b>EORGE</b></span> D.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p038" title="go to p. 38">38</a></span>
-Remarks upon some of the preparations of the United States Pharmacopœia, 1851,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p097" title="go to p. 97">97</a></span>
-The same continued,</p>
-
-<p class="pfirst"><span class="smcap">C<b>URRIE,</b></span> <span class="smcap">J<b>OHN</b></span> H.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p004" title="go to p. 4">4</a></span>
-On two varieties of false jalap,</p>
-
-<p class="pfirst"><span class="smcap">D<b>ORVAULT</b>,</span></p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p146" title="go to p. 146">146</a></span>
-Remarks on the envelopment of pills,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p169" title="go to p. 169">169</a></span>
-Pharmacology of Matico, with formulæ for its preparation,</p>
-
-<p class="pfirst"><span class="smcap">D<b>UBLANE,</b></span> M.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p172" title="go to p. 172">172</a></span>
-Chemical research on croton oil,</p>
-
-<p class="pfirst"><span class="smcap">D<b>UPUY,</b></span> <span class="smcap">E<b>UGENE</b></span></p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p013" title="go to p. 13">13</a></span>
-On the preparation of stramonium ointment,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p015" title="go to p. 15">15</a></span>
-Compound fluid extract of senna and dandelion,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p072" title="go to p. 72">72</a></span>
-On blistering cerate,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p167" title="go to p. 167">167</a></span>
-What is Monesia?</p>
-
-<p class="pfirst" id="p391"><span class="smcap">G<b>ARROD,</b></span> <span class="smcap">D<b>R.</b></span> A. B.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p085" title="go to p. 85">85</a></span>
-Observations on the strength of tincture of opium,</p>
-
-<p class="pfirst"><span class="smcap">G<b>IBERT,</b></span> M.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p121" title="go to p. 121">121</a></span>
-Report presented to the Academy of Medicine of Paris, on the substitution of an artificial ioduretted oil for cod liver oil,</p>
-
-<p class="pfirst"><span class="smcap">G<b>LADSTONES,</b></span> <span class="smcap">M<b>ESSRS.</b></span></p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p061" title="go to p. 61">61</a></span>
-On the growth of plants in various gases, especially substituting carbonic oxide, hydrogen and light carburetted hydrogen, for the nitrogen of the air,</p>
-
-<p class="pfirst"><span class="smcap">G<b>UILLER,</b></span> M.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p106" title="go to p. 106">106</a></span>
-Indelible ink,</p>
-
-<p class="pfirst"><span class="smcap">G<b>UTHRIE,</b></span> <span class="smcap">D<b>R.</b></span> C. B.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p264" title="go to p. 264">264</a></span>
-General report upon the results and effects of the drug law,</p>
-
-<p class="pfirst"><span class="smcap">H<b>ARRIS,</b></span> C. T.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p073" title="go to p. 73">73</a></span>
-On the adulteration of certain drugs and the methods of detecting said adulterations,</p>
-
-<p class="pfirst"><span class="smcap">H<b>OFFMAN,</b></span> <span class="smcap">D<b>R.</b></span> A. W.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p148" title="go to p. 148">148</a></span>
-On the application of organic chemistry to perfumery,</p>
-
-<p class="pfirst"><span class="smcap">H<b>OLTON,</b></span> I. F.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p197" title="go to p. 197">197</a></span>
-Chloric ether,</p>
-
-<p class="pfirst"><span class="smcap">H<b>OWARD,</b></span> <span class="smcap">M<b>R.</b></span> <span class="smcap">R<b>OBT.</b></span></p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p141" title="go to p. 141">141</a></span>
-Quinidine,</p>
-
-<p class="pfirst"><span class="smcap">K<b>ENT,</b></span> <span class="smcap">E<b>DWD.</b></span> H.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p065" title="go to p. 65">65</a></span>
-On the heavy oil of wine,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p257" title="go to p. 257">257</a></span>
-On the oil of grain spirit, or fusel oil,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p296" title="go to p. 296">296</a></span>
-On the use of coal gas as a source of heat for the laboratory,</p>
-
-<p class="pfirst"><span class="smcap">L<b>EPAGE,</b></span> M. P. H.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p048" title="go to p. 48">48</a></span>
-On chloroform as a solvent,</p>
-
-<p class="pfirst"><span class="smcap">L<b>EROY,</b></span> G. F.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p201" title="go to p. 201">201</a></span>
-On tincture of Ipecacuanha,</p>
-
-<p class="pfirst"><span class="smcap">L<b>IEBIG,</b></span> J.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p026" title="go to p. 26">26</a></span>
-On the estimation of the strength of medicinal hydrocianic acid of bitter almond water, and of cherry laurel water,</p>
-
-<p class="pfirst"><span class="smcap">M<b>AYER,</b></span> <span class="smcap">F<b>R.</b></span></p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p233" title="go to p. 233">233</a></span>
-Note on the preparation of Bestucheff’s tincture,</p>
-
-<p class="pfirst"><span class="smcap">M<b>OHR,</b></span> <span class="smcap">D<b>R.</b></span></p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p158" title="go to p. 158">158</a></span>
-On dry extracts,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p184" title="go to p. 184">184</a></span>
-On Henry’s Magnesia,</p>
-
-<p class="pfirst"><span class="smcap">M<b>ONZON,</b></span> <span class="smcap">D<b>R.</b></span> M. J. <span class="smcap">R<b>AF.</b></span></p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p089" title="go to p. 89">89</a></span>
-Notice of some vegetable and animal substances natural products of New Granada,</p>
-
-<p class="pfirst"><span class="smcap">O<b>RFILA,</b></span> M.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p017" title="go to p. 17">17</a></span>
-On poisoning by nicotine,</p>
-
-<p class="pfirst"><span class="smcap">P<b>EREIRA,</b></span> <span class="smcap">J<b>ONATHAN</b></span></p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p116" title="go to p. 116">116</a></span>
-On a remarkable specimen of decomposed chloroform,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p235" title="go to p. 235">235</a></span>
-On socotrine aloe juice,</p>
-
-<p class="pfirst"><span class="smcap">P<b>ROCTER,</b></span> W. <span class="smcap">J<b>R.</b></span></p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p209" title="go to p. 209">209</a></span>
-On Hoffman’s anodyne liquor,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p249" title="go to p. 249">249</a></span>
-Extractum Lobeliæ Fluidum,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p355" title="go to p. 355">355</a></span>
-On the volatility and solubility of cantharidin,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p368" title="go to p. 368">368</a></span>
-On Gelseminum Sempervirens,</p>
-
-<p class="pfirst"><span class="smcap">R<b>ITCHIE,</b></span> D.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p243" title="go to p. 243">243</a></span>
-Guarana,</p>
-
-<p class="pfirst"><span class="smcap">S<b>ANDROCK,</b></span> B.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p155" title="go to p. 155">155</a></span>
-Chemical examination of resin of jalap,</p>
-
-<p class="pfirst"><span class="smcap">S<b>EEMAN,</b></span> M. B.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p093" title="go to p. 93">93</a></span>
-On the simaba cedron,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p216" title="go to p. 216">216</a></span>
-On Gutta Taban,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p219" title="go to p. 219">219</a></span>
-On gambir,</p>
-
-<p class="pfirst"><span class="smcap">S<b>TAS</b>,</span> Prof.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p343" title="go to p. 343">343</a></span>
-Observations upon a general method for detecting the organic alkaloids in cases of poisoning,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p177" title="go to p. 177">177</a></span>
-On aloine,</p>
-
-<p class="pfirst"><span class="smcap">S<b>TENHOUBE,</b></span> <span class="smcap">D<b>R.</b></span> J.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p189" title="go to p. 189">189</a></span>
-Chemical examination of Broom,</p>
-
-<p class="pfirst"><span class="smcap">T<b>ALLON,</b></span> <span class="smcap">J<b>OHN</b></span> C.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p259" title="go to p. 259">259</a></span>
-Easy method to make hyposulphite of soda,</p>
-
-<p class="pfirst"><span class="smcap">U<b>RE,</b></span> <span class="smcap">A<b>LEX.</b></span></p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p092" title="go to p. 92">92</a></span>
-On the soda pyrophosphate of iron,</p>
-
-<p class="pfirst"><span class="smcap">W<b>IEGAND,</b></span> <span class="smcap">T<b>HOS.</b></span> S.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p132" title="go to p. 132">132</a></span>
-Liquor Magnesiæ citratis,</p>
-
-<p class="pfirst" id="p392"><span class="smcap">W<b>INCKLER,</b></span> <span class="smcap">D<b>R.</b></span> H. S.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p240" title="go to p. 240">240</a></span>
-Chemical composition of cod liver oil,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p280" title="go to p. 280">280</a></span>
-Preparation of propylamine from ergotine,</p>
-
-<p class="pfirst"><span class="smcap">W<b>URTZ,</b></span> H.</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p033" title="go to p. 33">33</a></span>
-On the preparation of pure hydrate of potash and carbonate of potash,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p036" title="go to p. 36">36</a></span>
-On the preparation of chemically pure hydrate and carbonate of soda,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p161" title="go to p. 161">161</a></span>
-Preparation of barium compounds,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p199" title="go to p. 199">199</a></span>
-Preparation of pure magnesia,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p229" title="go to p. 229">229</a></span>
-On the preparations of iron used in medicine,</p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p353" title="go to p. 353">353</a></span>
-On the preservation of iodide of iron,</p>
-
-<p class="pfirst"><span class="smcap">Z<b>IMMER,</b></span> <span class="smcap">M<b>R.</b></span></p>
-
-<p class="ulin2 pleft phanga"><span class="dright"><a href="#p142" title="go to p. 142">142</a></span>
-On the adulteration of sulphate of quinine,
-and the means of its detection,</p>
-
-</div><!--chapter dcnts-->
-
-<div class="transnote">
-TRANSCRIBER’S NOTE
-
-<p class="pfirst">Original spelling and grammar have been generally retained, with some
-exceptions noted below. Errata mentioned in the endmatter of monthly
-issues have been ignored—left unchanged. Original printed
-page numbers are shown like this: “{52}”.
-Footnotes have been relabeled 1–30.
-The commas used to end several
-paragraphs by mistake, e.g. on page
-<a href="#p176" title="go to p. 176">176,</a> were changed to full stops.
-The transcriber produced the cover image and hereby assigns
-it to the public domain. Original page images are available from
-archive.org—search for “newyorkjournalof11852newy”.</p>
-
-<p class="pcontinue">Images were substituted for a few Unicode character
-glyphs not widely available in reader apps: U261b, ☛; U2114, ℔; U2125,
-℥; U0292, ʒ; U211e, ℞; and U2108, ℈. Ditto marks, including “Do” or
-“do”, have been eliminated, replaced by repeated text. In a table on
-page <a href="#p130" title="go to p. 130">130,</a> white space was
-employed as a ditto mark. In this table, the white space ditto and
-“Nitrici” have been replaced with “Acidi hydro nitrici”.</p>
-
-<ul>
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p036" title="go to p. 36">36.</a></span>
-The formula for ordinary monohydrated bicarbonate of soda is
-retained. The phrase “lost by ignition; O. 845 grn.” was changed to
-“lost by ignition; 0.845 grn.”</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p044" title="go to p. 44">44.</a></span>
-Large curly brackets “}” employed as graphic devices to
-indicate combination of information over two or more lines of text were
-eliminated. There were examples of this on pages 44 and
-<a href="#p058" title="go to p. 58">58.</a> The text
-was restructured as necessary to retain the evident meaning of the
-original brackets.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p063" title="go to p. 63">63;</a></span>
-“sufficient t&#160;&#160;supply” to “sufficient to supply”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p070" title="go to p. 70">70;</a></span>
-added a full stop after “the doctor knows but little more”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p081" title="go to p. 81">81;</a></span>
-“3nd” to “2nd”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p086" title="go to p. 86">86;</a></span>
-“constitutents” to “constituents”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p090" title="go to p. 90">90;</a></span>
-“exeoriating” to “excoriating”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p100" title="go to p. 100">100;</a></span>
-“with fonr ounces” to “with four ounces”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p110" title="go to p. 110">110.</a></span>
-The formula for valerianic acid is retained.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p122" title="go to p. 122">122;</a></span>
-“phrosphorus” to “phosphorus”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p124" title="go to p. 124">124;</a></span>
-“a renecessary” to “are necessary”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p126" title="go to p. 126">126;</a></span>
-“Anaethesia” to “Anaesthesia”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p127" title="go to p. 127">127;</a></span>
-“engagaged” to “engaged”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p142" title="go to p. 142">142;</a></span>
-“800 gains” to “800 grains”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p167" title="go to p. 167">167;</a></span>
-“<i>Chrysophi lum;</i>” to “<i>Chrysophi lum.</i>;”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p169" title="go to p. 169">169;</a></span>
-“fossœ”, retained, possibly should be “fossæ”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p170" title="go to p. 170">170;</a></span>
-“over their property” is retained, but maybe should be
-“owe their property”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p171" title="go to p. 171">171;</a></span>
-“represents 1-10 of its weight of matico” is retained.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p209" title="go to p. 209">209;</a></span>
-“gavity” to “gravity”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p225" title="go to p. 225">225.</a></span>
-In the table row “Potassæ Nitrat.”, “3&#160;98” was
-changed to “3.98”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p228" title="go to p. 228">228.</a></span>
-In table row “——— Bi-tartrat.”, “ 45” was changed to “.45”.
-In row “Buchu”, “ 96” was changed to “.96”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p243" title="go to p. 243">243;</a></span>
-“hyrate” to “hydrate”. The words “guarana” and “guaraná”,
-in various states of capitalization, have been retained as printed
-throughout the book.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p244" title="go to p. 244">244;</a></span>
-“imformation” was changed to “information”, and “knowlege” to
-“knowledge”. The word “angnlato” is retained, but possibly should
-be “angulato”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p249" title="go to p. 249">249;</a></span>
-“Salpetre” to “Saltpetre”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p250" title="go to p. 250">250;</a></span>
-“incoveniences” to “inconveniences”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p254" title="go to p. 254">254;</a></span>
-“evarated” to “evaporated”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p259" title="go to p. 259">259;</a></span>
-“preciptate” to “precipitate”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p261" title="go to p. 261">261;</a></span>
-“qnantity” to “quantity”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p278" title="go to p. 278">278;</a></span>
-“mannfacture” to “manufacture”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p280" title="go to p. 280">280;</a></span>
-unmatched right parenthesis was removed from “part i., p. 22)”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p287" title="go to p. 287">287;</a></span>
-“rceive” to “receive”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p297" title="go to p. 297">297;</a></span>
-“atttched” to “attached”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p302" title="go to p. 302">302.</a></span>
-The original quotation punctuation is retained, although it appears
-wrong. The first paragraph has no left quotation mark, and the fourth
-paragraph has no end quotation mark. Similarly, the original quotation
-marks are retained on page
-<a href="#p303" title="go to p. 303">303.</a></li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p326" title="go to p. 326">326,</a> 327;</span>
-“propable” and “propably” retained.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p330" title="go to p. 330">330.</a></span>
-A right parenthesis is added after “(perhaps it might be deemed worthy of the action
-of the convention” to close the left parenthesis.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p357" title="go to p. 357">357;</a></span>
-“catharidin” to “cantharidin”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p369" title="go to p. 369">369;</a></span>
-“commom” to “common”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p381" title="go to p. 381">381;</a></span>
-“satisfacfactory” to “satisfactory”. Also, there is a letter
-to “Geo. D. Goggeshall”. The name has been retained on page 381,
-although the only other reference to “Goggeshall” was on
-page <a href="#p390" title="go to p. 390">390</a>—see
-below—where it was evidently wrong, and refers to “Coggeshall”.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p383" title="go to p. 383">383.</a></span>
-A matching right quotation mark was added to ‘say that the
-“bastard varieties <i>sell at higher</i> prices in proportion to their
-<i>resemblance to the officinal kinds</i>?’.</li>
-
-<li class="lihanga"><span class="nowrap">Page
-<a href="#p390" title="go to p. 390">390.</a></span>
-The name “Goggeshall” has been changed to “Coggeshall”
-on page 390 (Index of Authors) to conform with its position in the
-alphabetical list, and to agree with the names found on the referenced
-pages <a href="#p038" title="go to p. 38">38</a> and
-<a href="#p097" title="go to p. 97">97.</a></li></ul>
-
-</div>
-
-
-
-
-
-
-
-<pre>
-
-
-
-
-
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-</pre>
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