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diff --git a/24440-h/24440-h.htm b/24440-h/24440-h.htm new file mode 100644 index 0000000..86cba7b --- /dev/null +++ b/24440-h/24440-h.htm @@ -0,0 +1,16591 @@ +<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Strict//EN" +"http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd"> +<html xmlns="http://www.w3.org/1999/xhtml" xml:lang="en" lang="en"> +<head> +<meta http-equiv="Content-Type" content="text/html;charset=utf-8" /> +<meta http-equiv="Content-Style-Type" content="text/css" /> +<title>The Project Gutenberg eBook of Surgical Anatomy, by Joseph Maclise</title> +<link rel="coverpage" href="images/cover.jpg" /> +<style type="text/css"> + +body { margin-left: 20%; + margin-right: 20%; + text-align: justify; } + +h1, h2, h3, h4, h5 {text-align: center; font-style: normal; font-weight: +normal; line-height: 1.5; margin-top: .5em; margin-bottom: .5em;} + +h1 {font-size: 300%; + margin-top: 0.6em; + margin-bottom: 0.6em; + letter-spacing: 0.12em; + word-spacing: 0.2em; + text-indent: 0em;} +h2 {font-size: 150%; margin-top: 2em; margin-bottom: 1em;} +h3 {font-size: 130%; margin-top: 1em;} +h4 {font-size: 120%;} +h5 {font-size: 110%;} + +.no-break {page-break-before: avoid;} /* for epubs */ + +div.chapter {page-break-before: always; margin-top: 4em;} + +hr {width: 80%; margin-top: 2em; margin-bottom: 2em;} + +p {text-indent: 1em; + margin-top: 0.25em; + margin-bottom: 0.25em; } + +p.poem {text-indent: 0%; + margin-left: 10%; + font-size: 90%; + margin-top: 1em; + margin-bottom: 1em; } + +p.noindent {text-indent: 0% } + +p.center {text-align: center; + text-indent: 0em; + margin-top: 1em; + margin-bottom: 1em; } + +p.right {text-align: right; + margin-right: 10%; + margin-top: 1em; + margin-bottom: 1em; } + +div.fig { display:block; + margin:0 auto; + text-align:center; + margin-top: 1em; + margin-bottom: 1em;} + +p.caption {font-weight: bold; + text-align: center; } + +a:link {color:blue; text-decoration:none} +a:visited {color:blue; text-decoration:none} +a:hover {color:red} + +</style> +</head> +<body> + +<div style='text-align:center; font-size:1.2em; font-weight:bold'>The Project Gutenberg eBook of Surgical Anatomy, by Joseph Maclise</div> +<div style='display:block; margin:1em 0'> +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 <a href="https://www.gutenberg.org">www.gutenberg.org</a>. If you +are not located in the United States, you will have to check the laws of the +country where you are located before using this eBook. +</div> +<div style='display:block; margin-top:1em; margin-bottom:1em; margin-left:2em; text-indent:-2em'>Title: Surgical Anatomy</div> +<div style='display:block; margin-top:1em; margin-bottom:1em; margin-left:2em; text-indent:-2em'>Author: Joseph Maclise</div> +<div style='display:block; margin:1em 0'>Release Date: January 28, 2008 [eBook #24440]<br /> +[Most recently updated: October 22, 2023]</div> +<div style='display:block; margin:1em 0'>Language: English</div> +<div style='display:block; margin-left:2em; text-indent:-2em'>Produced by: Don Kostuch</div> +<div style='margin-top:2em; margin-bottom:4em'>*** START OF THE PROJECT GUTENBERG EBOOK SURGICAL ANATOMY ***</div> + +<p> +[Transcriber’s Notes] +</p> + +<p> +Thanks to Carol Presher of Timeless Antiques, Valley, Alabama, for lending the +original book for this production. The 140 year old binding had disintegrated, +but the paper and printing was in amazingly good condition, particularly the +multicolor images. +</p> + +<p> +Thanks also to the Mayo Clinic. This book has increased my appreciation of +their skilled care of my case by showing the many ways that things could go +wrong. +</p> + +<p> +Footnotes are indicated by “[Footnote]” where they appear in the text. The body +of the footnote appears immediately following the complete paragraph. If more +than one footnote appears in the same paragraph, they are numbered. +</p> + +<p> +A few obvious misspellings have been corrected. Several cases of alternate +spelling of the same(?) word have not been modified. +</p> + +<p> +Pages have been reorganized to avoid splitting sentences and paragraphs. Each +image is inserted immediately following its description. +</p> + +<p> +Some of the plates did not fit on the scanner and were captured as two separate +images. The merged images show some artifacts of the merge process due to +slightly different lighting of the page. The contrast and gamma values have +been adjusted to restore the images. +</p> + +<p> +In this HTML format the images have been resized to fit on smaller displays. +Each image is also a link to the original size version. Click on the image to +see the original. +</p> + +<p> +[End Transcriber’s Notes] +</p> + +<hr /> + +<div class="fig" style="width:100%;"> +<img src="images/cover.jpg" width="495" height="700" alt="[Illustration]" /> +</div> + +<h1>SURGICAL ANATOMY</h1> + +<h2 class="no-break">BY<br/> +JOSEPH MACLISE</h2> + +<h5>FELLOW OF THE ROYAL COLLEGE OF SURGEONS.</h5> + +<h4>WITH SIXTY-EIGHT COLOURED PLATES.</h4> + +<div class="fig" style="width:100%;"> +<img src="images/0Title1Pic.jpg" width="220" height="279" alt="[Illustration]" /> +</div> + +<h4>PHILADELPHIA:<br/> +BLANCHARD AND LEA.<br/> +1859.</h4> + +<div class="chapter"> + +<p class="center"> +I INSCRIBE THIS WORK TO<br/> +THE GENTLEMEN WITH WHOM AS A FELLOW-STUDENT I WAS ASSOCIATED<br/> +AT THE<br/> +<i>London University College:</i> +</p> + +<p class="center"> +AND IN AN ESPECIAL MANNER, IN THEIR NAME AS WELL AS MY OWN, I AVAIL MYSELF OF +THE OPPORTUNITY TO RECORD,<br/> +ON THIS PAGE,<br/> +ALBEIT IN CHARACTERS LESS IMPRESSIVE THAN THOSE WHICH ARE WRITTEN<br/> +ON THE LIVING TABLET OF MEMORY,<br/> +THE DEBT OF GRATITUDE WHICH WE OWE<br/> +TO THE LATE +</p> + +<p class="center"> +<big><big>SAMUEL COOPER, F.R.S., AND ROBERT LISTON, F.R.S.,</big></big> +</p> + +<p class="center"> +TWO AMONG THE MANY DISTINGUISHED PROFESSORS OF THAT INSTITUTION,<br/> +WHOSE PUPILS WE HAVE BEEN,<br/> +AND FROM WHOM WE INHERIT THAT BETTER POSSESSION THAN LIFE ITSELF,<br/> +AN ASPIRATION FOR THE LIGHT OF SCIENCE. +</p> + +<p class="right"> +JOSEPH MACLISE. +</p> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="pref01"></a>PREFACE.</h2> + +<p> +The object of this work is to present to the student of medicine and the +practitioner removed from the schools, a series of dissections demonstrative of +the relative anatomy of the principal regions of the human body. Whatever title +may most fittingly apply to a work with this intent, whether it had better be +styled surgical or medical, regional, relative, descriptive, or topographical +anatomy, will matter little, provided its more salient or prominent character +be manifested in its own form and feature. The work, as I have designed it, +will itself show that my intent has been to base the practical upon the +anatomical, and to unite these wherever a mutual dependence was apparent. +</p> + +<p> +That department of anatomical research to which the name topographical strictly +applies, as confining itself to the mere account of the form and relative +location of the several organs comprising the animal body, is almost wholly +isolated from the main questions of physiological and transcendental interest, +and cannot, therefore, be supposed to speak in those comprehensive views which +anatomy, taken in its widest signification as a science, necessarily includes. +While the anatomist contents himself with describing the form and position of +organs as they appear exposed, layer after layer, by his dissecting +instruments, he does not pretend to soar any higher in the region of science +than the humble level of other mechanical arts, which merely appreciate the +fitting arrangement of things relative to one another, and combinative to the +whole design of the form or machine of whatever species this may be, whether +organic or inorganic. The descriptive anatomist of the human body aims at no +higher walk in science than this, and hence his nomenclature is, as it is, a +barbarous jargon of words, barren of all truthful signification, inconsonant +with nature, and blindly irrespective of the <i>cognitio certa ex principiis +certis exorta.</i> +</p> + +<p> +Still, however, this anatomy of form, although so much requiring purification +of its nomenclature, in order to clothe it in the high reaching dignity of a +science, does not disturb the medical or surgical practitioner, so far as +<i>their </i>wants are concerned. Although it may, and actually does, trammel +the votary who aspires to the higher generalizations and the development of a +law of formation, yet, as this is not the object of the surgical anatomist, the +nomenclature, such as it is, will answer conveniently enough the present +purpose. +</p> + +<p> +The anatomy of the human form, contemplated in reference to that of all other +species of animals to which it bears comparison, constitutes the study of the +comparative anatomist, and, as such, establishes the science in its full +intent. But the anatomy of the human figure, considered as a species, <i>per +se,</i> is confessedly the humblest walk of the understanding in a subject +which, as anatomy, is relationary, and branches far and wide through all the +domain of an animal kingdom. While restricted to the study of the isolated +human species, the cramped judgment wastes in such narrow confine; whereas, in +the expansive gaze over all allying and allied species, the intellect bodies +forth to its vision the full appointed form of natural majesty; and after +having experienced the manifold analogies and differentials of the many, is +thereby enabled, when it returns to the study of the one, to view this +<i>one</i> of human type under manifold points of interest, to the appreciation +of which the understanding never wakens otherwise. If it did not happen that +the study of the human form (confined to itself) had some practical bearing, +such study could not deserve the name of anatomical, while anatomical means +comparative, and whilst comparison implies inductive reasoning. +</p> + +<p> +However, practical anatomy, such as it is, is concerned with an exact knowledge +of the relationship of organs as they stand in reference to each other, and to +the whole design of which these organs are the integral parts. The figure, the +capacity, and the contents of the thoracic and abdominal cavities, become a +study of not more urgent concernment to the physician, than are the regions +named cervical, axillary, inguinal, &c., to the surgeon. He who would +combine both modes of a relationary practice, such as that of medicine and +surgery, should be well acquainted with the form and structures characteristic +of all regions of the human body; and it may be doubted whether he who pursues +either mode of practice, wholly exclusive of the other, can do so with honest +purpose and large range of understanding, if he be not equally well acquainted +with the subject matter of both. It is, in fact, more triflingly fashionable +than soundly reasonable, to seek to define the line of demarcation between the +special callings of medicine and surgery, for it will ever be as vain an +endeavour to separate the one from the other without extinguishing the vitality +of both, as it would be to sunder the trunk from the head, and give to each a +separate living existence. The necessary division of labour is the only reason +that can be advanced in excuse of specialisms; but it will be readily agreed +to, that that practitioner who has first laid within himself the foundation of +a general knowledge of matters relationary to his subject, will always be found +to pursue the speciality according to the light of reason and science. +</p> + +<p> +Anatomy—the <img style="width: 183px; height: 50px;" alt="" +src="images/0Title6Pic.jpg" /> the knowledge based on principle—is the +foundation of the curative art, cultivated as a science in all its branchings; +and comparison is the nurse of reason, which we are fain to make our guide in +bringing the practical to bear productively. The human body, in a state of +health, is the standard whereunto we compare the same body in a state of +disease. The knowledge of the latter can only exist by the knowledge of the +former, and by the comparison of both. +</p> + +<p> +Comparison may be fairly termed the pioneer to all certain knowledge. It is a +potent instrument—the only one, in the hands of the pathologist, as well as in +those of the philosophic generalizer of anatomical facts, gathered through the +extended survey of an animal kingdom. We best recognise the condition of a +dislocated joint after we have become well acquainted with the contour of its +normal state; all abnormal conditions are best understood by a knowledge of +what we know to be normal character. Every anatomist is a comparer, in a +greater or lesser degree; and he is the greatest anatomist who compares the +most generally. +</p> + +<p> +Impressed with this belief, I have laid particular emphasis on imitating the +character of the normal form of the human figure, taken as a whole; that of its +several regions as parts of this whole, and that of the various organs +(contained within those regions) as its integrals or elements. And in order to +present this subject of relative anatomy in more vivid reality to the +understanding of the student, I have chosen the medium of illustrating by +figure rather than by that of written language, which latter, taken alone, is +almost impotent in a study of this nature. +</p> + +<p> +It is wholly impossible for anyone to describe form in words without the aid of +figures. Even the mathematical strength of Euclid would avail nothing, if shorn +of his diagrams. The professorial robe is impotent without its diagrams. +Anatomy being a science existing by demonstration, (for as much as form in its +actuality is the language of nature,) must be discoursed of by the +instrumentality of figure. +</p> + +<p> +An anatomical illustration enters the understanding straight-forward in a +direct passage, and is almost independent of the aid of written language. A +picture of form is a proposition which solves itself. It is an axiom +encompassed in a frame-work of self-evident truth. The best substitute for +Nature herself, upon which to teach the knowledge of her, is an exact +representation of her form. +</p> + +<p> +Every surgical anatomist will (if he examine himself) perceive that, previously +to undertaking the performance of an operation upon the living body, he stands +reassured and self-reliant in that degree in which he is capable of conjuring +up before his mental vision a distinct picture of his subject. Mr. Liston could +draw the same anatomical picture mentally which Sir Charles Bell’s handicraft +could draw in reality of form and figure. Scarpa was his own draughtsman. +</p> + +<p> +If there may be any novelty now-a-days possible to be recognised upon the +out-trodden track of human relative anatomy, it can only be in truthful and +well-planned illustration. Under this view alone may the anatomist plead an +excuse for reiterating a theme which the beautiful works of Cowper, Haller, +Hunter, Scarpa, Soemmering, and others, have dealt out so respectably. Except +the human anatomist turns now to what he terms the practical ends of his study, +and marshals his little knowledge to bear upon those ends, one may proclaim +anthropotomy to have worn itself out. Dissection can do no more, except to +repeat Cruveilhier. And that which Cruveilhier has done for human anatomy, +Muller has completed for the physiological interpretation of human anatomy; +Burdach has philosophised, and Magendie has experimented to the full upon this +theme, so far as it would permit. All have pushed the subject to its furthest +limits, in one aspect of view. The narrow circle is footworn. All the needful +facts are long since gathered, sown, and known. We have been seekers after +those facts from the days of Aristotle. Are we to put off the day of attempting +interpretation for three thousand years more, to allow the human physiologist +time to slice the brain into more delicate atoms than he has done hitherto, in +order to coin more names, and swell the dictionary? No! The work must now be +retrospective, if we would render true knowledge progressive. It is not a list +of new and disjointed facts that Science at present thirsts for; but she is +impressed with the conviction that her wants can alone be supplied by the +creation of a new and truthful theory,—a generalization which the facts already +known are sufficient to supply, if they were well ordered according to their +natural relationship and mutual dependence. “Le temps viendra peut-etre,” says +Fontenelle, “que l’on joindra en un corps regulier ces membres epars; et, s’ils +sont tels qu’on le souhaite, ils s’assembleront en quelque sorte d’eux-memes. +Plusieurs verites separees, des qu’elles sont en assez grand nombre, offrent si +vivement a l’esprit leurs rapports et leur mutuelle dependance, qu’il semble +qu’apres les avoir detachees par une espece de violence les unes des autres, +elles cherchent naturellement a se reunir.”—(Preface sur l’utilite des +Sciences, &c.) +</p> + +<p> +The comparison of facts already known must henceforward be the scalpel which we +are to take in hand. We must return by the same road on which we set out, and +reexamine the things and phenomena which, as novices, we passed by too lightly. +The travelled experience may now sit down and contemplate. +</p> + +<p> +That which I have said and proved elsewhere in respect to the skeleton system +may, with equal truth, be remarked of the nervous system—namely, that the +question is not in how far does the limit of diversity extend through the +condition of an evidently common analogy, but by what rule or law the uniform +ens is rendered the diverse entity? The womb of anatomical science is pregnant +of the true interpretation of the law of <i>unity in variety</i>; but the +question is of longer duration than was the life of the progenitor. Though +Aristotle and Linnaeus, and Buffon and Cuvier, and Geoffroy St. Hilaire and +Leibnitz, and Gothe, have lived and spoken, yet the present state of knowledge +proclaims the Newton of physiology to be as yet unborn. The iron scalpel has +already made acquaintance with not only the greater parts, but even with the +infinitesimals of the human body; and reason, confined to this narrow range of +a subject, perceives herself to be imprisoned, and quenches her guiding light +in despair. Originality has outlived itself; and discovery is a long-forgotten +enterprise, except as pursued in the microcosm on the field of the microscope, +which, it must be confessed, has drawn forth demonstrations only commensurate +in importance with the magnitude of the littleness there seen. +</p> + +<p> +The subject of our study, whichever it happen to be, may appear exhausted of +all interest, and the promise of valuable novelty, owing to two reasons:—It may +be, like descriptive human anatomy, so cold, poor and sterile in its own +nature, and so barren of product, that it will be impossible for even the +genius of Promethean fire to warm it; or else, like existing physiology, the +very point of view from which the mental eye surveys the theme, will blight the +fair prospect of truth, distort induction, and clog up the paces of +ratiocination. The physiologist of the present day is too little of a +comparative anatomist, and far too closely enveloped in the absurd jargon of +the anthropotomist, ever to hope to reveal any great truth for science, and +dispel the mists which still hang over the phenomena of the nervous system. He +is steeped too deeply in the base nomenclature of the antique school, and too +indolent to question the import of Pons, Commissure, Island, Taenia, Nates, +Testes, Cornu, Hippocamp, Thalamus, Vermes, Arbor Vitro, Respiratory Tract, +Ganglia of Increase, and all such phrase of unmeaning sound, ever to be +productive of lucid interpretation of the cerebro-spinal ens. Custom alone +sanctions his use of such names; but +</p> + +<p class="poem"> +“Custom calls him to it!<br/> +What custom wills; should custom always do it,<br/> +The dust on antique time would lie unswept,<br/> +And mountainous error be too highly heaped,<br/> +For truth to overpeer.” +</p> + +<p> +Of the illustrations of this work I may state, in guarantee of their anatomical +accuracy, that they have been made by myself from my own dissections, first +planned at the London University College, and afterwards realised at the Ecole +Pratique, and School of Anatomy adjoining the Hospital La Pitie, Paris, a few +years since. As far as the subject of relative anatomy could admit of novel +treatment, rigidly confined to facts unalterable, I have endeavoured to give +it. +</p> + +<p> +The unbroken surface of the human figure is as a map to the surgeon, +explanatory of the anatomy arranged beneath; and I have therefore left appended +to the dissected regions as much of the undissected as was necessary. My object +was to indicate the interior through the superficies, and thereby illustrate +the whole living body which concerns surgery, through its dissected dead +counterfeit. We dissect the dead animal body in order to furnish the memory +with as clear an account of the structure contained in its living +representative, which we are not allowed to analyse, as if this latter were +perfectly translucent, and directly demonstrative of its component parts. +</p> + +<p class="right"> +J. M +</p> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2>TABLE OF CONTENTS.</h2> + +<p class="noindent"> +<a href="#pref01">PREFACE</a><br/> +INTRODUCTORY TO THE STUDY OF ANATOMY AS A SCIENCE.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap01">COMMENTARY ON PLATES 1 & 2</a> +</p> + +<p> +THE FORM OF THE THORAX, AND THE RELATIVE POSITION OF ITS CONTAINED PARTS—THE +LUNGS, HEART, AND LARGER BLOOD VESSELS. +</p> + +<p> +The structure, mechanism, and respiratory motions of the thoracic apparatus. +Its varieties in form, according to age and sex. Its deformities. Applications +to the study of physical diagnosis.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap02">COMMENTARY ON PLATES 3 & 4</a> +</p> + +<p> +THE SURGICAL FORM OF THE SUPERFICIAL, CERVICAL, AND FACIAL REGIONS, AND THE +RELATIVE POSITION OF THE PRINCIPAL BLOOD VESSELS, NERVES, ETC. +</p> + +<p> +The cervical surgical triangles considered in reference to the position of the +subclavian and carotid vessels, &c. Venesection in respect to the external +jugular vein. Anatomical reasons for avoiding transverse incisions in the neck. +The parts endangered in surgical operations on the parotid and submaxillary +glands, &c.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap03">COMMENTARY ON PLATES 5 & 6</a> +</p> + +<p> +THE SURGICAL FORM OF THE DEEP CERVICAL AND FACIAL REGIONS, AND THE RELATIVE +POSITION OF THE PRINCIPAL BLOOD VESSELS, NERVES, ETC. +</p> + +<p> +The course of the carotid and subclavian vessels in reference to each other, to +the surface, and to their respective surgical triangles. Differences in the +form of the neck in individuals of different age and sex. Special relations of +the vessels. Physiological remarks on the carotid artery. Peculiarities in the +relative position of the subclavian artery.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap04">COMMENTARY ON PLATES 7 & 8</a> +</p> + +<p> +THE SURGICAL DISSECTION OF THE SUBCLAVIAN AND CAROTID REGIONS, AND THE RELATIVE +ANATOMY OF THEIR CONTENTS. +</p> + +<p> +General observations. Abnormal complications of the carotid and subclavian +arteries. Relative position of the vessels liable to change by the motions of +the head and shoulder. Necessity for a fixed surgical position in operations +affecting these vessels. The operations for tying the carotid or the subclavian +at different situations in cases of aneurism, &c. The operation for tying +the innominate artery. Reasons of the unfavourable results of this +proceeding.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap05">COMMENTARY ON PLATES 9 & 10</a> +</p> + +<p> +THE SURGICAL DISSECTION OF THE EPISTERNAL OR TRACHEAL REGION, AND THE RELATIVE +POSITION OF ITS MAIN BLOOD VESSELS, NERVES, ETC. +</p> + +<p> +Varieties of the primary aortic branches explained by the law of metamorphosis. +The structures at the median line of the neck. The operations of tracheotomy +and laryngotomy in the child and adult, The right and left brachio-cephalic +arteries and their varieties considered surgically.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap06">COMMENTARY ON PLATES 11 & 12</a> +</p> + +<p> +THE SURGICAL DISSECTION OF THE AXILLARY AND BRACHIAL REGIONS, DISPLAYING THE +RELATIVE POSITION OF THEIR CONTAINED PARTS. +</p> + +<p> +The operation for tying the axillary artery. Remarks on fractures of the +clavicle and dislocation of the humerus in reference to the axillary vessels. +The operation for tying the brachial artery near the axilla. Mode of +compressing this vessel against the humerus.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap07">COMMENTARY ON PLATES 13 & 14</a> +</p> + +<p> +THE SURGICAL FORMS OF THE MALE AND FEMALE AXILLAE COMPARED. +</p> + +<p> +The mammary and axillary glands in health and disease. Excision of these +glands. Axillary abscess. General surgical observations on the axilla.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap08">COMMENTARY ON PLATES 15 & 16</a> +</p> + +<p> +THE SURGICAL DISSECTION OF THE BEND OF THE ELBOW AND THE FOREARM, SHOWING THE +RELATIVE POSITION OF THE VESSELS AND NERVES. +</p> + +<p> +General remarks. Operation for tying the brachial artery at its middle and +lower thirds. Varieties of the brachial artery. Venesection at the bend of the +elbow. The radial and ulnar pulse. Operations for tying the radial and ulnar +arteries in several parts.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap09">COMMENTARY ON PLATES 17, 18, & 19</a> +</p> + +<p> +THE SURGICAL DISSECTION OF THE WRIST AND HAND. +</p> + +<p> +General observations. Superficial and deep palmar arches. Wounds of these +vessels requiring a ligature to be applied to both ends. General surgical +remarks on the arteries of the upper limb. Palmar abscess, &c.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap10">COMMENTARY ON PLATES 20 & 21</a> +</p> + +<p> +THE RELATIVE POSITION OF THE CRANIAL, NASAL, ORAL, AND PHARYNGEAL CAVITIES, +ETC. +</p> + +<p> +Fractures of the cranium, and the operation of trephining anatomically +considered. Instrumental measures in reference to the fauces, tonsils, +oesophagus, and lungs.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap11">COMMENTARY ON PLATE 22</a> +</p> + +<p> +THE RELATIVE POSITION OF THE SUPERFICIAL ORGANS OF THE THORAX AND ABDOMEN. +</p> + +<p> +Application to correct physical diagnosis. Changes in the relative position of +the organs during the respiratory motions. Changes effected by disease. +Physiological remarks on wounds of the thorax and on pleuritic effusion. +Symmetry of the organs, &c.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap12">COMMENTARY ON PLATE 23</a> +</p> + +<p> +THE RELATIVE POSITION OF THE DEEPER ORGANS OF THE THORAX AND THOSE OF THE +ABDOMEN. +</p> + +<p> +Of the heart in reference to auscultation and percussion. Of the lungs, ditto. +Relative capacity of the thorax and abdomen as influenced by the motions of the +diaphragm. Abdominal respiration. Physical causes of abdominal herniae. +Enlarged liver as affecting the capacity of the thorax and abdomen. +Physiological remarks on wounds of the lungs. Pneumothorax, emphysema, +&c.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap13">COMMENTARY ON PLATE 24</a> +</p> + +<p> +THE RELATIONS OF THE PRINCIPAL BLOODVESSELS TO THE VISCERA OF THE +THORACICO-ABDOMINAL CAVITY. +</p> + +<p> +Symmetrical arrangement of the vessels arising from the median +thoracico-abdominal aorta, &c. Special relations of the aorta. Aortic +sounds. Aortic aneurism and its effects on neighbouring organs. Paracentesis +thoracis. Physical causes of dropsy. Hepatic abscess. Chronic enlargements of +the liver and spleen as affecting the relative position of other parts. Biliary +concretions. Wounds of the intestines. Artificial anus.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap14">COMMENTARY ON PLATE 25</a> +</p> + +<p> +THE RELATION OF THE PRINCIPAL BLOODVESSELS OF THE THORAX AND ABDOMEN TO THE +OSSEOUS SKELETON. +</p> + +<p> +The vessels conforming to the shape of the skeleton. Analogy between the +branches arising from both ends of the aorta. Their normal and abnormal +conditions. Varieties as to the length of these arteries considered surgically. +Measurements of the abdomen and thorax compared. Anastomosing branches of the +thoracic and abdominal parts of the aorta.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap15">COMMENTARY ON PLATE 26</a> +</p> + +<p> +THE RELATION OF THE INTERNAL PARTS TO THE EXTERNAL SURFACE. +</p> + +<p> +In health and disease. Displacement of the lungs from pleuritic effusion. +Paracentesis thoracis. Hydrops pericardii. Puncturation. Abdominal and ovarian +dropsy as influencing the position of the viscera. Diagnosis of both dropsies. +Paracentesis abdominis. Vascular obstructions and their effects.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap16">COMMENTARY ON PLATE 27</a> +</p> + +<p> +THE SURGICAL DISSECTION OF THE SUPERFICIAL PARTS AND BLOODVESSELS OF THE +INGUINO-FEMORAL REGION. +</p> + +<p> +Physical causes of the greater frequency of inguinal and femoral herniae. The +surface considered in reference to the subjacent parts.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap17">COMMENTARY ON PLATES 28 & 29</a> +</p> + +<p> +THE SURGICAL DISSECTION OF THE FIRST, SECOND, THIRD, AND FOURTH LAYERS OF THE +INGUINAL REGION, IN CONNEXION WITH THOSE OF THE THIGH. +</p> + +<p> +The external abdominal ring and spermatic cord. Cremaster muscle—how formed. +The parts considered in reference to inguinal hernia. The saphenous opening, +spermatic cord, and femoral vessels in relation to femoral hernia.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap18">COMMENTARY ON PLATES 30 & 31</a> +</p> + +<p> +THE SURGICAL DISSECTION OF THE FIFTH, SIXTH, SEVENTH, AND EIGHTH LAYERS OF THE +INGUINAL REGION, AND THEIR CONNEXION WITH THOSE OF THE THIGH. +</p> + +<p> +The conjoined tendon, internal inguinal ring, and cremaster muscle, considered +in reference to the descent of the testicle and of the hernia. The structure +and direction of the inguinal canal.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap19">COMMENTARY ON PLATES 32, 33, & 34</a> +</p> + +<p> +THE DISSECTION OF THE OBLIQUE OR EXTERNAL, AND OF THE DIRECT OR INTERNAL +INGUINAL HERNIA. +</p> + +<p> +Their points of origin and their relations to the inguinal rings. The triangle +of Hesselbach. Investments and varieties of the external inguinal hernia, its +relations to the epigastric artery, and its position in the canal. Bubonocele, +complete and scrotal varieties in the male. Internal inguinal hernia considered +in reference to the same points. Corresponding varieties of both herniae in the +female.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap20">COMMENTARY ON PLATES 35, 36, 37, & 38</a> +</p> + +<p> +THE DISTINCTIVE DIAGNOSIS BETWEEN EXTERNAL AND INTERNAL INGUINAL HERNIAE, THE +TAXIS, SEAT OF STRICTURE, AND THE OPERATION. +</p> + +<p> +Both herniae compared as to position and structural characters. The +co-existence of both rendering diagnosis difficult. The oblique changing to the +direct hernia as to position, but not in relation to the epigastric artery. The +taxis performed in reference to the position of both as regards the canal and +abdominal rings. The seat of stricture varying. The sac. The lines of incision +required to avoid the epigastric artery. Necessity for opening the sac.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap21">COMMENTARY ON PLATES 39 & 40</a> +</p> + +<p> +DEMONSTRATIONS OF THE NATURE OF CONGENITAL AND INFANTILE INGUINAL HERNIAE, AND +OF HYDROCELE. +</p> + +<p> +Descent of the testicle. The testicle in the scrotum. Isolation of its tunica +vaginalis. The tunica vaginalis communicating with the abdomen. Sacculated +serous spermatic canal. Hydrocele of the isolated tunica vaginalis. Congenital +hernia and hydrocele. Infantile hernia. Oblique inguinal hernia. How formed and +characterized.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap22">COMMENTARY ON PLATES 41 & 42</a> +</p> + +<p> +DEMONSTRATIONS OF THE ORIGIN AND PROGRESS OF INGUINAL HERNIAE IN GENERAL. +</p> + +<p> +Formation of the serous sac. Formation of congenital hernia. Hernia in the +canal of Nuck. Formation of infantile hernia. Dilatation of the serous sac. +Funnel-shaped investments of the hernia. Descent of the hernia like that of the +testicle. Varieties of infantile hernia. Sacculated cord. Oblique internal +inguinal hernia—cannot be congenital. Varieties of internal hernia. Direct +external hernia. Varieties of the inguinal canal.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap23">COMMENTARY ON PLATES 43 & 44</a> +</p> + +<p> +THE DISSECTION OF FEMORAL HERNIA AND THE SEAT OF STRICTURE. +</p> + +<p> +Compared with the inguinal variety. Position and relations. Sheath of the +femoral vessels and of the hernia. Crural ring and canal. Formation of the sac. +Saphenous opening. Relations of the hernia. Varieties of the obturator and +epigastric arteries. Course of the hernia. Investments. Causes and situations +of the stricture.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap24">COMMENTARY ON PLATES 45 & 46</a> +</p> + +<p> +DEMONSTRATIONS OF THE ORIGIN AND PROGRESS OF FEMORAL HERNIA; ITS DIAGNOSIS, THE +TAXIS, AND THE OPERATION. +</p> + +<p> +Its course compared with that of the inguinal hernia. Its investments and +relations. Its diagnosis from inguinal hernia, &c. Its varieties. Mode of +performing the taxis according to the course of the hernia. The operation for +the strangulated condition. Proper lines in which incisions should be made. +Necessity for and mode of opening the sac.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap25">COMMENTARY ON PLATE 47</a> +</p> + +<p> +THE SURGICAL DISSECTION OF THE PRINCIPAL BLOODVESSELS AND NERVES OF THE ILIAC +AND FEMORAL REGIONS. +</p> + +<p> +The femoral triangle. Eligible place for tying the femoral artery. The +operations of Scarpa and Hunter. Remarks on the common femoral artery. Ligature +of the external iliac artery according to the seat of aneurism.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap26">COMMENTARY ON PLATES 48 & 49</a> +</p> + +<p> +THE RELATIVE ANATOMY OF THE MALE PELVIC ORGANS. +</p> + +<p> +Physiological remarks on the functions of the abdominal muscles. Effects of +spinal injuries on the processes of defecation and micturition. Function of the +bladder. Its change of form and position in various states. Relation to the +peritonaeum. Neck of the bladder. The prostate. Puncturation of the bladder by +the rectum. The pudic artery.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap27">COMMENTARY ON PLATES 50 & 51</a> +</p> + +<p> +THE SURGICAL DISSECTION OF THE SUPERFICIAL STRUCTURES OF THE MALE PERINAEUM. +</p> + +<p> +Remarks on the median line. Congenital malformations. Extravasation of urine +into the sac of the superficial fascia. Symmetry of the parts. Surgical +boundaries of the perinaeum. Median and lateral important parts to be avoided +in lithotomy, and the operation for fistula in ano.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap28">COMMENTARY ON PLATES 52 & 53</a> +</p> + +<p> +THE SURGICAL DISSECTION OF THE DEEP STRUCTURES OF THE MALE PERINAEUM; THE +LATERAL OPERATION OF LITHOTOMY. +</p> + +<p> +Relative position of the parts at the base of the bladder. Puncture of the +bladder through the rectum and of the urethra in the perinaeum. General rules +for lithotomy.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap29">COMMENTARY ON PLATES 54, 55, & 56</a> +</p> + +<p> +THE SURGICAL DISSECTION OF THE MALE BLADDER AND URETHRA; LATERAL AND BILATERAL +LITHOTOMY COMPARED. +</p> + +<p> +Lines of incision in both operations. Urethral muscles—their analogies and +significations. Direction, form, length, structure, &c., of the urethra at +different ages. Third lobe of the prostate. Physiological remarks. Trigone +vesical. Bas fond of the bladder. Natural form of the prostate at different +ages.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap30">COMMENTARY ON PLATES 57 & 58</a> +</p> + +<p> +CONGENITAL AND PATHOLOGICAL DEFORMITIES OF THE PREPUCE AND URETHRA; STRICTURES +AND MECHANICAL OBSTRUCTIONS OF THE URETHRA. +</p> + +<p> +General remarks. Congenital phymosis. Gonorrhoeal paraphymosis and phymosis. +Effect of circumcision. Protrusion of the glans through an ulcerated opening in +the prepuce. Congenital hypospadias. Ulcerated perforations of the urethra. +Congenital epispadias. Urethral fistula, stricture, and catheterism. Sacculated +urethra. Stricture opposite the bulb and the membranous portion of the urethra. +Observations respecting the frequency of stricture in these parts. Calculus at +the bulb. Polypus of the urethra. Calculus in its membranous portion. Stricture +midway between the meatus and bulb. Old callous stricture, its form, &c. +Spasmodic stricture of the urethra by the urethral muscles. Organic stricture. +Surgical observations.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap31">COMMENTARY ON PLATES 59 & 60</a> +</p> + +<p> +THE VARIOUS FORMS AND POSITIONS OF STRICTURES AND OTHER OBSTRUCTIONS OF THE +URETHRA; FALSE PASSAGES; ENLARGEMENTS AND DEFORMITIES OF THE PROSTATE. +</p> + +<p> +General remarks. Different forms of the organic stricture. Coexistence of +several. Prostatic abscess distorting and constricting the urethra. Perforation +of the prostate by catheters. Series of gradual enlargements of the third lobe +of the prostate. Distortion of the canal by the enlarged third lobe—by the +irregular enlargement of the three lobes—by a nipple-shaped excrescence at the +vesical orifice.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap32">COMMENTARY ON PLATES 61 & 62</a> +</p> + +<p> +DEFORMITIES OF THE PROSTATE; DISTORTIONS AND OBSTRUCTIONS OF THE PROSTATIC +URETHRA. +</p> + +<p> +Observations on the nature of the prostate—its signification. Cases of prostate +and bulb pouched by catheters. Obstructions of the vesical orifice. Sinuous +prostatic canal. Distortions of the vesical orifice. Large prostatic calculus. +Sacculated prostate. Triple prostatic urethra. Encrusted prostate. Fasciculated +bladder. Prostatic sac distinct from the bladder. Practical remarks. Impaction +of a large calculus in the prostate. Practical remarks.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap33">COMMENTARY ON PLATES 63 & 64</a> +</p> + +<p> +DEFORMITIES OF THE URINARY BLADDER; THE OPERATIONS OF SOUNDING FOR STONE; OF +CATHETERISM AND OF PUNCTURING THE BLADDER ABOVE THE PUBES. +</p> + +<p> +General remarks on the causes of the various deformities, and of the formation +of stone. Lithic diathesis—its signification. The sacculated bladder considered +in reference to sounding, to catheterism, to puncturation, and to lithotomy. +Polypi in the bladder. Dilated ureters. The operation of catheterism. General +rules to be followed. Remarks on the operation of puncturing the bladder above +the pubes.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap34">COMMENTARY ON PLATES 65 & 66</a> +</p> + +<p> +THE SURGICAL DISSECTION OF THE POPLITEAL SPACE, AND THE POSTERIOR CRURAL +REGION. +</p> + +<p> +Varieties of the popliteal and posterior crural vessels. Remarks on popliteal +aneurism, and the operation for tying the popliteal artery, in wounds of this +vessel. Wounds of the posterior crural arteries requiring double ligatures. The +operations necessary for reaching these vessels.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap35">COMMENTARY ON PLATES 67 & 68</a> +</p> + +<p> +THE SURGICAL DISSECTION OF THE ANTERIOR CRURAL REGION; THE ANKLES AND THE FOOT. +</p> + +<p> +Varieties of the anterior and posterior tibial and the peronaeal arteries. The +operations for tying these vessels in several situations. Practical +observations on wounds of the arteries of the leg and foot.<br/> +<br/> +</p> + +<p class="noindent"> +<a href="#chap36">CONCLUDING COMMENTARY</a> +</p> + +<p> +ON THE FORM AND DISTRIBUTION OF THE VASCULAR SYSTEM AS A WHOLE; ANOMALIES; +RAMIFICATION; ANASTOMOSIS. +</p> + +<p> +The double heart. Universal systemic capillary anastomosis. Its division, by +the median line, into two great lateral fields—those subdivided into two +systems or provinces—viz., pulmonary and systemic. Relation of pulmonary and +systemic circulating vessels. Motions of the heart. Circulation of the blood +through the lungs and system. Symmetry of the hearts and their vessels. +Development of the heart and primary vessels. Their stages of metamorphosis +simulating the permanent conditions of the parts in lower animals. The +primitive branchial arches undergoing metamorphosis. Completion of these +changes. Interpretation of the varieties of form in the heart and primary +vessels. Signification of their normal condition. The portal system no +exception to the law of vascular symmetry. Signification of the portal system. +The liver and spleen as homologous organs,—as parts of the same whole quantity. +Cardiac anastomosing vessels. Vasa vasorum. Anastomosing branches of the +systemic aorta considered in reference to the operations of arresting by +ligature the direct circulation through the arteries of the head, neck, upper +limbs, pelvis, and lower limbs. The collateral circulation. Practical +observations on the most eligible situations for tying each of the principal +vessels, as determined by the greatest number of their anastomosing branches on +either side of the ligature, and the largest amount of the collateral +circulation that may be thereby carried on for the support of distal parts. +</p> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap01"></a>COMMENTARY ON PLATES 1 & 2.</h2> + +<h3>THE FORM OF THE THORACIC CAVITY, AND THE POSITION OF THE LUNGS, HEART, AND +LARGER BLOODVESSELS.</h3> + +<p> +In the human body there does not exist any such space as <i>cavity</i>, +properly so called. Every space is occupied by its contents. The thoracic space +is completely filled by its viscera, which, in mass, take a perfect cast or +model of its interior. The thoracic viscera lie so closely to one another, that +they respectively influence the form and dimensions of each other. That space +which the lungs do not occupy is filled by the heart, &c., and <i>vice +versa</i>. The thoracic apparatus causes no vacuum by the acts of either +contraction or dilatation. Neither do the lungs or the heart. When any organ, +by its process of growth, or by its own functional act, forces a space for +itself, it immediately inhabits that space entirely at the expense of +neighbouring organs. When the heart dilates, the pulmonary space contracts; and +when the thoracic space increases, general space diminishes in the same ratio. +</p> + +<p> +The mechanism of the functions of respiration and circulation consists, during +the life of the animal, in a constant oscillatory <i>nisus</i> to produce a +vacuum which it never establishes. These vital forces of the respiratory and +circulatory organs, so characteristic of the higher classes of animals, are +opposed to the general forces of surrounding nature. The former vainly strive +to make exception to the irrevocable law, that “<i>nature abhors a vacuum</i>.” +This act of opposition between both forces constitutes the respiratory act, and +thus the respiratory thoracic being (like a vibrating pendulum) manifests +respiratory motion, not as an effort of volition originating solely with +itself, but according to the measure of the force of either law; as entity is +relationary, so is functionality likewise. The being is functional by +relationship; and just as a pendulum is functional, by reason of the +counteraction of two opposing forces,—viz., the force of motion and the force +of gravity,—so is a thoracic cavity (considering it as a mechanical apparatus) +functional by two opposing forces—the vital force and the surrounding physical +force. The inspiration of thoracic space is the expiration of general space, +and reciprocally. +</p> + +<p> +The thoracic space is a symmetrical enclosure originally, which aftercoming +necessities modify and distort in some degree. The spaces occupied by the +opposite lungs in the adult body do not exactly correspond as to capacity, O O, +Plate 1. Neither is the cardiac space, A E G D, Plate 1, which is traversed by +the common median line, symmetrical. The asymmetry of the lungs is mainly owing +to the form and position of the heart; for this organ inclines towards the left +thoracic side. The left lung is less in capacity than the right, by so much +space as the heart occupies in the left pulmonary side. The general form of the +thorax is that of a cone, I I N N, Plate 1, bicleft through its perpendicular +axis, H M. The line of bicleavage is exactly median, and passes through the +centre of the sternum in front, and the centres of the dorsal vertebral behind. +Between the dorsal vertebral and the sternum, the line of median cleavage is +maintained and sketched out in membrane. This membranous middle is formed by +the adjacent sides of the opposite pleural or enveloping bags in which the +lungs are enclosed. The heart, A, Plate 1, is developed between these two +pleural sacs, F F, and separates them from each other to a distance +corresponding to its own size. The adjacent sides of the two pleural sacs are +central to the thorax, and form that space which is called mediastinum; the +heart is located in this mediastinum, U E, Plate 1. The extent of the thoracic +region ranges <i>perpendicularly</i> from the root of the neck, Q, Plate 1, to +the roof of the abdomen—viz., the diaphragm, P, <i>transversely</i> from the +ribs of one side, I N, Plate 1, to those of the other, and +<i>antero-posteriorly</i> from the sternum, H M, to the vertebral column. All +this space is pulmonary, except the cardiac or median space, which, in addition +to the heart, A, Plate 1, and great bloodvessels, G C B, contains the +oesophagus, bronchi, &c. The ribs are the true enclosures of thoracic +space, and, generally, in mammalian forms, they fail or degenerate at that +region of the trunk which is not pulmonary or respiratory. In human anatomy, a +teleological reason is given for this—namely, that of the ribs being +mechanically subservient to the function of respiration alone. But the +transcendental anatomists interpret this fact otherwise, and refer it to the +operation of a higher law of formation. +</p> + +<p> +The capacity of the thorax is influenced by the capacity of the abdomen and its +contents. In order to admit of full inspiration and pulmonary expansion, the +abdominal viscera recede in the same ratio as the lungs dilate. The diaphragm, +P P, Plate 1, or transverse musculo-membranous partition which divides the +pulmonary and alimentary cavities, is, by virtue of its situation, as +mechanically subservient to the abdomen as to the thorax. And under general +notice, it will appear that even the abdominal muscles are as directly related +to the respiratory act as those of the thorax. The connexion between functions +is as intimate and indissoluble as the connexion between organs in the same +body. There can be no more striking proof of the divinity of design than by +such revelations as anatomical science everywhere manifests in facts such as +this—viz., that each organ serves in most cases a double, and in many a triple +purpose, in the animal economy. +</p> + +<p> +The apex of the lung projects into the root of the neck, even to a higher +level, Q, Plate 1, than that occupied by the sternal end of the clavicle, K. If +the point of a sword were pushed through the neck above the clavicle, at K, +Plate 1, it would penetrate the apex of the right lung, where the subclavian +artery, Q, Plate 1, arches over it. In connexion with this fact, I may mention +it as very probable that the <i>bruit</i>, or continuous murmur which we hear +through the stethoscope, in chlorotic females, is caused by the pulsation of +the subclavian artery against the top of the lung. The stays or girdle which +braces the loins of most women prevents the expansion of the thoracic +apparatus, naturally attained by the descent of the diaphragm; and hence, no +doubt, the lung will distend inordinately above towards the neck. It is an +interesting fact for those anatomists who study the higher generalizations of +their science, that at those very localities—viz., the neck and loins, where +the lungs by their own natural effort are prone to extend themselves in forced +inspiration—happen the “anomalous” creations of cervical and lumbar ribs. The +subclavian artery is occasionally complicated by the presence of these costal +appendages. +</p> + +<p> +If the body be transfixed through any one of the intercostal spaces, the +instrument will surely wound some part of the lung. If the thorax be pierced +from any point whatever, provided the instrument be directed towards a common +centre, A, Plate 1, the lung will suffer lesion; for the heart is, almost +completely, in the healthy living body, enveloped in the lungs. So true is it +that all the costal region (the asternal as well as the sternal) is a pulmonary +enclosure, that any instrument which pierces intercostal space must wound the +lung. +</p> + +<p> +As the sternal ribs degenerate into the “false” asternal or incomplete ribs +from before, obliquely backward down to the last dorsal vertebra, so the +thoracic space takes form. The lungs range through a much larger space, +therefore, posteriorly than they do anteriorly. +</p> + +<p> +The form of the thorax, in relation to that of the abdomen, may be learned from +the fact that a gunshot, which shall enter a little below N, Plate 1, and, +after traversing the body transversely, shall pass out at a corresponding point +at the opposite side, would open the thorax and the abdomen into a common +cavity; for it would pierce the thorax at N, the arching diaphragm at the level +of M, and thereat enter the belly; then it would enter the thorax again at P, +and make exit below N, opposite. If a cutting instrument were passed +horizontally from before backward, a little below M, it would first open the +abdomen, then pierce the arching diaphragm, and pass into the thorax, opposite +the ninth or eighth dorsal vertebra. +</p> + +<p> +The outward form or superficies masks in some degree the form of the interior. +The width of the thorax above does not exceed the diameter between the points I +I, of Plate 1, or the points W W, of Plate 2. If we make percussion directly +from before backwards at any place external to I, Plate 1, we do not render the +lung vibrative. The diameters between I I and N N, Plate 1, are not equal; and +these measures will indicate the form of the thorax in the living body, between +the shoulders above and the loins below. +</p> + +<p> +The position of the heart in the thorax varies somewhat with several bodies. +The size of the heart, even in a state of perfect health, varies also in +subjects of corresponding ages, a condition which is often mistaken for +pathological. For the most part, its form occupies a space ranging from two or +three lines right of the right side of the sternum to the middle of the shafts +of the fifth and sixth ribs of the left side. In general, the length of the +osseous sternum gives the exact perpendicular range of the heart, together with +its great vessels. +</p> + +<p> +The aorta, C, Plates 1 and 2, is behind the upper half of the sternum, from +which it is separated by the pericardium, D, Plate 1, the thin edge of the +lung, and the mediastinal pleurae, U E, Plate 1, &c. If the heart be +injected from the abdominal aorta, the aortal arch will flatten against the +sternum. Pulmonary space would not be opened by a penetrating instrument passed +into the root of the neck in the median line above the sternum, at L, Plate 1. +But the apices of both lungs would be wounded if the same instrument entered +deeply on either side of this median line at K K. An instrument which would +pierce the sternum opposite the insertion of the second, third, or fourth +costal cartilage, from H downwards, would transfix some part of the arch of the +aorta, C, Plate 1. The same instrument, if pushed horizontally backward through +the second, third, or fourth interspaces of the costal cartilages close to the +sternum, would wound, on the right of the sternal line, the vena cava superior, +G, Plate 1; on the left, the pulmonary artery, B, and the descending thoracic +aorta. In the healthy living body, the thoracic sounds heard in percussion, or +by means of the stethoscope, will vary according to the locality operated upon, +in consequence of the variable thickness of those structures (muscular and +osseous, &c.,) which invest the thoracic walls. Uniformity of sound must, +owing to these facts, be as materially interrupted, as it certainly is, in +consequence of the variable contents of the cavity. The variability of the +healthy thoracic sounds will, therefore, be too often likely to be mistaken for +that of disease, if we forget to admit these facts, as instanced in the former +state. Considering the form of the thoracic space in reference to the general +form of the trunk of the living body, I see reason to doubt whether the +practitioner can by any boasted delicacy of manipulation, detect an abnormal +state of the pulmonary organs by percussion, or the use of the stethoscope, +applied at those regions which he terms coracoid, scapulary, subclavian, +&c., if the line of his examination be directed from before backwards. The +scapula, covered by thick carneous masses, does not lie in the living body +directly upon the osseous-thorax, neither does the clavicle. As all +antero-posterior examination in reference to the lungs external to the points, +I I, between the shoulders cannot, in fact, concern the pulmonary organs, so it +cannot be diagnostic of their state either in health or disease. The +difficulties which oppose the practitioner’s examination of the state of the +thoracic contents are already numerous enough, independent of those which may +arise from unanatomical investigation. +</p> + +<h4>DESCRIPTION OF PLATES 1 & 2.</h4> + +<p> +PLATE 1. +</p> + +<p> +A. Right ventricle of the heart. +</p> + +<p> +B. Origin of pulmonary artery. +</p> + +<p> +C. Commencement of the systemic aorta, ascending part of aortic arch. +</p> + +<p> +D. Pericardium investing the heart and the origins of the great bloodvessels. +</p> + +<p> +E. Mediastinal pleura, forming a second investment for the heart, bloodvessels, +&c. +</p> + +<p> +F. Costal pleura, seen to be continuous above with that which forms the +mediastinum. +</p> + +<p> +G. Vena cava superior, entering pericardium to join V, the right auricle. +</p> + +<p> +H. Upper third of sternum. +</p> + +<p> +I I. First ribs. +</p> + +<p> +K K. Sternal ends of the clavicles. +</p> + +<p> +L. Upper end of sternum. +</p> + +<p> +M. Lower end of sternum. +</p> + +<p> +N N. Fifth ribs. +</p> + +<p> +O O. Collapsed lungs. +</p> + +<p> +P P. Arching diaphragm. +</p> + +<p> +Q. Subclavian artery. +</p> + +<p> +R. Common carotid artery, at its division into internal and external carotids. +</p> + +<p> +S S. Great pectoral muscles. +</p> + +<p> +T T. Lesser pectoral muscles. +</p> + +<p> +U. Mediastinal pleura of right side. +</p> + +<p> +V. Right auricle of the heart. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/012P1_25.jpg"> +<img src="images/012P1_25.jpg" width="509" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 1</p> +</div> + +<p> +PLATE 2. +</p> + +<p> +A. Right ventricle of the heart. A a. Pericardium. +</p> + +<p> +B. Pulmonary artery. B b. Pericardium. +</p> + +<p> +C. Ascending aorta. C c. Transverse aorta. +</p> + +<p> +D. Right auricle. +</p> + +<p> +E. Ductus arteriosus in the loop of left vagus nerve, and close to phrenic +nerve of left side. +</p> + +<p> +F. Superior vena cava. +</p> + +<p> +G. Brachio-cephalic vein of left side. +</p> + +<p> +H. Left common carotid artery. +</p> + +<p> +I. Left subclavian vein. +</p> + +<p> +K. Lower end of left internal jugular vein. +</p> + +<p> +L. Right internal jugular vein. +</p> + +<p> +M. Right subclavian vein. +</p> + +<p> +N. Innominate artery—brachio-cephalic. +</p> + +<p> +O. Left subclavian artery crossed by left vagus nerve. +</p> + +<p> +P. Right subclavian artery crossed by right vagus nerve, whose inferior +laryngeal branch loops under the vessel. +</p> + +<p> +Q. Right common carotid artery +</p> + +<p> +R. Trachea. +</p> + +<p> +S. Thyroid body. +</p> + +<p> +T. Brachial plexus of nerves. +</p> + +<p> +U. Upper end of left internal jugular vein. +</p> + +<p> +V V. Clavicles cut across and displaced downwards. +</p> + +<p> +W W. The first ribs. +</p> + +<p> +X X. Fifth ribs cut across. +</p> + +<p> +Y Y. Right and left mammae. +</p> + +<p> +Z. Lower end of sternum. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/012P2_25.jpg"> +<img src="images/012P2_25.jpg" width="509" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 2</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap02"></a>COMMENTARY ON PLATES 3 & 4.</h2> + +<p> +THE SURGICAL FORM OF THE SUPERFICIAL CERVICAL AND FACIAL REGIONS, AND THE +RELATIVE POSITION OF THE PRINCIPAL BLOOD-VESSELS, NERVES, &c. +</p> + +<p> +When the neck is extended in surgical position, as seen in Plates 3 and 4, its +general outline assumes a quadrilateral shape, approaching to a square. The +sides of this square are formed anteriorly by the line ranging from the mental +symphysis to the top of the sternum, and posteriorly by a line drawn between +the occiput and shoulder. The superior side of this cervical square is drawn by +the horizontal ramus of the lower maxilla, and the inferior side by the +horizontal line of the clavicle. This square space, R 16, 8, 6, Plate 4, is +halved by a diagonal line, drawn by the sterno-cleido-mastoid muscle B, which +cuts the square into two triangles. In the anterior triangle, F 16, 6, Plate 4, +is located the superficial common carotid artery, C, and its branches, D, with +accompanying nerves. In the posterior triangle, 9, 8, 6, Plate 4, is placed the +superficial subclavian artery, A, its branches, L M, and the brachial plexus of +nerves, I. Both these triangles and their contents are completely sheathed by +that thin scarf-like muscle, named platysma myoides, A A, Plate 3, the fibres +of which traverse the neck slantingly in a line, O A, of diagonal direction +opposite to and secant of that of the sterno-mastoid muscle. +</p> + +<p> +When the skin and subcutaneous adipose membrane are removed by careful +dissection from the cervical region, certain structures are exposed, which, +even in the undissected neck, projected on the superficies, and are the +unerring guides to the localities of the blood-vessels and nerves, &c. In +Plate 4, the top of the sternum, 6; the clavicle, 7; the “Pomum Adami,” 1; the +lower maxilla at V; the hyoid bone, Z; the sterno-cleido-mastoid muscle, B; and +the clavicular portion of the trapezius muscle, 8; will readily be felt or +otherwise recognised through the skin, &c. When these several points are +well considered in their relation to one another, they will correctly determine +the relative locality of those structures—the blood-vessels, nerves, &c., +which mainly concern the surgical operation. +</p> + +<p> +The middle point, between 7, the clavicle, and 6, the sternum, of Plate 4, is +marked by a small triangular space occurring between the clavicular and sternal +divisions of the sterno-cleido-mastoid muscle. This space marks the situation +(very generally) of the bifurcation of the innominate artery into the +subclavian and common carotid arteries of the right side; a penetrating +instrument would, if passed into this space at an inch depth, pierce first the +root of the internal jugular vein, and under it, but somewhat internal, the +root of either of these great arterial vessels, and would wound the right vagus +nerve, as it traverses this region. For some extent after the subclavian and +carotid vessels separate from their main common trunk, they lie concealed +beneath the sterno-mastoid muscle, B, Plate 4, and still deeper beneath the +sternal origins of the sterno-hyoid muscle, 5, and sterno-thyroid muscle, some +of whose fibres are traceable at the intervals. The omo-hyoid muscle and the +deep cervical fascia, as will be presently seen, conceal these vessels also. +</p> + +<p> +The subclavian artery, A, Plate 4, first appears superficial to the above-named +muscles of the cervical region just at the point where, passing from behind the +scalenus muscle, N, Plate 4, which also conceals it, it sinks behind the +clavicle. The exact locality of the artery in this part of its course would be +indicated by a finger’s breadth external to the clavicular attachment of the +sterno-mastoid muscle. The artery passes beneath the clavicle at the middle of +this bone, a point which is indicated in most subjects by that cellular +interval occurring between the clavicular origins of the deltoid and great +pectoral muscles. +</p> + +<p> +The posterior cervical triangle, 9, 8, 7, Plate 4, in which the subclavian +artery is situated, is again subdivided by the muscle omo-hyoid into two lesser +regions, each of which assumes somewhat of a triangular shape. The lower one of +these embraces the vessel, A, and those nerves of the brachial plexus, I, which +are in contact with it. The posterior belly of the omo-hyoid muscle, K, and the +anterior scalenus muscle, N, form the sides and apex of this lesser triangular +space, while the horizontal clavicle forms its base. This region of the +subclavian artery is well defined in the necks of most subjects, especially +when the muscles are put in action. In lean but muscular bodies, it is possible +to feel the projection of the anterior scalenus muscle under the skin, external +to the sterno-mastoid. The form of the omo-hyoid is also to be distinguished in +the like bodies. But in all subjects may be readily recognised that hollow +which occurs above the clavicle, and between the trapezius, 8, and the sterno +cleido-mastoid, 7 B, in the centre of which hollow the artery lies. +</p> + +<p> +The contents of the larger posterior cervical triangle, formed by B, the +sterno-mastoid before; 9, the splenius; and 8, the trapezius behind, and by the +clavicle below, are the following mentioned structures—viz., A, the subclavian +artery, in the third part of its course, as it emerges from behind N, the +scalenus anticus; L, the transversalis colli artery, a branch of the thyroid +axis, which will be found to cross the subclavian vessel at this region; I, the +brachial plexus of nerves, which lie external to and above the vessel; H, the +external jugular vein, which sometimes, in conjunction with a plexus of veins +coming from behind the trapezius muscle, entirely conceals the artery; M, the +posterior scapular artery, a branch of the subclavian, given off from the +vessel after it has passed from behind the scalenus muscle; O, numerous +lymphatic glands; P, superficial descending branches of the cervical plexus of +nerves; and Q, ascending superficial branches of the same plexus. All these +structures, except some of the lymphatic glands, are concealed by the platysma +myoides A, as seen in Plate 3, and beneath this by the cervical fascia, which +latter shall be hereafter more clearly represented. +</p> + +<p> +In somewhat the same mode as the posterior half of the omo-hyoid subdivides the +larger posterior triangle into two of lesser dimensions, the anterior half of +the same muscle divides the anterior triangle into two of smaller capacity. +</p> + +<p> +The great anterior triangle, which is marked as that space inclosed within the +points, 6, the top of the sternum, the mental symphysis and the angle of the +maxilla; and whose sides are marked by the median line of the neck before, the +sterno-mastoid behind, and the ramus of the jaw above, contains C, the common +carotid artery, becoming superficial from beneath the sterno-mastoid muscle, +and dividing into E, the internal carotid, and D, the external carotid. The +anterior jugular vein, 3, also occupies this region below; while some venous +branches, which join the external and internal jugular veins, traverse it in +all directions, and present obstacles to the operator from their meshy +plexiform arrangement yielding, when divided, a profuse haemorrhage. +</p> + +<p> +The precise locality at which the common carotid appears from under the +sterno-mastoid muscle is, in almost all instances, opposite to the thyroid +cartilage. At this place, if an incision, dividing the skin, platysma and some +superficial branches of nerves, be made along the anterior border of the +sterno-mastoid muscle, and this latter be turned a little aside, a process of +cervical fascia, and beneath it the sheath of the carotid artery, will +successionally disclose themselves. In many bodies, however, some degree of +careful search requires to be made prior to the full exposure of the vessel in +its sheath, in consequence of a considerable quantity of adipose tissue, some +lymphatic glands, and many small veins lying in the immediate vicinity of the +carotid artery and internal jugular vein. This latter vessel, though usually +lying completely concealed by the sterno-mastoid muscle, is frequently to be +seen projecting from under its fore part. In emaciated bodies, where the +sterno-mastoid presents wasted proportions, it will, in consequence, leave both +the main blood-vessels uncovered at this locality in the neck. +</p> + +<p> +The common carotid artery ascends the cervical region almost perpendicularly +from opposite the sterno-clavicular articulation to the greater cornu of the os +hyoides. For the greater part of this extent it is covered by the +sterno-mastoid muscle; but as this latter takes an oblique course backwards to +its insertion into the mastoid process, while the main blood-vessel dividing +into branches still ascends in its original direction, so is it that the artery +becomes uncovered by the muscle. Even the root of the internal carotid, E, may +be readily reached at this place, where it lies on the same plane as the +external carotid, but concealed in great part by the internal jugular vein. It +would be possible, while relaxing the sterno-mastoid muscle, to compress either +the common carotid artery or its main branches against the cervical vertebral +column, if pressure were made in a direction backwards and inwards. The facial +artery V, which springs from the external carotid, D, may be compressed against +the horizontal ramus of the lower jaw-bone at the anterior border of the +masseter muscle. The temporal artery, as it ascends over the root of the +zygoma, may be compressed effectually against this bony point. +</p> + +<p> +The external jugular vein, H, Plate 4, as it descends the neck from the angle +of the jaw obliquely backwards over the sterno-mastoid muscle, may be easily +compressed and opened in any part of its course. This vein courses downwards +upon the neck in relation to that branch of the superficial cervical plexus, +named auricularis magnus nerve, Q, Plate 4, G, Plate 3. The nerve is generally +situated behind the vein, to which it lies sometimes in close proximity, and is +liable, therefore, to be accidentally injured in the performance of phlebotomy +upon the external jugular vein. The coats of the external jugular vein, E, +Plate 3, are said to hold connexion with some of the fibres of the +platysma-myoides muscle, A A, Plate 3, and that therefore, if the vessel be +divided transversely, the two orifices will remain patent for a time. +</p> + +<p> +The position of the carotid artery protects the vessel, in some degree, against +the suicidal act, as generally attempted. The depth of the incision necessary +to reach the main blood-vessels from the fore part of the neck is so +considerable that the wound seldom effects more than the opening of some part +of the larynx. The ossified condition of the thyroid and cricoid parts of the +laryngeal apparatus affords a protection to the vessels. The more oblique the +incision happens to be, the greater probability is there that the wound is +comparatively superficial, owing to the circumstance of the instrument having +encountered one or more parts of the hyo-laryngeal range; but woeful chance +sometimes directs the weapon horizontally through that membranous interval +between the thyroid and hyoid pieces, in which case, as also in that where the +laryngeal pieces persist permanently cartilaginous, the resistance to the +cutting instrument is much less. +</p> + +<p> +The anatomical position of the parotid, H, Plate 3, and submaxillary glands, W, +Plate 4, is so important, that their extirpation, while in a state of disease, +will almost unavoidably concern other principal structures. Whether the +diseased parotid gland itself or a lymphatic body lying in connexion with it, +be the subject of operation, it seldom happens that the temporo-maxillary +branch of the external carotid, F, escapes the knife. But an accident, much +more liable to occur, and one which produces a great inconvenience afterwards +to the subject, is that of dividing the portio-dura nerve, S, Plate 4, at its +exit from the stylo-mastoid foramen, the consequence being that almost all the +muscles of facial expression become paralyzed. The masseter, L, Plate 3, +pterygoid, buccinator, 15, Plate 4, and the facial fibres of the platysma +muscles, A O, Plate 3, still, however, preserve their power, as these +structures are innervated from a different source. The orbicularis oculi +muscle, which is principally supplied by the portio-dura nerve, is paralyzed, +though it still retains a partial power of contraction, owing to the anatomical +fact that some terminal twigs of the third or motor pair of nerves of the orbit +branch into this muscle. +</p> + +<p> +The facial artery, V, and the facial vein, U, Plate 4, are in close connexion +with the submaxillary gland. Oftentimes they traverse the substance of it. The +lingual nerve and artery lie in some part of their course immediately beneath +the gland. The former two are generally divided when the gland is excised; the +latter two are liable to be wounded in the same operation. +</p> + +<h4>DESCRIPTION OF PLATES 3 & 4.</h4> + +<p> +PLATE 3. +</p> + +<p> +A A A. Subcutaneous platysma myoides muscle, lying on the face, neck, and upper +part of chest, and covering the structures contained in the two surgical +triangles of the neck. +</p> + +<p> +B. Lip of the thyroid cartilage. +</p> + +<p> +C. Clavicular attachment of the trapezius muscle. +</p> + +<p> +D. Some lymphatic bodies of the post triangle. +</p> + +<p> +E. External jugular vein. +</p> + +<p> +F. Occipital artery, close to which are seen some branches of the occipitalis +minor nerve of the cervical plexus. +</p> + +<p> +G. Auricularis magnus nerve of the superficial cervical plexus. +</p> + +<p> +H. Parotid gland. +</p> + +<p> +I. Temporal artery, with its accompanying vein. +</p> + +<p> +K. Zygoma. +</p> + +<p> +L. Masseter muscle, crossed by the parotid duct, and some fibres of platysma. +</p> + +<p> +M. Facial vein. +</p> + +<p> +N. Buccinator muscle. +</p> + +<p> +O. Facial artery seen through fibres of platysma. +</p> + +<p> +P. Mastoid half of sterno-mastoid muscle. +</p> + +<p> +Q. Locality beneath which the commencements of the subclavian and carotid +arteries lie. +</p> + +<p> +R. Locality of the subclavian artery in the third part of its course. +</p> + +<p> +S. Locality of the common carotid artery at its division into internal and +external carotids. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/016P3_25.jpg"> +<img src="images/016P3_25.jpg" width="434" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 3</p> +</div> + +<p> +PLATE 4. +</p> + +<p> +A. Subclavian artery passing beneath the clavicle, where it is crossed by some +blood-vessels and nerves. +</p> + +<p> +B. Sternal attachment of the sterno-mastoid muscle, marking the situation of +the root of common carotid. +</p> + +<p> +C. Common carotid at its point of division, uncovered by sterno-mastoid. +</p> + +<p> +D. External carotid artery branching into lingual, facial, temporal, and +occipital arteries. +</p> + +<p> +E. Internal carotid artery. +</p> + +<p> +F. Temporo-maxillary branch of external carotid artery. +</p> + +<p> +G. Temporal artery and temporal vein, with some ascending temporal branches of +portio-dura nerve. +</p> + +<p> +H. External jugular vein descending from the angle of the jaw, where it is +formed by the union of temporal and maxillary veins. +</p> + +<p> +I. Brachial plexus of nerves in connexion with A, the subclavian artery. +</p> + +<p> +K. Posterior half of the omo-hyoid muscle. +</p> + +<p> +L. Transversalis colli artery. +</p> + +<p> +M. Posterior scapular artery. +</p> + +<p> +N. Scalenus anticus muscle. +</p> + +<p> +O. Lymphatic bodies of the posterior triangle of neck. +</p> + +<p> +P. Superficial descending branches of the cervical plexus of nerves. +</p> + +<p> +Q. Auricularis magnus nerve ascending to join the portio-dura. +</p> + +<p> +R. Occipital artery, accompanied by its nerve, and also by some branches of the +occipitalis minor nerve, a branch of cervical plexus. +</p> + +<p> +S. Portio-dura, or motor division of seventh pair of cerebral nerves. +</p> + +<p> +T. Parotid duct. +</p> + +<p> +U. Facial vein. +</p> + +<p> +V. Facial artery. +</p> + +<p> +W. Submaxillary gland. +</p> + +<p> +X. Digastric muscle. +</p> + +<p> +Y. Lymphatic body. +</p> + +<p> +Z. Hyoid bone. +</p> + +<p> +1. Thyroid cartilage. +</p> + +<p> +2. Superior thyroid artery. +</p> + +<p> +3. Anterior jugular vein. +</p> + +<p> +4. Hyoid half of omo-hyoid muscle. +</p> + +<p> +5. Sterno-hyoid muscle. +</p> + +<p> +6. Top of the sternum. +</p> + +<p> +7. Clavicle. +</p> + +<p> +8. Trapezius muscle. +</p> + +<p> +9. Splenius capitis and colli muscle. +</p> + +<p> +10. Occipital half of occipito-frontalis muscle. +</p> + +<p> +11. Levator auris muscle. +</p> + +<p> +12. Frontal half of occipito-frontalis muscle. +</p> + +<p> +13. Orbicularis oculi muscle. +</p> + +<p> +14. Zygomaticus major muscle. +</p> + +<p> +15. Buccinator muscle. +</p> + +<p> +16. Depressor anguli oris muscle. +</p> + +<p> +(Page 16) +</p> + +<div class="fig" style="width:100%;"> +<a href="images/016P4_25.jpg"> +<img src="images/016P4_25.jpg" width="438" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 4</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap03"></a>COMMENTARY ON PLATES 5 & 6.</h2> + +<p> +THE SURGICAL FORM OF THE DEEP CERVICAL AND FACIAL REGIONS, AND THE RELATIVE +POSITION OF THE PRINCIPAL BLOODVESSELS AND NERVES, &c. +</p> + +<p> +While the human cervix is still extended in surgical position, its deeper +anatomical relations, viewed as a whole, preserve the quadrilateral form. But +as it is necessary to remove the sterno-cleido-mastoid muscle, in order to +expose the entire range of the greater bloodvessels and nerves, so the diagonal +which that muscle forms, as seen in Plates 3 and 4, disappears, and thus both +the cervical triangles are thrown into one common region. Although, however, +the sterno-mastoid muscle be removed, as seen in Plate 5, still the great +bloodvessels and nerves themselves will be observed to divide the cervical +square diagonally, as they ascend the neck from the sterno-clavicular +articulation to the ear. +</p> + +<p> +The diagonal of every square figure is the junction line of the opposite +triangles which form the square. The cervical square being indicated as that +space which lies within the mastoid process and the top of the sternum—the +symphysis of the lower maxilla and the top of the shoulder, it will be seen, in +Plate 5, that the line which the common carotid and internal jugular vein +occupy in the neck, is the diagonal; and hence the junction line of the two +surgical triangles. +</p> + +<p> +The general course of the common carotid artery and internal jugular vein is, +therefore, obliquely backwards and upwards through the diagonal of the cervical +square, and passing, as it were, from the point of one angle of the square to +that of the opposite—viz., from the sterno-clavicular junction to the +masto-maxillary space; and, taking the anterior triangle of the cervical square +to be that space included within the points marked H 8 A, Plate 5, it will be +seen that the common carotid artery ranges along the posterior side of this +anterior triangle. Again: taking the points 5 Z Y to mark the posterior +triangle of the cervical square, so will it be seen that the internal jugular +vein and the common carotid artery, with the vagus nerve between them, range +the anterior side of this posterior triangle, while the subclavian artery, Q, +passes through the centre of the inferior side of the posterior triangle, that +is, under the middle of the shaft of the clavicle. +</p> + +<p> +The main blood vessels (apparently according to original design) will be found +always to occupy the centre of the animal fabric, and to seek deep-seated +protection under cover of the osseous skeleton. The vertebrae of the neck, like +those of the back and loins, support the principal vessels. Even in the limbs +the large bloodvessels range alongside the protective shafts of the bones. The +skeletal points are therefore the safest guides to the precise localities of +the bloodvessels, and such points are always within the easy recognition of +touch and sight. +</p> + +<p> +Close behind the right sterno-clavicular articulation, but separated from it by +the sternal insertions of the thin ribbon-like muscles named sterno-hyoid and +thyroid, together with the cervical fascia, is situated the brachio-cephalic or +innominate artery, A B, Plates 5 and 6, having at its outer side the internal +jugular division of the brachio-cephalic vein, W K, Plate 5. Between these +vessels lies the vagus nerve, E, Plate 6, N, Plate 5. The common carotid +artery, internal jugular vein, and vagus nerve, hold in respect to each other +the same relationship in the neck, as far upwards as the angle of the jaw. +While we view the general lateral outline of the neck, we find that, in the +same measure as the blood vessels ascend from the thorax to the skull, they +recede from the fore-part of the root of the neck to the angle of the jaw, +whereby a much greater interval occurs between them and the mental symphysis, +or the apex of the thyroid cartilage, than happens between them and the top of +the sternum, as they lie at the root of the neck. This variation as to the +width of the interval between the vessels and fore-part of the neck, in these +two situations, is owing to two causes, 1st, the somewhat oblique course taken +by the vessels from below upwards; 2dly, the projecting development of the +adult lower jaw-bone, and also of the laryngeal apparatus, which latter organ, +as it grows to larger proportions in the male than in the female, will cause +the interval at this place to be much greater in the one than the other. In the +infant, the larynx is of such small size, as scarcely to stand out beyond the +level of the vessels, viewed laterally. +</p> + +<p> +The internal jugular vein is for almost its entire length covered by the +sterno-mastoid muscle, and by that layer of the cervical aponeurosis which lies +between the vessels and the muscle. The two vessels, K C, Plate 5, with the +vagus nerve, are enclosed in a common sheath of cellular membrane, which sends +processes between them so as to isolate the structures in some degree from one +another. +</p> + +<p> +The trunk of the common carotid artery is in close proximity to the vagus +nerve, this latter lying at the vessel’s posterior side. The internal jugular +vein, which sometimes lies upon and covering the carotid, will be found in +general separated from it for a little space. Opposite the os hyoides, the +internal jugular vein lies closer to the common carotid than it does farther +down towards the root of the neck. Opposite to the sterno-clavicular +articulation, the internal jugular vein will be seen separated from the common +carotid for an interval of an inch and more in width, and at this interval +appears the root of the subclavian artery, B, Plates 5 and 6, giving off its +primary branches, viz., the thyroid axis, D, the vertebral and internal mammary +arteries, at the first part of its course. +</p> + +<p> +The length of the common carotid artery varies, of course, according to the +place where the innominate artery below divides, and also according to that +place whereat the common carotid itself divides into internal and external +carotids. In general, the length of the common carotid is considerable, and +ranges between the sterno-clavicular articulation and the level of the os +hyoides; throughout the whole of this length, it seldom or never happens that a +large arterial branch is given off from the vessel, and the operation of +ligaturing the common carotid is therefore much more likely to answer the +results required of that proceeding than can be expected from the ligature of +any part of the subclavian artery which gives off large arterial branches from +every part of its course. +</p> + +<p> +The sympathetic nerve, R, Plate 6, is as close to the carotid artery behind, as +the vagus nerve, N, Plate 5, and is as much endangered in ligaturing this +vessel. The branch of the ninth nerve, E, Plate 5, (descendens noni,) lies upon +the common carotid, itself or its sheath, and is likely to be included in the +ligature oftener than we are aware of. +</p> + +<p> +The trunk of the external carotid, D, Plate 5, is in all cases very short, and +in many bodies can scarcely be said to exist, in consequence of the thyroid, +lingual, facial, temporal, and occipital branches, springing directly from +almost the same point at which the common carotid gives off the internal +carotid artery. The internal carotid is certainly the continuation of the +common arterial trunk, while the vessel named external carotid is only a series +of its branches. If the greater size of the internal carotid artery, compared +to that of the external carotid, be not sufficient to prove that the former is +the proper continuation of the common carotid, a fact may be drawn from +comparative philosophy which will put the question beyond doubt, namely—that as +the common carotid follows the line of the cervical vertebrae, just as the +aorta follows that of the vertebrae of the trunk, so does the internal carotid +follow the line of the cephalic vertebrae. I liken, therefore, those branches +of the so-called external carotid to be, as it were, the visceral arteries of +the face and neck. It would be quite possible to demonstrate this point of +analogy, were this the place for analogical reasoning. +</p> + +<p> +The common carotid, or the internal, may be compressed against the rectus +capitis anticus major muscle, 13, Plate 6, as it lies on the fore-part of the +vertebral column. The internal maxillary artery, 16, Plate 6, and the facial +artery, G, Plate 5, are those vessels which bleed when the lower maxilla is +amputated. In this operation, the temporal artery, 15, Plate 6, will hardly +escape being divided also, it lies in such close proximity to the neck and +condyle of the jaw-bone. +</p> + +<p> +The subclavian artery, B Q, Plate 5, traverses the root of the neck, in an +arched direction from the sterno-clavicular articulation to the middle of the +shaft of the clavicle, beneath which it passes, being destined for the arm. In +general, this vessel rises to a level considerably above the clavicle; and all +that portion of the arching course which it makes at this situation over the +first rib has become the subject of operation. The middle of this arching +subclavian artery is (by as much as the thickness of the scalenus muscle, X, +Plate 5) deeper situated than either extremity of the arch of this vessel, and +deeper also than any part of the common carotid, by the same fact. So many +branches spring from all parts of the arch of the subclavian artery, that the +operation of ligaturing this vessel is less successful than the same operation +exercised on others. +</p> + +<p> +The structures which lie in connexion with the arch of the subclavian also +render the operation of tying the vessel an anxious task. It is crossed and +recrossed at all points by large veins, important nerves, and by its own +principal branches. The vagus nerve, S E, Plate 6, crosses it at B, its root; +external to which place the large internal jugular vein, K, Plate 5, lies upon +it; external to this latter, the scalenus muscle, X, Plate 5, with the phrenic +nerve lying upon the muscle, binds it fixedly to the first rib; more external +still, the common trunk of the external jugular and shoulder veins, U, Plate 5, +lie upon the vessel, and it is in the immediate vicinity of the great brachial +plexus of nerves, P P, which pass down along its humeral border, many branches +of the same plexus sometimes crossing it anteriorly. +</p> + +<p> +The depth at which the middle of the subclavian artery lies may be learned by +the space which those structures, beneath which it passes, necessarily occupy. +The clavicle at its sternal end is round and thick, where it gives attachment +to the sterno-cleido-mastoid muscle. The root of the internal jugular vein, +when injected, will be seen to occupy considerable space behind the clavicle; +and the anterior scalenus muscle is substantial and fleshy. The united spaces +occupied by these structures give the depth of the subclavian artery in the +middle part of its course. +</p> + +<p> +The length of the subclavian artery between its point of branching from the +innominate and that where it gives off its first branches varies in different +bodies, but is seldom so extensive as to assure the operator of the ultimate +success of the process of ligaturing the vessel. Above and below D, Plate 6, +the thyroid axis, come off the vertebral and internal mammary arteries internal +and anterior to the scalenus muscle. External and posterior to the scalenus, a +large vessel, the post scapular, G, Plate 6, R, Plate 5, arises. If an aneurism +attack any part of this subclavian arch, it must be in close connexion with +some one of these branches. If a ligature is to be applied to any part of the +arch, it will seldom happen that it can be placed farther than half an inch +from some of these principal collateral branches. +</p> + +<p> +When the shoulder is depressed, the clavicle follows it, and the subclavian +artery will be more exposed and more easily reached than if the shoulder be +elevated, as this latter movement raises the clavicle over the locality of the +vessel. Dupuytren alludes practically to the different depths of the subclavian +artery in subjects with short necks and high shoulders, and those with long +necks and pendent shoulders. When the clavicle is depressed to the fullest +extent, if then the sterno-cleido-mastoid and scalenus muscles be relaxed by +inclining the head and neck towards the artery, I believe it may be possible to +arrest the flow of blood through the artery by compressing it against the first +rib, and this position will also facilitate the operation of ligaturing the +vessel. +</p> + +<p> +The subclavian vein, W, Plate 5, is removed to some distance from the artery, +Q, Plate 5. The width of the scalenus muscle, X, separates the vein from the +artery. An instance is recorded by Blandin in which the vein passed in company +with the artery under the scalenus muscle. +</p> + +<h4>DESCRIPTION OF PLATES 5 & 6.</h4> + +<p> +PLATE 5. +</p> + +<p> +A. Innominate artery at its point of bifurcation. +</p> + +<p> +B. Subclavian artery crossed by the vagus nerve. +</p> + +<p> +C. Common carotid artery with the vagus nerve at its outer side, and the +descendens noni nerve lying on it. +</p> + +<p> +D. External carotid artery. +</p> + +<p> +E. Internal carotid artery with the descendens noni nerve lying on it. +</p> + +<p> +F. Lingual artery passing under the fibres of the hyo-glossus muscle. +</p> + +<p> +G. Tortuous facial artery. +</p> + +<p> +H. Temporo-maxillary artery. +</p> + +<p> +I. Occipital artery crossing the internal carotid artery and jugular vein. +</p> + +<p> +K. Internal jugular vein crossed by some branches of the cervical plexus, which +join the descendens noni nerve. +</p> + +<p> +L. Spinal accessory nerve, which pierces the sterno-mastoid muscle, to be +distributed to it and the trapezius. +</p> + +<p> +M.Cervical plexus of nerves giving off the phrenic nerve to descend the neck on +the outer side of the internal jugular vein and over the scalenus muscle. +</p> + +<p> +N. Vagus nerve between the carotid artery and internal jugular vein. +</p> + +<p> +O. Ninth or hypoglossal nerve distributed to the muscles of the tongue. +</p> + +<p> +P P. Branches of the brachial plexus of nerves. +</p> + +<p> +Q. Subclavian artery in connexion with the brachial plexus of nerves. +</p> + +<p> +R R. Post scapular artery passing through the brachial plexus. +</p> + +<p> +S. Transversalis humeri artery. +</p> + +<p> +T. Transversalis colli artery. +</p> + +<p> +U. Union of the post scapular and external jugular veins, which enter the +subclavian vein by a common trunk. +</p> + +<p> +V. Post-half of the omo-hyoid muscle. +</p> + +<p> +W. Part of the subclavian vein seen above the clavicle. +</p> + +<p> +X. Scalenus muscle separating the subclavian artery from vein. +</p> + +<p> +Y. Clavicle. +</p> + +<p> +Z. Trapezius muscle. +</p> + +<p> +1. Sternal origin of sterno-mastoid muscle of left side. +</p> + +<p> +2. Clavicular origin of sterno-mastoid muscle of right side turned down. +</p> + +<p> +3. Scalenus posticus muscle. +</p> + +<p> +4. Splenius muscle. +</p> + +<p> +5. Mastoid insertion of sterno-mastoid muscle. +</p> + +<p> +6. Internal maxillary artery passing behind the neck of lower jaw-bone. +</p> + +<p> +7. Parotid duct. +</p> + +<p> +8. Genio-hyoid muscle. +</p> + +<p> +9. Mylo-hyoid muscle, cut and turned aside. +</p> + +<p> +10. Superior thyroid artery. +</p> + +<p> +11. Anterior half of omo-hyoid muscle. +</p> + +<p> +12. Sterno-hyoid muscle, cut. +</p> + +<p> +13. Sterno-thyroid muscle, cut. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/020P5_25.jpg"> +<img src="images/020P5_25.jpg" width="468" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 5</p> +</div> + +<p> +PLATE 6. +</p> + +<p> +A. Root of the common carotid artery. +</p> + +<p> +B. Subclavian artery at its origin. +</p> + +<p> +C. Trachea. +</p> + +<p> +D. Thyroid axis of the subclavian artery. +</p> + +<p> +E. Vagus nerve crossing the origin of subclavian artery. +</p> + +<p> +F. Subclavian artery at the third division of its arch. +</p> + +<p> +G. Post scapular branch of the subclavian artery. +</p> + +<p> +H. Transversalis humeri branch of subclavian artery. +</p> + +<p> +I. Transversalis colli branch of subclavian artery. +</p> + +<p> +K. Posterior belly of omo-hyoid muscle, cut. +</p> + +<p> +L. Median nerve branch of brachial plexus. +</p> + +<p> +M. Musculo-spiral branch of same plexus. +</p> + +<p> +N. Anterior scalenus muscle. +</p> + +<p> +O. Cervical plexus giving off the phrenic nerve, which takes tributary branches +from brachial plexus of nerves. +</p> + +<p> +P. Upper part of internal jugular vein. +</p> + +<p> +Q. Upper part of internal carotid artery. +</p> + +<p> +R. Superior cervical ganglion of sympathetic nerve. +</p> + +<p> +S. Vagus nerve lying external to sympathetic nerve, and giving off t its +laryngeal branch. +</p> + +<p> +T. Superior thyroid artery. +</p> + +<p> +U. Lingual artery separated by hyo-glossus muscle from +</p> + +<p> +V. Lingual or ninth cerebral nerve. +</p> + +<p> +W. Sublingual salivary gland. +</p> + +<p> +X. Genio-hyoid muscle. +</p> + +<p> +Y. Mylo-hyoid muscle, cut and turned aside. +</p> + +<p> +Z. Thyroid cartilage. +</p> + +<p> +1. Upper part of sterno-hyoid muscle. +</p> + +<p> +2. Upper part of omo-hyoid muscle. +</p> + +<p> +3. Inferior constrictor of pharynx. +</p> + +<p> +4. Cricoid cartilage. +</p> + +<p> +5. Crico-thyroid muscle. +</p> + +<p> +6. Thyroid body. +</p> + +<p> +7. Inferior thyroid artery of thyroid axis. +</p> + +<p> +8. Sternal tendon of sterno-mastoid muscle, turned down. +</p> + +<p> +9. Clavicular portion of sterno-mastoid muscle, turned down. +</p> + +<p> +10. Clavicle. +</p> + +<p> +11. Trapezius muscle. +</p> + +<p> +12. Scalenus posticus muscle. +</p> + +<p> +13. Rectus capitis anticus major muscle. +</p> + +<p> +14. Stylo-hyoid muscle, turned aside. +</p> + +<p> +15. Temporal artery. +</p> + +<p> +16. Internal maxillary artery. +</p> + +<p> +17. Inferior dental branch of fifth pair of cerebral nerves. +</p> + +<p> +18. Gustatory branch of fifth pair of nerves. +</p> + +<p> +19. External pterygoid muscle. +</p> + +<p> +20. Internal pterygoid muscle. +</p> + +<p> +21. Temporal muscle cut to show the deep temporal branches of fifth pair of +nerves. +</p> + +<p> +22. Zygomatic arch. +</p> + +<p> +23. Buccinator muscle, with buccal nerve and parotid duct. +</p> + +<p> +24. Masseter muscle cut on the lower maxilla. +</p> + +<p> +25. Middle constrictor of pharynx. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/020P6_25.jpg"> +<img src="images/020P6_25.jpg" width="472" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 6</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap04"></a>COMMENTARY ON PLATES 7 & 8.</h2> + +<p> +THE SURGICAL DISSECTION OF THE SUBCLAVIAN AND CAROTID REGIONS, THE RELATIVE +ANATOMY OF THEIR CONTENTS. +</p> + +<p> +A perfect knowledge of the relative anatomy of any of the surgical regions of +the body must include an acquaintance with the superposition of parts contained +in each region, as well as the plane relationship of organs which hold the same +level in each layer or anatomical stratum. The dissections in Plates 7 and 8 +exhibit both these modes of relation. A portion of each of those superficial +layers, which it was necessary to divide, in order to expose a deeper organ, +has been left holding its natural level. Thus the order of superposition taken +by the integument, the fasciae, the muscles, bones, veins, nerves, and +arteries, which occupy both the surgical triangles of the neck, will be readily +recognised in the opposite Plates. +</p> + +<p> +The depth of a bloodvessel or other organ from surface will vary for many +reasons, even though the same parts in the natural order of superposition shall +overlie the whole length of the vessel or organ which we make search for. The +principal of those reasons are:—1st, that the stratified organs themselves vary +in thickness at several places; 2d, that the organ or vessel which we seek will +itself incline to surface from deeper levels occupied elsewhere; 3d, that the +normal undulations of surface will vary the depth of the particular vessels, +&c.; and 4th, that the natural mobility of the superimposed parts will +allow them to change place in some measure, and consequently influence the +relative position of the object of search. On this account it is that the +surgical anatomist chooses to give a fixed position to the subject about to be +operated on, in order to reduce the number of these difficulties as much as +possible. +</p> + +<p> +In Plate 7 will be seen the surgical relationship of parts lying in the +vicinity of the common carotid artery, at the point of its bifurcation into +external and internal carotids. At this locality, the vessel will be found, in +general, subjacent to the following mentioned structures, numbered from the +superficies to its own level—viz., the common integument and subcutaneous +adipose membrane, which will vary in thickness in several individuals; next, +the platysma myoides muscle, F L, which is identified with the superficial +fascia, investing the outer surface of the sterno-mastoid muscle; next, the +deeper layer of the same fascia, R S., which passes beneath the sterno-mastoid +muscle, but over the sheath of the vessels; and next, the sheath of the +vessels, Q, which invests them and isolates them from adjacent structures. +Though the vessel lies deeper than the level of the sterno-mastoid muscle at +this locality, yet it is not covered by the muscle in the same manner, as it is +lower down in the neck. At this place, therefore, though the actual depth of +the artery from surface will be the same, whether it be covered or uncovered by +the sterno-mastoid muscle, still we know that the locality of the vessel +relative to the parts actually superimposed will vary accordingly. This +observation will apply to the situation and relative position of all the other +vessels as well. Other occurrences will vary the relations of the artery in +regard to superjacent structures, though the actual depth of the vessel from +surface may be the same. If the internal jugular vein covers the carotid +artery, as it sometimes does, or if a plexus of veins, gathering from the +fore-part of the neck or face, overlie the vessel, or if a chain of lymphatic +bodies be arranged upon it, as is frequently the case, the knowledge of such +occurrences will guard the judgment against being led into error by the +conventionalities of the descriptive method of anatomists. The normal relative +anatomy of the bloodvessels is taken by anatomists to be the more frequent +disposition of their main trunks and branches, considered <i>per se</i>, and in +connexion with neighbouring parts. But it will be seen by this avowal that +those vessels are liable to many various conditions; and such is the case, in +fact. No anatomist can pronounce with exactness the precise figure of vessels +or other organs while they lie concealed beneath the surface. An approach to +truth is all that the best experience can boast of. The form and relations of +the carotid vessels of Plate 7 may or may not be the same as those concealed +beneath the same region of Plate 8, at the point R. +</p> + +<p> +The motions of the head upon the neck, or of the neck upon the trunk, will +influence the relative position of the vessels A C B, of Plate 7, and therefore +we take a fixed surgical position, in the expectation of finding that the +carotid artery projects from under the anterior border of the upper third of +the sterno-mastoid muscle, opposite the upper border of the thyroid cartilage; +at this situation of the vessels, viz., R, Plate 8, opposite O, the thyroid +projection, is in general to be found the anatomical relation of the vessels as +they appear dissected in Plate 7. Of these vessels, the main trunks are less +liable to anomalous character than the minor branches. +</p> + +<p> +The relative position of the subclavian artery is as liable to be influenced by +the motions of the clavicle on the sternum, as that of the carotid is by the +motions of the lower jaw-bone on the skull, or by the larynx, in its own +motions at the fore-part of the neck. It becomes as necessary, therefore, in +the performance of surgical operations upon the subclavian artery, to fix the +clavicle by depressing it, as in Plate 8, as it is to give fixity to the lower +maxilla and larynx, in the position of Plate 7, when the carotid is the subject +of operation. +</p> + +<p> +The same named structures, but different as to their parts, will be found to +overlie the subclavian artery as are found to conceal the carotid artery. The +skin, the fascia, and platysma muscle, the sterno-cleido-mastoid muscle, the +deep layer of the cervical fascia, &c., cover both vessels. One additional +muscle binds down the subclavian artery, viz., the scalenus anticus. The +omo-hyoid relates to both vessels, the anterior division to the carotid, the +posterior to the subclavian. +</p> + +<p> +The carotid artery lies uncovered by the sterno-mastoid muscle, opposite to the +upper border of the thyroid cartilage, or the hyoid bone; and the subclavian +artery emerges from under cover of a different part of the same muscle, +opposite the middle of the clavicle. These points of relationship to the +skeletal parts can be ascertained by the touch, in both instances, even in the +undissected body. The thyroid point, O, of Plate 8, indicates the line, R N, +which the carotid artery traverses in the same figure, along the anterior +border of the sterno-mastoid muscle, as seen in the dissected region of Plate +7. The mid-point of the clavicle, U, Plate 7, and the top of the sternum in the +same figure, will, while the eye follows the arching line, Z X T V, indicate +with correctness the arching course of the subclavian, such as is represented +in the dissection of that vessel, B, Plate 8. +</p> + +<p> +The subclavian artery has no special sheath, properly so called; but the deep +layer of the cervical fascia, P, Plate 8, which passes under A, the clavicular +portion of the sterno-mastoid muscle, and becomes of considerable thickness and +density, sheaths over the vessel in this region of its course. +</p> + +<p> +A very complex condition of the veins which join the external jugular at this +part of the course of the subclavian artery is now and then to be found +overlying that vessel. If the hemorrhage consequent upon the opening of these +veins, or that of the external jugular, be so profuse as to impede the +operation of ligaturing the subclavian artery, it may in some measure be +arrested by compressing them against the resisting parts adjacent, when the +operator, feeling for D, the scalenus muscle, and the first rib to which it is +attached, cannot fail to alight upon the main artery itself, B, Plate 8. +</p> + +<p> +The middle of the shaft of the clavicle is a much safer guide to the vessel +than are the muscles which contribute to form this posterior triangle of the +neck, in which the subclavian vessel is located. The form or position of the +clavicle in the depressed condition of the shoulder, as seen in Plate 8, is +invariable; whereas that of the trapezius and sterno-mastoid muscles is +inconstant, these muscles being found to stand at unequal intervals from each +other in several bodies. The space between the insertions of both these muscles +is indefinite, and may vary in degrees of width from the whole length of the +clavicle to half an inch; or, as in some instances, leaving no interval +whatever. The position of the omo-hyoid muscle will not be accounted a sure +guide to the locality of the subclavian artery, since, in fact, it varies +considerably as to its relationship with that vessel. The tense cords of the +brachial plexus of nerves, F, Plate 8, which will be found, for the most part, +ranging along the acromial border of the artery, are a much surer guide to the +vessel. +</p> + +<p> +On comparing the subclavian artery, at B, Plate 8, with the common carotid +artery, at A, Plate 7, I believe that the former will be found to exhibit, on +the whole a greater constancy in respect to the following-mentioned +condition—viz., a <i>single</i> main arterial trunk arches over the first rib +to pass beneath the middle of the clavicle, while the carotid artery opposite +the thyroid piece of the larynx is by no means constantly single as a common +carotid trunk. The place of division of the common carotid is not definite, +and, therefore, the precise situation in the upper two-thirds of the neck, +where it may present as a single main vessel, cannot be predicted with +certainty in the undissected body. There is no other main artery of the body +more liable to variation than that known as external carotid. It is subject to +as many changes of character in respect to the place of its branching from the +common carotid, and also in regard to the number of its own branches, as any of +the lesser arteries of the system. It is but as an aggregate of the branches of +that main arterial trunk which ranges from the carotid foramen of the temporal +bone to the aorta; and, as a branch of a larger vessel, it is, therefore, +liable to spring from various places of the principal trunk, just as we find to +be the case with all the other minor branches of the larger arteries. Its name, +external carotid, is as unfittingly applied to it, in comparison with the +vessel from which it springs, as the name external subclavian would be if +applied to the thyroid axis of the larger subclavian vessel. The nomenclature +of surgical anatomy does not, however, court a philosophical inquiry into that +propriety of speech which comparative science demands, nor is it supposed to be +necessary in a practical point of view. +</p> + +<p> +It will, however, sound more euphoneously with reason, and at the same time, I +believe, be found not altogether unrelated to the useful, if, when such +conditions as the “anomalies of form” present themselves, we can advance an +interpretation of the same, in addition to the dry record of them as isolated +facts. Comparative anatomy, which alone can furnish these interpretations, will +therefore prove to be no alien to the practical, while it may lend explanation +to those bizarreries which impede the way of the anthropotomist. All the +anomalies of form, both as regards the vascular, the muscular, and the osseous +systems of the human body, are analyzed by comparison through the animal +series. Numerous cases are on record of the subclavian artery being found +complicated with supernumerary ribs jutting from the 5th, 6th, or 7th cervical +vertebrae. [Footnote] To these I shall add another, in respect of the carotid +arteries—viz., that I have found them complicated with an osseous shaft of +bone, taking place of the stylo-hyoid ligament, a condition which obtains +permanently in the ruminant and other classes of mammals. +</p> + +<p> +[Footnote: I have given an explanation of these facts in my work on Comparative +Osteology and the Archetype Skeleton, to which, and also to Professor Owen’s +work, entitled Homologies of the Vertebrate Skeleton, I refer the reader.] +</p> + +<h4>DESCRIPTION OF PLATES 7 & 8.</h4> + +<p> +PLATE 7. +</p> + +<p> +A. Common carotid at its place of division. +</p> + +<p> +B. External carotid. +</p> + +<p> +C. Internal carotid, with the descending branch of the ninth nerve lying on it. +</p> + +<p> +D. Facial vein entering the internal jugular vein. +</p> + +<p> +E. Sterno-mastoid muscle, covered by +</p> + +<p> +F. Part of the platysma muscle. +</p> + +<p> +G. External jugular vein. +</p> + +<p> +H. Parotid gland, sheathed over by the cervical fascia. +</p> + +<p> +I. Facial vein and artery seen beneath the facial fibres of the platysma. +</p> + +<p> +K. Submaxillary salivary gland. +</p> + +<p> +L. Upper part of the platysma muscle cut. +</p> + +<p> +M. Cervical fascia cut. +</p> + +<p> +N. Sterno-hyoid muscle. +</p> + +<p> +O. Omo-hyoid muscle. +</p> + +<p> +P. Sterno-thyroid muscle. +</p> + +<p> +Q. Fascia proper of the vessels. +</p> + +<p> +R. Layer of the cervical fascia beneath the sterno-mastoid muscle. +</p> + +<p> +S. Portion of the same fascia. +</p> + +<p> +T. External jugular vein injected beneath the skin. +</p> + +<p> +U. Clavicle at the mid-point, where the subclavian artery passes beneath it. +</p> + +<p> +V. Locality of the subclavian artery in the third part of its course. +</p> + +<p> +W. Prominence of the trapezius muscle. +</p> + +<p> +X. Prominence of the clavicular portion of the sterno-cleido-mastoid muscle. +</p> + +<p> +Y. Place indicating the interval between the clavicular and sternal insertions +of sterno-cleido-mastoid muscle. +</p> + +<p> +Z. Projection of the sternal portion of the sterno-cleido-mastoid muscle. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/024P7_25.jpg"> +<img src="images/024P7_25.jpg" width="491" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 7</p> +</div> + +<p> +PLATE 8. +</p> + +<p> +A. Clavicular attachment of the sterno-mastoid muscle lying over the internal +jugular vein, &c. +</p> + +<p> +B. Subclavian artery in the third part of its course. +</p> + +<p> +C. Vein formed by the union of external jugular, scapular, and other veins. +</p> + +<p> +D. Scalenus anticus muscle stretching over the artery, and separating it from +the internal jugular vein. +</p> + +<p> +E. Post-half of omo-hyoid muscle. +</p> + +<p> +F. Inner branches of the brachial plexus of nerves. +</p> + +<p> +G. Clavicular portion of trapezius muscle. +</p> + +<p> +H. Transversalis colli artery. +</p> + +<p> +I. Layer of the cervical fascia, which invests the sterno-mastoid and trapezius +muscles. +</p> + +<p> +K. Lymphatic bodies lying between two layers of the cervical fascia. +</p> + +<p> +L. Descending superficial branches of the cervical plexus of nerves. +</p> + +<p> +M. External jugular vein seen under the fascia which invests the sterno-mastoid +muscle. +</p> + +<p> +N. Platysma muscle cut on the body of sterno-mastoid muscle. +</p> + +<p> +O. Projection of the thyroid cartilage. +</p> + +<p> +P. Layer of the cervical fascia lying beneath the clavicular portion of the +sterno-mastoid muscle. +</p> + +<p> +Q. Layer of the cervical fascia continued from the last over the subclavian +artery and brachial plexus of nerves. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/024P8_25.jpg"> +<img src="images/024P8_25.jpg" width="489" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 8</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap05"></a>COMMENTARY ON PLATES 9 & 10.</h2> + +<p> +THE SURGICAL DISSECTION OF THE STERNO-CLAVICULAR OR TRACHEAL REGION, AND THE +RELATIVE POSITION OF ITS MAIN BLOODVESSELS, NERVES, &c. +</p> + +<p> +The law of symmetry governs the development of all structures which compose the +human body; and all organized beings throughout the animal kingdom are produced +in obedience to this law. The general median line of the human body is +characterized as the point of fusion of the two sides; and all structures or +organs which range this common centre are either symmetrically azygos, or +symmetrically duplex. The azygos organ presents as a symmetrical unity, and the +duplex organ as a symmetrical duality. The surgical anatomist takes a studious +observation of this law of symmetry; and knowing it to be one of general and +almost unexceptional occurrence, he practises according to its manifestation. +</p> + +<p> +The vascular as well as the osseous skeleton displays the law of symmetry; but +while the osseous system offers no exception to this law, the vascular system +offers one which, in a surgical point of view, is of considerable +importance—namely, that behind the right sterno-clavicular articulation, C, +Plate 9, is found the artery, A, named innominate, this being the common trunk +of the right common carotid and subclavian vessels; while on the left side, +behind the left sterno-clavicular junction, Q, Plate 10, the two vessels +(subclavian, B, and carotid, A,) spring separately from the aortic arch. This +fact of asymmetrical arrangement in the arterial trunks at the fore part of the +root of the neck is not, however, of invariable occurrence; on the contrary, +numerous instances are observed where the arteries in question, on the right +side as well as the left, arise separately from the aorta; and thus Nature +reverts to the original condition of perfect symmetry as governing the +development of even the vascular skeleton. And not unfrequently, as if to +invite us to the inquiry whether a separate origin of the four vessels +(subclavian and carotid) from the aorta, or a double innominate condition of +the vessels, were the original form with Nature, we find her also presenting +this latter arrangement of them. An innominate or common aortic origin may +happen for the carotid and subclavian arteries of the left side, as well as the +right. Hence, therefore, while experience may arm the judgment with a general +rule, such generality should not render us unmindful of the possible exception. +</p> + +<p> +When, as in Plate 9, A, the innominate artery rises to a level with C, the +right sterno-clavicular junction, and when at this place it bifurcates, having +on its left side, D, the trachea, and on its right side, B, the root of the +internal jugular vein, together with <i>a</i>, the vagus nerve, the arterial +vessel is said to be of normal character, and holding a normal position +relative to adjacent organs. When, as in Plate 10, A, the common carotid, and +B, the subclavian artery, rise separately from the aortic arch to a level with +Q, the left sterno-clavicular articulation, the vessels having M, the trachea, +to their inner side, and C D, the junction of the internal jugular and +subclavian veins, to their outer side, with <i>b</i>, the left vagus nerve, +between them, then the arterial vessels are accounted as being of normal +character, and as holding a normal relative position. Every exception to this +condition of A, Plate 9, or to that of A B, Plate 10, is said to be abnormal or +peculiar, and merely because the disposition of the vessels, as seen in Plates +9 and 10, is taken to be general or of more frequent occurrence. +</p> + +<p> +Now, though it is not my present purpose to burden this subject of regional +anatomy with any lengthy inquiry into the comparative meaning of the facts, why +a common innominate trunk should occur on the right of the median line, while +separate arterial trunks for the carotid and subclavian arteries should spring +from the aorta on the left of this mid-line, thus making a remarkable exception +to the rule of symmetry which characterizes all the arterial vessels elsewhere, +still I cannot but regard this exceptional fact of asymmetry as in itself +expressing a question by no means foreign to the interests of the practical. +</p> + +<p> +In the abstract or general survey of all those peculiarities of length to which +the innominate artery, A, Plate 9, is subject, I here lay it down as a +proposition, that they occur as graduated phases of the bicleavage of this +innominate trunk from the level of A, to the aortic arch, in which latter +phasis the aorta gives a separate origin to the carotid and subclavian vessels +of the right side as well as the left. On the other hand, I observe that the +peculiarities to the normal separate condition of A and B, the carotid and +subclavian arteries of Plate 10, display, in the relationary aggregate, a +phasial gradation of A and B joining into a common trunk union, in which state +we then find the aorta giving origin to a right and left innominate artery. +Between these two forms of development—viz., that where the four vessels spring +separately from the aortic arch, and that where two innominate or +brachio-cephalic arteries arise from the same—may be read all the sum of +variation to which these vessels are liable. It is true that there are some +states of these vessels which cannot be said to be naturally embraced in the +above generalization; but though I doubt not that these might be encompassed in +a higher generalization; still, for all practical ends, the lesser general rule +is all-sufficient. +</p> + +<p> +In many instances, the innominate artery, A, Plate 9, is of such extraordinary +length, that it rises considerably (for an inch, or even more) above the level +of C, the sternal end of the clavicle. In other cases, the innominate artery +bifurcates soon after it leaves the first part of the aortic arch; and between +these extremes as to length, the vessel varies infinitesimally. +</p> + +<p> +The innominate artery lies closer behind the right sterno-clavicular junction +than the left carotid or subclavian arteries lie in relation to the left +sterno-clavicular articulation; and this difference of depth between the vessel +of the right side and those of the left is mainly owing to the form and +direction of the aortic arch from which they take origin. The aortic arch +ranges, not alone transversely, but also from before backward, and to the left +side of the dorsal spine; and consequently, as the innominate artery, A, Plate +9, springs from the first or fore part of the aorta, while the left carotid and +subclavian arteries arise from the second and deeper part of its arch, the +vessels of both sides rising into the neck perpendicularly from the root in the +thorax, will still, in the cervical region, manifest a considerable difference +as to antero-posterior depth. The depth of the left subclavian artery, B, Plate +10, from cervical surface, is even greater than that of the left common +carotid, A, Plate 10, and this latter, at its root in the aortic arch, is +deeper than the innominate artery. Both common carotids, A A, Plates 9 and 10, +hold nearly the same antero-posterior depth on either side of the trachea, M, +Plate 10, and D, Plate 9. Although the relative depth of the arterial vessels +on both sides of the trachea is different, still they are covered by an equal +number of identical structures, taking the same order of superposition. +</p> + +<p> +On either side of the episternal cervical pit, which, even in the undissected +body of male or female, infant or adult, is always a well-marked surgical +feature, may be readily recognised the converging sternal attachments of the +sterno-mastoid muscles, L G, Plate 10; and midway between these symmetrical +muscular prominences in the neck, but holding a deeper level than them, is +situated that part of the trachea which is generally the subject of the +operation of tracheotomy. The relative anatomy of the trachea, M, Plate 10, D, +Plate 9, at this situation requires therefore to be carefully considered. The +trachea is said to incline rather to the right side of the median line; but +perhaps this observation would be more true to nature if it were accompanied by +the remark, that this seeming inclination to the right side is owing to the +fact, that the innominate artery, A, Plate 9, lies obliquely over its fore +part, near the sternum. However this may be, it certainly will be the safer +step in the operation to regard the median position of the trachea as fixed, +than to encroach upon the locality of the carotid vessels; and to make the +incision longitudinally and exactly through the median line, while the neck is +extended backwards, and the chin made to correspond with the line of incision. +And when the operator takes into consideration the situation of the vessel A, +Plate 9, and A, Plate 10, at this region of the neck, he will at once own to +the necessity of opening the trachea, D, Plate 9, M, Plate 10, at a situation +nearer the larynx than the point marked in the figures. The course taken by the +common carotid arteries is, in respect to the trachea, divergent from below +upwards; and as these vessels will consequently be found to stand wider apart +at the level of K, I, Plate 10, than they do at the level of M, Plate 10, so +the farther upwards from the sternum we choose the point at which to open the +trachea, the less likely are we to endanger the great arterial vessels. +</p> + +<p> +In addition to the fact, that the carotid arteries at an inch above the sternum +lie nearer the median line than they do higher up in the neck, it should always +be remembered, that the trachea itself is situated much deeper at the point M, +Plate 10, D, Plate 9, than it is opposite the points F and K of the same +figures. The laryngo-tracheal line is, in the lateral view of the neck, +downwards and backwards, and therefore it will be found always at a +considerable depth from cervical surface, as it passes behind the first bone of +the sternum, midway between both sterno-mastoid muscles. +</p> + +<p> +In the operation of tracheotomy, the cutting instrument divides the following +named structures as they lie beneath the common integument: If the incision be +made directly upon the median line, the muscles F, sterno-hyoid, and E, +sterno-thyroid, Plate 9, are not necessarily divided, as these structures and +their fellows hold a somewhat lateral position opposite to each other. Beneath +these muscles and above them, thus encasing them, the cervical fascia, <i>f +f,</i> Plate 10, is required to be divided, in order to expose the trachea. +Beneath <i>f f </i>the cervical fascia, will next be felt the rounded bilobed +mass of the thyroid body, lying on the forepart of the trachea; above the +thyroid body, the cricoid and some tracheal cartilaginous rings will be felt; +and since the thyroid body varies much as to bulk in several individuals of the +same and different sexes, as also from a consideration that its substance is +traversed by large arterial and venous vessels, it will be therefore preferable +to open the trachea above it, than through it or below it. +</p> + +<p> +On the forepart of the tracheal median line, either superficial to, or deeper +than, the cervical fascia, the tracheotomist occasionally meets with a chain of +lymphatic glands or a plexus of veins, which latter, when divided, will trammel +the operation by the copious haemorrhage which all veins at this region of the +neck are prone to supply, owing to their direct communication with the main +venous trunks of the heart; and not unfrequently the inferior thyroid artery +overlies the trachea at the point D, Plate 9, when this thyroid vessel arises +directly from the arch of the aorta, between the roots of the innominate and +left common carotid, or when it springs from the innominate itself. The +inferior thyroid vein, sometimes single and sometimes double, overlies the +trachea at the point D, Plate 9, when this vein opens into the left innominate +venous trunk, as this latter crosses over the root of the main arteries +springing from the aorta. +</p> + +<p> +Laryngotomy is, anatomically considered, a far less dangerous operation than +tracheotomy, for the above-named reasons; and the former should always be +preferred when particular circumstances do not render the latter operation +absolutely necessary. In addition to the fact, that the carotid arteries lie +farther apart from each other and from the median place—viz., the crico-thyroid +interval, which is the seat of laryngotomy—than they do lower down on either +side of the trachea, it should also be noticed that the tracheal tube being +more moveable than the larynx, is hence more liable to swerve from the cutting +instrument, and implicate the vessels. Tracheotomy on the infant is a far more +anxious proceeding than the same operation performed on the adult; because the +trachea in the infant’s body lies more closely within the embrace of the +carotid arteries, is less in diameter, shorter, and more mobile than in the +adult body. +</p> + +<p> +The episternal or interclavicular region is a locality traversed by so many +vitally important structures gathered together in a very limited space, that +all operations which concern this region require more steady caution and +anatomical knowledge than most surgeons are bold enough to test their +possession of. The reader will (on comparing Plates 9 and 10) be enabled to +take account of those structures which it is necessary to divide in the +operation required for ligaturing the innominate artery, A, Plate 9, or either +of those main arterial vessels (the right common carotid and subclavian) which +spring from it; and he will also observe that, although the same number and +kind of structures overlie the carotid and subclavian vessels, A B, of the left +side, Plate 10, still, that these vessels themselves, in consequence of their +separate condition, will materially influence the like operation in respect to +them. An aneurism occurring in the first part of the course of the right +subclavian artery, at the locality <i>a</i>, Plate 9, will lie so close to the +origin of the right common carotid as to require a ligature to be passed around +the innominate common trunk, thus cutting off the flow of blood from both +vessels; whereas an aneurism implicating either the left common carotid at the +point A, or the left subclavian artery at the point B, does not, of course, +require that both vessels should be included in the same ligature. There seems +to be, therefore, a greater probability of effectually treating an aneurism of +the left brachio-cephalic vessels by ligature than attaches to those of the +right side; for if space between collateral branches, and also a lesser caliber +of arterial trunk, be advantages, allowing the ligature to hold more firmly, +then the vessels of the left side of the root of the neck manifest these +advantages more frequently than those of the right, which spring from a common +trunk. Whenever, therefore, the “peculiarity” of a separate aortic origin of +the right carotid and subclavian arteries occurs, it is to be regarded more as +a happy advantage than otherwise. +</p> + +<h4>DESCRIPTION OF PLATES 9 & 10.</h4> + +<p> +PLATE 9. +</p> + +<p> +A. Innominate artery, at its point of bifurcation. +</p> + +<p> +B. Right internal jugular vein, joining the subclavian vein. +</p> + +<p> +C. Sternal end of the right clavicle. +</p> + +<p> +D. Trachea. +</p> + +<p> +E. Right sterno-thyroid muscle, cut. +</p> + +<p> +F. Right sterno-hyoid muscle, cut. +</p> + +<p> +G. Right sterno-mastoid muscle, cut. +</p> + +<p> +<i>a</i>. Right vagus nerve, crossing the subclavian artery. +</p> + +<p> +<i>b</i>. Anterior jugular vein, piercing the cervical fascia to join the +subclavian vein. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/028P9_25.jpg"> +<img src="images/028P9_25.jpg" width="396" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 9</p> +</div> + +<p> +PLATE 10. +</p> + +<p> +A. Common carotid artery of left side. +</p> + +<p> +B. Left subclavian artery, having <i>b</i>, the vagus nerve, between it and A. +</p> + +<p> +C. Lower end of left internal jugular vein, joining— +</p> + +<p> +D. Left subclavian vein, which lies anterior to <i>d</i>, the scalenus anticus +muscle. +</p> + +<p> +E. Anterior jugular vein, coursing beneath sterno-mastoid muscle and over the +fascia. +</p> + +<p> +F. Deep cervical fascia, enclosing in its layers <i>f f f,</i> the several +muscles. +</p> + +<p> +G. Left sterno-mastoid muscle, cut across, and separated from <i>g g</i>, its +sternal and clavicular attachments. +</p> + +<p> +H. Left sterno-hyoid muscle, cut. +</p> + +<p> +I. Left sterno-thyroid muscle, cut. +</p> + +<p> +K. Right sterno-hyoid muscle. +</p> + +<p> +L. Right sterno-mastoid muscle. +</p> + +<p> +M. Trachea. +</p> + +<p> +N. Projection of the thyroid cartilage. +</p> + +<p> +O. Place of division of common carotid. +</p> + +<p> +P. Place where the subclavian artery passes beneath the clavicle. +</p> + +<p> +Q. Sternal end of the left clavicle. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/028P10_25.jpg"> +<img src="images/028P10_25.jpg" width="406" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 10</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap06"></a>COMMENTARY ON PLATES 11 & 12.</h2> + +<p> +THE SURGICAL DISSECTION OF THE AXILLARY AND BRACHIAL REGIONS, DISPLAYING THE +RELATIVE ORDER OF THEIR CONTAINED PARTS. +</p> + +<p> +All surgical regions have only artificial boundaries; and these, as might be +expected, do not express the same meaning while viewed from more points than +one. These very boundaries themselves, being moveable parts, must accordingly +influence the relative position of the structures which they bound, and thus +either include within or exclude from the particular region those structures +wholly or in part which are said to be proper to it. Of this kind of +conventional surgical boundary the moveable clavicle is an example; and the +bloodvessels which it overarches manifest consequently neither termination nor +origin except artificially from the fixed position which the bone, R, assumes, +as in Plate 11, or <i>c</i>*, Plate 12. In this position of the arm in relation +to the trunk, the subclavian artery, B, terminates at the point where, properly +speaking, it first takes its name; and from this point to the posterior fold of +the axilla formed by the latissimus dorsi muscle, O, Plate 11, N, Plate 12, and +the anterior fold formed by the great pectoral muscle, K, Plate 11, I, Plate +12, the continuation of the subclavian artery is named axillary. From the +posterior fold of the axilla, O P, Plate 11, to the bend of the elbow, the same +main vessels take the name of brachial. +</p> + +<p> +When the axillary space is cut into from the forepart through the great +pectoral muscle, H K, Plate 11, and beneath this through the lesser pectoral +muscle, L I, together with the fascial processes which invest these muscles +anteriorly and posteriorly, the main bloodvessels and nerves which traverse +this space are displayed, holding in general that relative position which they +exhibit in Plate 11. These vessels, with their accompanying nerves, will be +seen continued from those of the neck; and thus may be attained in one view a +comparative estimate of the cervical and axillary regions, together with their +line of union beneath the clavicle, <i>c</i>*, Plate 12, R, Plate 11, which +serves to divide them surgically. +</p> + +<p> +In the neck, the subclavian artery, B, Plate 11, is seen to be separated from +the subclavian vein, A, by the breadth of the anterior scalenus muscle, D, as +the vessels arch over the first rib, F. In this region of the course of the +vessels, the brachial plexus of nerves, C, ranges along the outer border of the +artery, B, and is separated by the artery from the vein, A, as all three +structures pass beneath the clavicle, R, and the subclavius muscle, E. From +this latter point the vessels and nerves take the name axillary, and in this +axillary region the relative position of the nerves and vessels to each other +and to the adjacent organs is somewhat changed. For now in the axillary region +the vein, <i>a</i>, is in direct contact with the artery, <i>b,</i> on the +forepart and somewhat to the inner side of which the vein lies; while the +nerves, D, <i>d,</i> Plate 12, embrace the artery in a mesh or plexus of +chords, from which it is often difficult to extricate it, for the purpose of +ligaturing, in the dead subject, much less the living. The axillary plexus of +nerves well merits the name, for I have not found it in any two bodies assuming +a similar order or arrangement. Perhaps the order in which branches spring from +the brachial plexus that is most constantly met with is the one represented at +D, Plate 12, where we find, on the outer border of B, the axillary artery, a +nervous chord, <i>d,</i> giving off a thoracic branch to pass behind H, the +lesser pectoral muscle, while the main chord itself, <i>d</i>, soon divides +into two branches, one the musculo-cutaneous, <i>e,</i> which pierces G, the +coraco-brachialis muscle, and the other which forms one of the roots of the +median nerve, <i>h</i>. Following that order of the nerves as they are shown in +Plate 12, they may be enumerated from without inwards as follows:—the external +or musculo-cutaneous, <i>e</i>; the two roots of the median, <i>h</i>; the +ulnar, <i>f</i>; the musculo-spiral, <i>g</i>; the circumflex, <i>i</i>; close +to which are seen the origins of the internal cutaneous, the nerve of Wrisberg, +some thoracic branches, and posteriorly the subscapular nerve not seen in this +view of the parts. +</p> + +<p> +The branches which come off from the axillary artery are very variable both as +to number and place of origin, but in general will be found certain branches +which answer to the names thoracic, subscapular, and circumflex. These vessels, +together with numerous smaller arteries, appear to be confined to no fixed +point of origin, and on this account the place of election for passing a +ligature around the main axillary artery sufficiently removed from collateral +branches must be always doubtful. The subscapular artery, Q, Plate 12, is +perhaps of all the other branches that one which manifests the most permanent +character; its point of origin being in general opposite the interval between +the latissimus and sub-scapular muscles, but I have seen it arise from all +parts of the axillary main trunk. If it be required to give, in a history of +the arteries, a full account of all the deviations from the so-called normal +type to which these lesser branches here and elsewhere are subject, such +account can scarcely be said to be called for in this place. +</p> + +<p> +The form of the axillary space is conical, while the arm is abducted from the +side, and while the osseous and muscular structures remain entire. The apex of +the cone is formed at the root of the neck beneath the clavicle, R, Plate 11, +and the subclavious muscle, E, and between the coracoid process, L*, of the +scapula and the serratus magnus muscle, as this lies upon the thoracic side; at +this apex the subclavian vessels, A B, enter the axillary space. The base of +the cone is below, looking towards the arm, and is formed in front by the +pectoralis major, K H, and behind by the latissimus dorsi, O, and teres +muscles, P, together with a dense thick fascia; at this base the axillary +vessels, <i>a b</i>, pass out to the arm, and become the brachial vessels, +<i>a*b*</i>. The anterior side of the cone is formed by the great pectoral +muscle, H K, Plate 11, and the lesser pectoral, L I. The inner side is formed +by the serratus magnus muscle, M, Plate 12, on the side of the thorax; the +external side is formed by the scapular and humeral insertion of the +subscapular muscle, the humerus and coraco-brachialis muscle; and the posterior +side is formed by the latissimus dorsi, the teres and body of the subscapular +muscle. +</p> + +<p> +In this axillary region is contained a complicated mass of bloodvessels, +nerves, and lymphatic glands, surrounded by a large quantity of loose cellular +membrane and adipose tissue. All the arterial branches here found are given off +from the axillary artery; and the numerous veins which accompany these branches +enter the axillary vein. Nerves from other sources besides those of the +axillary plexus traverse the axillary space; such nerves, for example, as those +named intercosto-humeral, seen lying on the latissimus tendon, O, Plate 11. The +vein named cephalic, S, enters the axillary space at that cellular interval +occurring between the clavicular origin of the deltoid muscle, G, and the +humeral attachment of the pectoralis major, H, which interval marks the place +of incision for tying the axillary artery. +</p> + +<p> +The general course of the main vessels through the axillary space would be +indicated with sufficient accuracy by a line drawn from the middle of the +clavicle, R R, Plate 11, to the inner border of the biceps muscle, N. In this +direction of the axillary vessels, the coracoid process, L*, from which arises +the tendon of the pectoralis minor muscle, L, is to be taken as a sure guide to +the place of the artery, <i>b</i>, which passes, in general, close to the inner +side of this bony process. Even in the undissected body the coracoid process +may be felt as a fixed resisting point at that cellular interval between the +clavicular attachments of the deltoid and great pectoral muscles. Whatever +necessity shall require a ligature to be placed around the axillary in +preference to the subclavian artery, must, of course, be determined by the +particular case; but certain it is that the main artery, at the place B, a +little above the clavicle, will always be found freer and more isolated from +its accompanying nerves and vein, and also more easily reached, owing to its +comparatively superficial situation, than when this vessel has become axillary. +The incision required to be made, in order to reach the axillary artery, +<i>b</i>, from the forepart, through the skin, both pectoral muscles, and +different layers of fasciae, must be very deep, especially in muscular, +well-conditioned bodies; and even when the level of the vessel is gained, it +will be found much complicated by its own branches, some of which overlie it, +as also by the plexus of nerves, D, Plate 12, which embraces it on all sides, +while the large axillary vein, <i>a</i>, Plate 11, nearly conceals it in front. +This vein in Plate 11 is drawn somewhat apart from the artery. +</p> + +<p> +Sometimes the axillary artery is double, in consequence of its high division +into brachial branches. But as this peculiarity of premature division never +takes place so high up as where the vessel, B, Plate 11, overarches the first +rib, F, this circumstance should also have some weight with the operator. +</p> + +<p> +When we view the relative position of the subclavian vessels, A B, Plate 11, to +the clavicle, R, we can readily understand why a fracture of the middle of this +bone through that arch which it forms over the vessels, should interfere with +the free circulation of the blood which these vessels supply to the arm. When +the clavicle is severed at its middle, the natural arch which the bone forms +over the vessels and nerves is lost, and the free moving broken ends of the +bone will be acted on in opposing directions by the various muscles attached to +its sternal and scapular extremities. The outer fragment follows more freely +than the inner piece the action of the muscles; but, most of all, the weight of +the unsupported shoulder and arm causes the displacement to which the outer +fragment is liable. The subclavius muscle, E, like the pronator quadratus +muscle of the forearm, serves rather to further the displacement of the broken +ends of the bone than to hold them in situ. +</p> + +<p> +If the head of the humerus be dislocated forwards beneath L, Plate 11, the +coracoid attachment of the pectoralis minor muscle, it must press out of their +proper place and put tensely upon the stretch the axillary vessels and plexus +of nerves. So large and resistent a body as the head of the humerus displaced +forwards, and taking the natural position of these vessels and nerves, will +accordingly be attended with other symptoms—such as obstructed circulation and +pain or partial paralysis, besides those physical signs by which we distinguish +the presence of it as a new body in its abnormal situation. +</p> + +<p> +When the main vessels and nerves pass from the axillary space to the inner side +of the arm, they become comparatively superficial in this latter situation. The +inner border of the biceps muscle is taken as a guide to the place of the +brachial artery for the whole extent of its course in the arm. In plate 11, the +artery, <i>b*</i>, is seen in company with the median nerve, which lies on its +fore part, and with the veins called <i>comites</i> winding round it and +passing with it and the nerve beneath the fascia which encases in a fold of +itself all three structures in a common sheath. Though the axillary vein is in +close contact with the axillary artery and nerves, yet the basilic vein, +<i>d</i>*, the most considerable of those vessels which form the axillary vein, +is separated from the brachial artery by the fascia. The basilic vein, however, +overlies the brachial artery to its inner side, and is most commonly attended +by the internal cutaneous nerve, seen lying upon it in Plate 11, as also by +that other cutaneous branch of the brachial plexus, named the nerve of +Wrisberg. If a longitudinal incision in the course of the brachial artery be +made (avoiding the basilic vein) through the integument down to the fascia of +the arm, and the latter structure be slit open on the director, the artery will +be exposed, having the median nerve lying on its outer side in the upper third +of the arm, and passing to its inner side towards the bend of the elbow, as at +<i>b</i>*, Plate 12. The superior and inferior profunda arteries, seen +springing above and below the point <i>b</i>, Plate 12, are those vessels of +most importance which are given off from the brachial artery, but the situation +of their origin is very various. The ulnar nerve, <i>f</i>, lies close to the +inner side of the main arterial trunk, as this latter leaves the axilla, but +from this place to the inner condyle, Q, behind which the ulnar nerve passes +into the forearm, the nerve and artery become gradually more and more separated +from each other in their descent. The musculo-spiral nerve, <i>g,</i> winds +under the brachial artery at the middle of the arm, but as this nerve passes +deep between the short and long heads of the triceps muscle, P, and behind the +humerus to gain the outer aspect of the limb, a little care will suffice for +avoiding the inclusion of it in the ligature. +</p> + +<p> +The brachial artery may be so effectually compressed by the fingers on the +tourniquet, against the humerus in any part of its course through the arm, as +to stop pulsation at the wrist. +</p> + +<p> +The tourniquet is a less manageable and not more certain compressor of the +arterial trunk than is the hand of an intelligent assistant. At every region of +the course of an artery where the tourniquet is applicable, a sufficient +compression by the hand is also attainable with greater ease to the patient; +and the hand may compress the vessel at certain regions where the tourniquet +would be of little or no use, or attended with inconvenience, as in the +locality of the subclavian artery, passing over the first rib, or the femoral +artery, passing over the pubic bone, or the carotid vessels in the +neighbourhood of the trachea, as they lie on the fore part of the cervical +spinal column. +</p> + +<h4>DESCRIPTION OF PLATES 11 & 12.</h4> + +<p> +PLATE 11. +</p> + +<p> +A. Subclavian vein, crossed by a branch of the brachial plexus given to the +subclavius muscle; <i>a</i>, the axillary vein; <i>a</i> *, the basilic vein, +having the internal cutaneous nerve lying on it. +</p> + +<p> +B. Subclavian artery, lying on F, the first rib; <i>b</i>, the axillary artery; +<i>b </i>*, the brachial artery, accompanied by the median nerve and venae +comites. +</p> + +<p> +C. Brachial plexus of nerves; <i>c</i>*, the median nerve. +</p> + +<p> +D. Anterior scalenus muscle. +</p> + +<p> +E. Subclavius muscle. +</p> + +<p> +F F. First rib. +</p> + +<p> +G. Clavicular attachment of the deltoid muscle. +</p> + +<p> +H. Humeral attachment of the great pectoral muscle. +</p> + +<p> +I. A layer of fascia, encasing the lesser pectoral muscle. +</p> + +<p> +K. Thoracic half of the great pectoral muscle. +</p> + +<p> +L. Coracoid attachment of the lesser pectoral muscle. +</p> + +<p> +L*. Coracoid process of the scapula. +</p> + +<p> +M. Coraco-brachialis muscle. +</p> + +<p> +N. Biceps muscle. +</p> + +<p> +O. Tendon of the latissimus dorsi muscle, crossed by the intercosto-humeral +nerves. +</p> + +<p> +P. Teres major muscle, on which and O is seen lying Wrisberg’s nerve. +</p> + +<p> +Q. Brachial fascia, investing the triceps muscle. . +</p> + +<p> +R R. Scapular and sternal ends of the clavicle. +</p> + +<p> +S. Cephalic vein, coursing between the deltoid and pectoral muscles, to enter +at their cellular interval into the axillary vein beneath E, the subclavius +muscle. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/032P11_25.jpg"> +<img src="images/032P11_25.jpg" width="800" height="577" alt="Illustration:" /></a> +<p class="caption">Plate 11</p> +</div> + +<p> +PLATE 12. +</p> + +<p> +A. Axillary vein, cut and tied; <i>a</i>, the basilic vein, cut. +</p> + +<p> +B. Axillary artery; <i>b</i>, brachial artery, in the upper part of its course, +having <i>h</i>, the median nerve, lying rather to its outer side; <i>b</i>*, +the artery in the lower part of its course, with the median nerve to its inner +side. +</p> + +<p> +C. Subclavius muscle. +</p> + +<p> +C*. Clavicle. +</p> + +<p> +D. Axillary plexus of nerves, of which <i>d</i> is a branch on the coracoid +border of the axillary artery; <i>e</i>, the musculo-cutaneous nerve, piercing +the coraco-brachialis muscle; <i>f</i>, the ulnar nerve; <i>g</i>, +musculo-spiral nerve; <i>h</i>, the median nerve; <i>i</i>, the circumflex +nerve. +</p> + +<p> +E. Humeral part of the great pectoral muscle. +</p> + +<p> +F. Biceps muscle. +</p> + +<p> +G. Coraco-brachialis muscle. +</p> + +<p> +H. Thoracic half of the lesser pectoral muscle. +</p> + +<p> +I. Thoracic half of the greater pectoral muscle. +</p> + +<p> +K. Coracoid attachment of the lesser pectoral muscle. +</p> + +<p> +K*. Coracoid process of the scapula. +</p> + +<p> +L. Lymphatic glands. +</p> + +<p> +M. Serratus magnus muscle. +</p> + +<p> +N. Latissimus dorsi muscle. +</p> + +<p> +O. Teres major muscle. +</p> + +<p> +P. Long head of triceps muscle. +</p> + +<p> +Q. Inner condyle of humerus. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/032P12_25.jpg"> +<img src="images/032P12_25.jpg" width="700" height="431" alt="Illustration:" /></a> +<p class="caption">Plate 12</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap07"></a>COMMENTARY ON PLATES 13 & 14.</h2> + +<p> +THE SURGICAL FORM OF THE MALE AND FEMALE AXILLAE COMPARED. +</p> + +<p> +Certain characteristic features mark those differences which are to be found in +all corresponding regions of both sexes. Though the male and female bodies, in +all their regions, are anatomically homologous or similar at basis, yet the +constituent and corresponding organs of each are gently diversified by the plus +or minus condition, the more or the less, which the development of certain +organs exhibits; and this diversity, viewed in the aggregate, constitutes the +sexual difference. That diversity which defines the sexual character of beings +of the same species, is but a link in that extended chain of differential +gradation which marks its progress through the whole animal kingdom. The female +breast is a plus glandular organ, situated, pendent, in that very position +where, in a male body, the unevolved mamma is still rudimentarily manifested. +</p> + +<p> +The male and female axillae contain the same number and species of organs; and +the difference by which the external configuration of both are marked mainly +arises from the presence of the enlarged mammary gland, which, in the female, +Plate 14, masks the natural outline of the pectoral muscle, E, whose axillary +border is overhung by the gland; and thus this region derives its peculiarity +of form, contrasted with that of the male subject. +</p> + +<p> +When the dissected axilla is viewed from below, the arm being raised, and +extended from the side, its contained parts, laid deeply in their conical +recess, are sufficiently exposed, at the same time that the proper boundaries +of the axillary cavity are maintained. In this point of view from which the +axillary vessels are now seen, their relative position, in respect to the +thorax and the arm, are best displayed. The thickness of that fleshy anterior +boundary formed by both pectoral muscles, E F, Plate 13, will be marked as +considerable; and the depth at which these muscles conceal the vessels, A B, in +the front aspect of the thoracico-humeral interval, will prepare the surgeon +for the difficulties he is to encounter when proceeding to ligature the +axillary artery at the incision made through the anterior or pectoral wall of +this axillary space. +</p> + +<p> +The bloodvessels of the axilla follow the motions of the arm; and according to +the position assumed by the arm, these vessels describe various curves, and lie +more or less removed from the side of the thorax. While the arm hangs close to +the side, the axillary space does not (properly speaking) exist; and in this +position, the axillary vessels and nerves make a general curve from the +clavicle at the point K, Plate 14, to the inner side of the arm, the concavity +of the curve being turned towards the thoracic side. But when the arm is +abducted from the side, and elevated, the vessels which are destined to supply +the limb follow it, and in this position they take, in reality, a serpentine +course; the first curve of which is described, in reference to the thorax, from +the point K to the head of the humerus; and the next is that bend which the +head of the humerus, projecting into the axilla in the elevated position of the +member, forces them to make around itself in their passage to the inner side of +the arm. The vessels may be readily compressed against the upper third of the +humerus by the finger, passed into the axilla, and still more effectually if +the arm be raised, as this motion will rotate the tuberous head of the humerus +downwards against them. +</p> + +<p> +The vessels and nerves of the axilla are bound together by a fibrous sheath +derived from the membrane called costo-coracoid; and the base or humeral outlet +of this axillary space, described by the muscles C, K, E, G, Plate 13, is +closed by a part of the fascial membrane, <i>g,</i> extended across from the +pectoral muscle, E, to the latissimus dorsi tendon, K. In the natural position +of the vessels at that region of their course represented in the Plates, the +vein A overlies the artery B, and also conceals most of the principal nerves. +In order to show some of these nerves, in contact with the artery itself, the +axillary vein is drawn a little apart from them. +</p> + +<p> +The axillary space gives lodgment to numerous lymphatic glands, which are +either directly suspended from the main artery, or from its principal branches, +by smaller branches, destined to supply them. These glands are more numerous in +the female axilla, Plate 14, than in the male, Plate 13, and while they seem to +be, as it were, indiscriminately scattered here and there through this region, +we observe the greater number of them to be gathered together along the +axillary side of the great pectoral muscle; at which situation, <i>h,</i> in +the diseased condition of the female breast, they will be felt to form hard, +nodulated masses, which frequently extend as far up through the axillary space +as the root of the neck, involving the glands of this latter region also in the +disease. +</p> + +<p> +The contractile motions of the pectoral muscle, E, of the male body, Plate 13, +are during life readily distinguishable; and that boundary which it furnishes +to the axillary region is well defined; but in the female form, Plate 14, the +general contour of the muscle E, while in motion, is concealed by the +hemispherical mammary gland, F, which, surrounded by its proper capsule, lies +loosely pendent from the fore part of the muscle, to which, in the healthy +state of the organ, it is connected only by free-moving bonds of lax cellular +membrane. The motions of the shoulder upon the trunk do not influence the +position of the female mammary gland, for the pectoral muscle acts freely +beneath it; but when a scirrhus or other malignant growth involves the mammary +organ, and this latter contracts, by the morbid mass, a close adhesion to the +muscle, then these motions are performed with pain and difficulty. +</p> + +<p> +When it is required to excise the diseased female breast, (supposing the +disease to be confined to the structure of the gland itself,) the operation may +be performed confidently and without difficulty, in so far as the seat of +operation does not involve the immediate presence of any important nerves or +bloodvessels. But when the disease has extended to the axillary glands, the +extirpation of these (as they lie in such close proximity to the great axillary +vessels and their principal branches) requires cautious dissection. It has more +than once happened to eminent surgeons, that in searching for and dissecting +out these diseased axillary glands, H, <i>h</i>, Plate 14, the main artery has +been wounded. +</p> + +<p> +As the coracoid process points to the situation of the artery in the axilla, so +the coraco-brachialis muscle, C, marks the exact locality of the vessel as it +emerges from this region; the artery ranges along the inner margin of both the +process and the muscle, which latter, in fleshy bodies, sometimes overhangs and +conceals it. When the vessel has passed the insertion of the coraco-brachialis, +it becomes situated at the inner side of the biceps, which also partly overlaps +it, as it now lies on the forepart of the brachialis anticus. As the general +course of the artery, from where it leaves the axilla to the bend of the elbow, +is one of winding from the inner side to the forepart of the limb, so should +compression of the vessel, when necessary, be directed in reference to the bone +accordingly—viz., in the upper or axillary region of the arm, from within +outwards, and in the lower part of the arm, from before backwards. +</p> + +<p> +All incised, lacerated, or contused wounds of the arm and shoulder, happening +by pike, bayonet, sabre, bullet, mace, or arrow, on the outer aspect of the +limb, are (provided the weapon has not broken the bones) less likely to +implicate the great arteries, veins, and nerves. These instruments encountering +the inner or axillary aspect of the member, will of course be more likely to +involve the vessels and nerves in the wound. In severe compound fractures of +the humerus occurring from force applied at the external side of the limb, the +brachial vessels and nerves have been occasionally lacerated by the sharp +jagged ends of the broken bone,—a circumstance which calls for immediate +amputation of the member. +</p> + +<p> +The axilla becomes very frequently the seat of morbid growths, which, when they +happen to be situated beneath the dense axillary fascia, and have attained to a +large size, will press upon the vessels and nerves of this region, and cause +very great inconvenience. Adipose and other kind of tumours occurring in the +axilla beneath the fascia, and in close contact with the main vessels, have +been known to obstruct these vessels to such a degree, as to require the +collateral or anastomatic circulation to be set up for the support; of the +limb. When abscesses take place in the axilla, beneath the fascia, it is this +structure which will prevent the matter from pointing; and it is required, +therefore, to lay this fascia freely open by a timely incision. The +accompanying Plates will indicate the proper direction in which such incision +should be made, so as to avoid the vessels A, B. When the limb is abducted from +the side, the main vessels and nerves take their position parallel with the +axis of the arm. The axillary vessels and nerves being thus liable to pressure +from the presence of large tumours happening in their neighbourhood, will +suggest to the practitioner the necessity for fashioning of a proper form and +size all apparatus, which in fracture or dislocation of the shoulder-bones +shall be required to bear forcibly against the axillary region. While we know +that the locality of the main vessels and nerves is that very situation upon +which a pad or fulcrum presses, when placed in the axilla for securing the +reduction of fractures of the clavicle, the neck of the humerus, or scapula, so +should this member of the fracture apparatus be adapted, as well to obviate +this pressure upon these structures, as to give the needful support to the limb +in reference to the clavicle, &c. The habitual use, for weeks or more, of a +hard, resisting fulcrum in the axilla, must act in some degree like the pad of +a tourniquet, arresting the flow of a vigorous circulation, which is so +essential to the speedy union of all lesions of bones. And it should never be +lost sight of, that all grievously coercive apparatus, which incommode the +suffering patient, under treatment, are those very instruments which impede the +curative process of Nature herself. +</p> + +<p> +The anatomical mechanism of the human body, considered as a whole, or divisible +into regions, forms a study so closely bearing upon practice, that the surgeon, +if he be not also a mechanician, and fully capable of making his anatomical +knowledge suit with the common principles of mechanics, while devising methods +for furthering the efforts, of Nature curatively, may be said to have studied +anatomy to little or no purpose. The shoulder apparatus, when studied through +the principle of mechanics, derives an interest of practical import which all +the laboured description of the schools could never supply to it, except when +illustrating this principle. +</p> + +<p> +The disposal of the muscular around the osseous elements of the shoulder +apparatus, forms a study for the surgeon as well in the abnormal condition of +these parts, as in their normal arrangement; for in practice he discovers that +that very mechanical principle upon which both orders of structures (the +osseous and muscular) are grouped together for normal articular action, +becomes, when the parts are deranged by fracture or, other accident, the chief +cause whereby rearrangement is prevented, and the process of reunion +obstructed. When a fracture happens in the shaft of the humerus, above or below +the insertions of the pectoral and latissimus dorsi muscles, these are the very +agents which when the bone possessed its integrity rendered it functionally +fitting, and which, now that the bone is severed, produce the displacement of +the lower fragment from the upper one. To counteract this source of +derangement, the surgeon becomes the mechanician, and now, for the first time, +he recognises the necessity of the study of topographical anatomy. +</p> + +<p> +When a bone is fractured, or dislocated to a false position and retained there +by the muscular force, the surgeon counteracts this force upon mechanical +principle; but while he puts this principle in operation, he also acknowledges +to the paramount necessity of ministering to the ease of Nature as much as +shall be consistent with the effectual use of the remedial agent; and in the +present state of knowledge, it is owned, that that apparatus is most efficient +which simply serves both objects, the one no less than the other. And, assuming +this to be the principle which should always guide us in our treatment of +fractures and dislocations, I shall not hesitate to say, that the pad acting as +a fulcrum in the axilla, or the perineal band bearing as a counterextending +force upon the groin (the suffering body of the patient being, in both +instances, subjected for weeks together to the grievous pressure and irritation +of these members of the apparatus), do not serve both objects, and only one +incompletely; I say incompletely, for out of every six fractures of either +clavicle or thigh-bone, I believe that, as the result of our treatment by the +present forms of mechanical contrivances, there would not be found three cases +of coaptation of the broken ends of the bone so complete as to do credit to the +surgeon. The most pliant and portable of all forms of apparatus which +constitute the hospital armamentaria, is the judgment; and this cannot give its +approval to any plan of instrument which takes effect only at the expense of +the patient. +</p> + +<h4>DESCRIPTION OF PLATES 13 & 14.</h4> + +<p> +PLATE 13. +</p> + +<p> +A. Axillary vein, drawn apart from the artery, to show the nerves lying between +both vessels. On the bicipital border of the vein is seen the internal +cutaneous nerve; on the tricipital border is the nerve of Wrisberg, +communicating with some of the intercosto-humeral nerves; <i>a</i>, the common +trunk of the venae comites, entering the axillary vein. +</p> + +<p> +B. Axillary artery, crossed by one root of the median nerve; <i>b</i>, basilic +vein, forming, with <i>a</i>, the axillary vein, A. +</p> + +<p> +C. Coraco-brachialis muscle. +</p> + +<p> +D. Coracoid head of the biceps muscle. +</p> + +<p> +E. Pectoralis major muscle. +</p> + +<p> +F. Pectoralis minor muscle. +</p> + +<p> +G. Serratus magnus muscle, covered by <i>g,</i> the axillary fascia, and +perforated, at regular intervals, by the nervous branches called +intercosto-humeral. +</p> + +<p> +H. Conglobate gland, crossed by the nerve called “external respiratory” of +Bell, distributed to the serratus magnus muscle. This nerve descends from the +cervical plexus. +</p> + +<p> +I. Subscapular artery. +</p> + +<p> +K. Tendon of latissimus dorsi muscle. +</p> + +<p> +L. Teres major muscle. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/036P13_25.jpg"> +<img src="images/036P13_25.jpg" width="509" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 13</p> +</div> + +<p> +PLATE 14. +</p> + +<p> +A. Axillary vein. +</p> + +<p> +B. Axillary artery. +</p> + +<p> +C. Coraco-brachialis muscle. +</p> + +<p> +D. Short head of the biceps muscle. +</p> + +<p> +E. Pectoralis major muscle. +</p> + +<p> +F. Mammary gland, seen in section. +</p> + +<p> +G. Serratus magnus muscle. +</p> + +<p> +H. Lymphatic gland; <i>h h</i>, other glands of the lymphatic class. +</p> + +<p> +I. Subscapular artery, crossed by the intercosto-humeral nerves and descending +parallel to the external respiratory nerve. Beneath the artery is seen a +subscapular branch of the brachial plexus, given to the latissimus dorsi +muscle. +</p> + +<p> +K. Locality of the subclavian artery. +</p> + +<p> +L. Locality of the brachial artery at the bend of the elbow. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/036P14_25.jpg"> +<img src="images/036P14_25.jpg" width="502" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 14</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap08"></a>COMMENTARY ON PLATES 15 & 16.</h2> + +<p> +THE SURGICAL DISSECTION OF THE BEND OF THE ELBOW AND THE FOREARM, SHOWING THE +RELATIVE POSITION OF THE ARTERIES, VEINS, NERVES, &c. +</p> + +<p> +The farther the surgical region happens to be removed from the centre of the +body, the less likely is it that all accidents or operations which involve such +regions will concern the life immediately. The limbs undergo all kinds of +mutilation, both by accident and intention, and yet the patient survives; but +when the like happens at any region of the trunk of the body, the life will be +directly and seriously threatened. It seems, therefore, that in the same degree +as the living principle diverges from the body’s centre into the outstanding +members, in that degree is the life weakened in intensity; and just as, +according to physical laws, the ray of light becomes less and less intense by +the square of the distance from the central source, so the vital ray, or vis, +loses momentum in the same ratio as it diverges from the common central line to +the periphery. +</p> + +<p> +The relative anatomy of every surgical region becomes a study of more or less +interest to the surgeon, according to the degree of importance attaching to the +organs contained, or according to the frequency of such accidents as are liable +to occur in each. The bend of the elbow is a region of anatomical importance, +owing to the fact of its giving passage to C, Plate 15, the main artery of the +limb, and also because in it are located the veins D, B, E, F, which are +frequently the subject of operation. The anatomy of this region becomes, +therefore, important; forasmuch as the operation which is intended to concern +the veins alone, may also, by accident, include the main arterial vessel which +they overlie. The nerves, which are seen to accompany the veins superficially, +as well as that which accompanies the more deeply-situated artery, are, for the +same reason, required to be known. +</p> + +<p> +The course of the brachial artery along the inner border of the biceps muscle +is comparatively superficial, from the point where it leaves the axilla to the +bend of the elbow. In the whole of this course it is covered by the fascia of +the arm, which serves to isolate it from the superficial basilic vein, B, and +the internal cutaneous nerve, both of which nevertheless overlie the artery. +The median nerve, <i>d</i>, Plate 15, accompanies the artery in its proper +sheath, which is a duplication of the common fascia; and in this sheath are +also situated the venae comites, making frequent loops around the artery. The +median nerve itself, D, Plate 16, takes a direct course down the arm; and the +different relative positions which this nerve holds in reference to the artery, +C, at the upper end, the middle, and the lower end of the arm, occur mainly in +consequence of the undulating character of the vessel itself. +</p> + +<p> +When it is required to ligature the artery in the middle of the arm, the median +nerve will be found, in general, at its outer side, between it and the biceps; +but as the course of the artery is from the inner side of the biceps to the +middle of the bend of the elbow, so we find it passing under the nerve to gain +this locality, C, Plate 16, where the median nerve, D, then becomes situated at +the inner side of the vessel. The median nerve, thus found to be differently +situated in reference to the brachial artery, at the upper, the middle, and the +lower part of the arm, is (with these facts always held in memory) taken as the +guide to that vessel. An incision made of sufficient length (an inch and a +half, more or less) over the course of the artery, and to the outer side of the +basilic vein, B, Plate 16, will divide the skin, subcutaneous adipose membrane, +which varies much in thickness in several individuals, and will next expose the +common fascial envelope of the arm. When this fascia is opened, by dividing it +on the director, the artery becomes exposed; the median nerve is then to be +separated from the side of the vessel by the probe or director, and, with the +precaution of not including the venal comites, the ligature may now be passed +around the vessel. In the lower third of the arm it is not likely that the +operator will encounter the ulnar nerve, and mistake it for the median, since +the former, <i>d</i>, Plate 16, is considerably removed from the vessel. If the +incision be made precisely in the usual course of the brachial artery, the +ulnar nerve will not show itself. It will be well, however, to bear in mind the +possible occurrence of some of those anomalies to that normal relative position +of the artery, the median, and the ulnar nerve, which the accompanying Plates +represent. +</p> + +<p> +The median nerve, D, Plate 16, is sometimes found to lie beneath the artery in +the middle and lower third of the arm. At other times it is found far removed +to the inner side of the usual position of the vessel, and lying in close +contact with the ulnar nerve, <i>d</i>. Or the brachial artery may take this +latter position, while the median nerve stands alone at the position of D, +Plate 16. Or both the main artery and the median nerve may course much to the +inner side of the biceps muscle, A, Plate 16, while in the usual situation of +the nerve and vessel there is only to be found a small arterial branch (the +radial), which springs from the brachial, high up in the arm. Or the nerve and +vessel may be lying concealed beneath a slip of the brachialis anticus muscle, +E, Plate 16, in which case no appearance of them will be at all manifested +through the usual place of incision made for the ligature of the brachial +vessel. Or, lastly, there may be found more arteries than the single main +brachial appearing at this place in the arm, and such condition of a plurality +of vessels occurs in consequence of a high division of the brachial artery. +Each of these variations from the normal type is more or less frequent; and +though it certainly is of practical import to bear them in mind, still, as we +never can foretell their occurrence by a superficial examination of the limb, +or pronounce them to be present till we actually encounter them in operation, +it is only when we find them that we commence to reason upon the facts; but +even at this crisis the knowledge of their anatomy may prevent a confusion of +ideas. +</p> + +<p> +That generalization of the facts of such anomalies as are liable to occur to +the normal character of the brachial artery, represented in Plates 15 and 16, +which appears to me as being most inclusive of all their various conditions, is +this—viz., that the point of division into radial, ulnar, and interosseous, +which F, Plate 16, usually marks, may take place at any part of the member +between the bend of the elbow and the coracoid process in the axillary space. +</p> + +<p> +At the bend of the elbow, the brachial artery usually occupies the middle point +between <i>e,</i> the inner condyle of the humerus and the external margin of +the supinator radii longus muscle, G. The structures which overlie the arterial +vessel, C, Plate 16, at this locality, numbering them from its own depth to the +cutaneous surface, are these— viz., some adipose cellular membrane envelopes +the vessel, as it lies on E, the brachialis anticus muscle, and between the two +accompanying veins; at the inner side of the artery, but separated from it by a +small interval occupied by one of the veins, is situated the median nerve +<i>d</i>, Plate 15. Above all three structures is stretched that dense fibrous +band of the fascia, H, Plate 16, which becomes incorporated with the common +fascial covering of the forearm. Over this fascial process lies the median +basilic vein, F B, Plate 15, accompanying which are seen some branches of the +internal cutaneous nerve. The subcutaneous adipose tissue and common integument +cover these latter. If it be required to ligature the artery at this locality, +an incision two inches and a half in length, made along the course of the +vessel, and avoiding the superficial veins, will expose the fascia; and this +being next divided on the director, the artery will be exposed resting on the +brachialis anticus, and between the biceps tendon and pronator teres muscle. As +this latter muscle differs in width in several individuals, sometimes lying in +close contact with the artery, and at other times leaving a considerable +interval between the vessel and itself, its outer margin is not, therefore, to +be taken as a sure guide to the artery. The inner border of the biceps +indicates much more generally the situation of the vessel. +</p> + +<p> +The bend of the elbow being that locality where the operation of phlebotomy is +generally performed, it is therefore required to take exact account of the +structures which occupy this region, and more especially the relation which the +superficial veins hold to the deeper seated artery. In Plate 15, the artery, C, +is shown in its situation beneath the fascial aponeurosis, which comes off from +the tendon of the biceps, a portion of which has been cut away; and the venous +vessel, F B, which usually occupies the track of the artery, is pushed a little +to the inner side. While opening any part of the vessel, F B, which overlies +the artery, it is necessary to proceed with caution, as well because of the +fact that between the artery, C, and the vein, F B, the fascia alone +intervenes, as also because the ulnar artery is given off rather frequently +from the main vessel at this situation, and passes superficial to the fascia +and flexors of the forearm, to gain its usual position at K, Plate 15. I have +met with a well marked example of this occurrence in the living subject. +</p> + +<p> +The cephalic vein, D, is accompanied by the external cutaneous nerve, which +branches over the fascia on the outer border of the forearm. The basilic vein, +B, is accompanied by the internal cutaneous nerve, which branches in a similar +way over the fascia of the inner and fore part of the forearm. The numerous +branches of both these nerves interlace with the superficial veins, and are +liable to be cut when these veins are being punctured. Though the median +basilic, F, and the basilic vein, B, are those generally chosen in the +performance of the operation of bleeding, it will be seen, in Plate 15, that +their contiguity to the artery necessarily demands more care and precision in +that operation executed upon them, than if D, the cephalic vein, far removed as +it is from the course of the artery, were the seat of phlebotomy. +</p> + +<p> +As it is required, in order to distend the superficial veins, D, B, F, that a +band should be passed around the limb at some locality between them and the +heart, so that they may yield a free flow of blood on puncture, a moderate +pressure will be all that is needful for that end. It is a fact worthy of +notice, that the excessive pressure of the ligaturing band around the limb at A +B, Plate 15, will produce the same effect upon the veins near F, as if the +pressure were defective, for in the former case the ligature will obstruct the +flow of blood through the artery; and the vein, F, will hence be undistended by +the recurrent blood, just as when, in the latter case, the ligature, making too +feeble a pressure on the vein, B, will not obstruct its current in that degree +necessary to distend the vessel, F. +</p> + +<p> +Whichever be the vein chosen for phlebotomy at the bend of the elbow, it will +be seen, from an examination of Plates 15 and 16, that the opening may be made +with most advantage according to the longitudinal axis of the vessel; for the +vessel while being cut open in this direction, is less likely to swerve from +the point of the lancet than if it were to be incised across, which latter mode +is also far more liable to implicate the artery. Besides, as the nerves course +along the veins from above downwards—making, with each other, and with the +vessels, but very acute angles—all incisions made longitudinally in these +vessels, will not be so likely to divide any of these nerves as when the +instrument is directed to cut crossways. +</p> + +<p> +The brachial artery usually divides, at the bend of the elbow, into the radial, +the ulnar, and the interosseous branches. The point F, Plate 16, is the common +place of division, and this will be seen in the Plate to be somewhat below the +level of the inner condyle, <i>e.</i> From that place, where the radial and +ulnar arteries spring, these vessels traverse the forearm, in general under +cover of the muscles and fascia, but occasionally superficial to both these +structures. The radial artery, F N, Plate 16, takes a comparatively superficial +course along the radial border of the forearm, and is accompanied, for the +upper two-thirds of its length, by the radial branch of the musculo-spiral +nerve, seen in Plate 16, at the outer side of the vessel. The supinator radii +longus muscle in general overlaps, with its inner border, both the radial +artery and nerve. At the situation of the radial pulse, I, Plate 15, the artery +is not accompanied by the nerve, for this latter will be seen, in plate 16, to +pass outward, under the tendon of the supinator muscle, to the integuments. +</p> + +<p> +The ulnar artery, whose origin is seen near F, Plate 16, passes deeply beneath +the superficial flexor muscles, L M K, and the pronator teres, I, and first +emerges from under cover of these at the point O, from which point to S, Plate +16, the artery may be felt, in the living body, obscurely beating as the ulnar +pulse. On the inner border of the ulnar artery, and in close connexion with it, +the ulnar nerve may be seen looped round by small branches of the vessel. +</p> + +<p> +The radial and ulnar arteries may be exposed and ligatured in any part of their +course; but of the two, the radial vessel can be reached with greater facility, +owing to its comparatively superficial situation. The inner border of the +supinator muscle, G, Plate 16, is the guide to the radial artery; and the outer +margin of the flexor carpi ulnaris muscle, K, Plate 16, indicates the locality +of the ulnar artery. Both arteries, I, K, Plate 15, at the wrist, lie beneath +the fascia. If either of these vessels require a ligature in this region of the +arm, the operation may be performed with little trouble, as a simple incision +over the track of the vessels, through the skin and the fascia, will readily +expose each. +</p> + +<p> +Whenever circumstances may call for placing a ligature on the ulnar artery, as +it lies between the superficial and deep flexor muscles, in the region of I L +M, Plate 16, the course of the vessel may be indicated by a line drawn from a +central point of the forearm, an inch or so below the level of the inner +condyle—viz., the point F, and carried to the pisiform bone, T. The line of +incision will divide obliquely the superficial flexors; and, on a full exposure +of the vessel in this situation, the median nerve will be seen to cross the +artery at an acute angle, in order to gain the mid-place in the wrist at Q. The +ulnar nerve, <i>d,</i> Plate 16, passing behind the inner condyle, <i>e,</i> +does not come into connexion with the ulnar artery until both arrive at the +place O. It will, however, be considered an awkward proceeding to subject to +transverse section so large a mass of muscles as the superficial flexors of the +forearm, when the vessel may be more readily reached elsewhere, and perhaps +with equal advantage as to the locality of the ligature. +</p> + +<p> +When either the radial or ulnar arteries happen to be completely divided in a +wound, both ends of the vessel will bleed alike, in consequence of the free +anastomosis of both arteries in the hand. +</p> + +<h4>DESCRIPTION OF PLATES 15 & 16.</h4> + +<p> +PLATE 15. +</p> + +<p> +A. Fascia covering the biceps muscle. +</p> + +<p> +B. Basilic vein, with the internal cutaneous nerve. +</p> + +<p> +C. Brachial artery, with the venae comites. +</p> + +<p> +D. Cephalic vein, with the external cutaneous nerve; <i>d</i>, the median +nerve. +</p> + +<p> +E. A communicating vein, joining the venae comites. +</p> + +<p> +F. Median basilic vein. +</p> + +<p> +G. Lymphatic gland. +</p> + +<p> +H. Radial artery at its middle. +</p> + +<p> +I. Radial artery of the pulse. +</p> + +<p> +K. Ulnar artery, with ulnar nerve. +</p> + +<p> +L. Palmaris brevis muscle. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/038P15_25.jpg"> +<img src="images/038P15_25.jpg" width="396" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 15</p> +</div> + +<p> +PLATE 16. +</p> + +<p> +A. Biceps muscle. +</p> + +<p> +B. Basilic vein, cut. +</p> + +<p> +C. Brachial artery. +</p> + +<p> +D. Median nerve; <i>d,</i> the ulnar nerve. +</p> + +<p> +E. Brachialis anticus muscle; <i>e</i>, the internal condyle. +</p> + +<p> +F. Origin of radial artery. +</p> + +<p> +G. Supinator radii longus muscle. +</p> + +<p> +H. Aponeurosis of the tendon of the biceps muscle. +</p> + +<p> +I. Pronator teres muscle. +</p> + +<p> +K. Flexor carpi ulnaris muscle. +</p> + +<p> +L. Flexor carpi radialis muscle. +</p> + +<p> +M. Palmaris longus muscle. +</p> + +<p> +N. Radial artery, at its middle, with the radial nerve on its outer side. +</p> + +<p> +O. Flexor digitorum sublimis. +</p> + +<p> +P. Flexor pollicis longus. +</p> + +<p> +Q. Median nerve. +</p> + +<p> +R. Lower end of radial artery. +</p> + +<p> +S. Lower end of ulnar artery, in company with the ulnar nerve. +</p> + +<p> +T. Pisiform bone. +</p> + +<p> +U. Extensor metacarpi pollicis. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/038P16_25.jpg"> +<img src="images/038P16_25.jpg" width="415" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 16</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap09"></a>COMMENTARY ON PLATES 17, 18, & 19.</h2> + +<p> +THE SURGICAL DISSECTION OF THE WRIST AND HAND. +</p> + +<p> +A member of such vast importance as the human hand necessarily claims a high +place in regard to surgery. The hand is typical of the mind. It is the material +symbol of the immaterial spirit, It is the prime agent of the will; and it is +that instrument by which the human intellect manifests its presence in +creation. The human hand has a language of its own. While the tongue +demonstrates the thought through the word, the hand realizes and renders +visible the thought through the work. This organ, therefore, by whose fitness +of form the mind declares its own entity in nature, by the invention and +creation of the thing, which is, as it were, the mind’s autograph, claims a +high interest in surgical anatomy; and accordingly the surgeon lays it down as +a rule, strictly to be observed, that when this beautiful and valuable member +happens to be seriously mutilated, in any of those various accidents to which +it is exposed, the prime consideration should be, not as to the fact of how +much of its quantity or parts it can be deprived in operation, but rather as to +how little of its quantity should it be deprived, since no mechanical ingenuity +can fashion an apparatus, capable of supplying the loss of a finger, or even of +one of its joints. +</p> + +<p> +The main blood vessels and nerves of the arm traverse the front aspect of the +wrist, and are distributed chiefly to supply the palmar surface of the hand, +since in the palm are to be found a greater variety and number of structures +than are met with on the back of the hand. The radial artery, A, Plate 17, +occupies (as its name indicates) the radial border of the forepart of the +wrist, and the ulnar artery, C, Plate 17, occupies the ulnar border; both +vessels in this region of their course lie parallel to each other; both are +comparatively superficial, but of the two, the radial artery is the more +superficial and isolated, and thereby occasions the radial pulse. The +anatomical situation of the radial artery accounts for the fact, why the +pulsation of this vessel is more easily felt than that of the ulnar artery. +</p> + +<p> +The radial vessel, A, Plate 17, at the wrist, is not accompanied by the radial +nerve; for this nerve, C, Plate 19, passes from the side of the artery, at a +position, C, Plate 19, varying from one to two or more inches above the wrist, +to gain the dorsal aspect of the hand. The ulnar artery, C, Plate 17, is +attended by the ulnar nerve, D, in the wrist, and both these pass in company to +the palm. The ulnar nerve, D E, lies on the ulnar border of the artery, and +both are in general to be found ranging along the radial side of the tendon of +the flexor carpi ulnaris muscle, T, and the pisiform bone, G. The situation of +the radial artery is midway between the flexor carpi radialis tendon, I, and +the outer border of the radius. The deep veins, called <i>comites</i>, lie in +close connexion with the radial and ulnar arteries. When it is required to lay +bare the radial or ulnar artery, at the wrist, it will be sufficient for that +object to make a simple longitudinal incision (an inch or two in length) over +the course of the vessel A or C, Plate 17, through the integument, and this +incision will expose the fascia, which forms a common investment for all the +structures at this region. When this fascia has been cautiously slit open on +the director, the vessels will come into view. The ulnar artery, however, lies +somewhat concealed between the adjacent muscles, and in order to bring this +vessel fully into view, it will be necessary to draw aside the tendon of the +flexor ulnaris muscle, T. +</p> + +<p> +The radial artery, A, Plate 18, passes external to the radial border of the +wrist, beneath the extensor tendons, B, of the thumb; and after winding round +the head of the metacarpal bone of the thumb, as seen at E, Plate 19, forms the +deep palmar arch E, Plate 18. This deep palmar arch lies close upon the +forepart of the carpo-metacarpal joints; it sends off branches to supply the +deeply situated muscles, and other structures of the palm; and from it are also +derived other branches, which pierce the interosseal spaces, and appear on the +back of the hand, Plate 19. The deep palmar arch, E, Plate 18, inosculates with +a branch of the ulnar artery, I, Plate 18, whilst its dorsal interosseal +branches, Plate 19, communicate freely with the dorsal carpal arch, which is +formed by a branch of the radial artery E, Plate 19, and the terminal branch of +the posterior interosseous vessel. +</p> + +<p> +The ulnar artery, C, Plate 17, holds a direct and superficial course, from the +ulnar border of the forearm through the wrist; and still remains superficial in +the palm, where it forms the superficial palmar arch, F. From this arch arise +three or four branches of considerable size, which are destined to supply the +fingers. A little above the interdigital clefts, each of these digital arteries +divides into two branches, which pass along the adjacent sides of two fingers—a +mode of distribution which also characterises the digital branches of the +median, <i>b b</i>, and ulnar nerves, <i>e e</i>. The superficial palmar arch +of the ulnar vessel anastomoses with the deep arch of the radial vessel. The +principal points of communication are, first, by the branch, (ramus profundus,) +I, Plate 18, which passes between the muscles of the little finger to join the +deep arch beneath the long flexor tendons. 2nd, by the branch (superficialis +volae) which springs from the radial artery, A, Plate 17, and crosses the +muscles of the ball of the thumb, to join the terminal branch of the +superficial arch, F, Plate 17. 3rd, by another terminal branch of the +superficial arch, which joins the arteries of the thumb, derived from the +radial vessel, as seen at <i>e</i>, Plate 18. +</p> + +<p> +The frequent anastomosis thus seen to take place between the branches of the +radial, the ulnar, and the interosseous arteries in the hand, should be +carefully borne in mind by the surgeon. The continuity of the three vessels by +anastomosis, renders it very difficult to arrest a haemorrhage occasioned by a +wound of either of them. It will be at once seen, that when a haemorrhage takes +place from any of these larger vessels of the hand, the bleeding will not be +commanded by the application of a ligature to either the radial, the ulnar, or +the interosseous arteries in the forearm; and for this plain reason, viz., that +though in the arm these arteries are separate, in the hand their communication +renders them as one. +</p> + +<p> +If a haemorrhage therefore take place from either of the palmar vessels, it +will not be sufficient to place a ligature around the radial or the ulnar +artery singly, for if F, Plate 17, bleeds, and in order to arrest that bleeding +we tie the vessel C, Plate 17, still the vessel F will continue to bleed, in +consequence of its communication with the vessel E, Plate 18, by the branch 1, +Plate 18, and other branches above mentioned. If E, Plate 18, bleeds, a +ligature applied to the vessel A, Plate 18, will not stop the flow of blood, +because of the fact that E anastomoses with G, by the branch I and other +branches, as seen in Plates 17 and 19. +</p> + +<p> +Any considerable haemorrhage, therefore, which may be caused by a wound of the +superficial or deep palmar arches, or their branches, and which we are unable +to arrest by compression, applied directly to the patent orifices of the +vessel, will in general require that a ligature be applied to both the radial +and ulnar arteries at the wrist; and it occasionally happens that even this +proceeding will not stop the flow of blood, for the interosseous arteries, +which also communicate with the vessels of the hand, may still maintain the +current of circulation through them. These interosseous arteries being branches +of the ulnar artery, and being given off from the vessel at the bend of the +elbow, if the bleeding be still kept up from the vessel wounded in the hand, +after the ligature of the ulnar and radial arteries is accomplished, are in all +probability the channels of communication, and in this case the brachial artery +must be tied. A consideration of the above mentioned facts, proper to the +normal distribution of the vessels of the upper extremity, will explain to the +practitioner the cause of the difficulty which occasionally presents itself, as +to the arrest of haemorrhage from the vessels of the hand. In addition to these +facts he will do well to remember some other arrangements of these vessels, +which are liable to occur; and upon these I shall offer a few observations. +</p> + +<p> +While I view the normal disposition of the arteries of the arm as a whole, (and +this view of the whole great fact is no doubt necessary, if we would take +within the span and compass of the reason, all the lesser facts of which the +whole is inclusive,) I find that as one main vessel (the brachial) divides into +three lesser branches, (the ulnar, radial and interosseous,) so, therefore, +when either of these three supplies the haemorrhage, and any difficulty arises +preventing our having access at once to the open orifices of the wounded +vessel, we can command the flow of blood by applying a ligature to the main +trunk—the brachial. If this measure fail to command the bleeding, then we may +conclude that the wounded vessel (whichever it happen to be, whether the +radial, the ulnar, or the interosseous) arises from the brachial artery, higher +up in the arm than that place whereat we applied the ligature. To this variety +as to the place of origin, the ulnar, radial, and interosseous arteries are +individually liable. +</p> + +<p> +Again, as the single brachial artery divides into the three arteries of the +forearm, and as these latter again unite into what may (practically speaking) +be termed a single vessel in the hand, in consequence of their anastomosis, so +it is obvious that in order to command a bleeding from any of the palmar +arteries, we should apply a ligature upon each of the vessels of the forearm, +or upon the single main vessel in the arm. When the former proceeding fails, we +have recourse to the latter, and when this latter fails (for fail it will, +sometimes,) we then reasonably arrive at the conclusion that some one of the +three vessels of the forearm, springs higher up than the place of the ligature +on the main brachial vessel. +</p> + +<p> +But however varied as to the normal locality of their origin, at the bend of +the elbow, these vessels of the forearm may at times manifest themselves, still +one point is quite fixed and certain, viz., that they communicate with each +other in the hand. Hence, therefore, it becomes evident, that in order to +command, at once and effectually, a bleeding, either from the palmar arteries, +or those of the forearm, we attain to a more sure and successful result, the +nearer we approach the fountain-head and place a ligature on it—the brachial +artery. It is true that to stop the circulation through the main vessel of the +limb, is always attended with danger, and that such a proceeding is never to be +adopted but as the lesser one of two great hazards. It is also true that to tie +the main brachial artery for a haemorrhage of anyone of its terminal branches, +may be doing too much, while a milder course may serve; or else that even our +tying the brachial may not suffice, owing to a high distribution of the vessels +of the arm, in the axilla, above the place of the ligature. Thus doubt as to +the safest measure, viz., that which is sufficient and no more, enveils the +proper place whereat to apply a ligature on the principal vessel; but whatever +be the doubt as to this particular, there can be none attending the following +rule of conduct, viz., that in all cases of haemorrhage, caused by wounds of +the vessels of the upper limb, we should, if at all practicable, endeavour to +stop the flow of blood from the divided vessels <i>in the wound itself,</i> by +ligature or otherwise; and both ends of the divided vessel require to be tied. +Whenever this may be done, we need not trouble ourselves concerning the anomaly +in vascular distribution. +</p> + +<p> +The superficial palmar arch, F, Plate 17, lies beneath the dense palmar fascia; +and whenever matter happens to be pent up by this fascia, and it is necessary +that an opening be made for its exit, the incision should be conducted at a +distance from the locality of the vessel. When matter forms beneath the palmar +fascia, it is liable, owing to the unyielding nature of this fibrous structure, +to burrow upwards into the forearm, beneath the annular ligament D, Plates 17 +and 18. All deep incisions made in the median line of the forepart of the wrist +are liable to wound the median nerve B, Plate 17. When the thumb, together with +its metacarpal bone, is being amputated, the radial artery E, Plate 19, which +winds round near the head of that bone, may be wounded. It is possible, by +careful dissection, to perform this operation without dividing the radial +vessel. +</p> + +<h4>DESCRIPTION OF PLATES 17, 18, & 19.</h4> + +<p> +PLATE 17. +</p> + +<p> +A. Radial artery. +</p> + +<p> +B. Median nerve; <i>b b b b</i>, its branches to the thumb and fingers. +</p> + +<p> +C. Ulnar artery, forming F, the superficial palmar arch. +</p> + +<p> +D. Ulnar nerve; E <i>e e</i>, its continuation branching to the little and ring +fingers, &c. +</p> + +<p> +G. Pisiform bone. +</p> + +<p> +H. Abductor muscle of the little finger. +</p> + +<p> +I. Tendon of flexor carpi radialis muscle. +</p> + +<p> +K. Opponens pollicis muscle. +</p> + +<p> +L. Flexor brevis muscle of the little finger. +</p> + +<p> +M. Flexor brevis pollicis muscle. +</p> + +<p> +N. Abductor pollicis muscle. +</p> + +<p> +OOOO. Lumbricales muscles. +</p> + +<p> +P P P P. Tendons of the flexor digitorum sublimis muscle. +</p> + +<p> +Q. Tendon of the flexor longus pollicis muscle. +</p> + +<p> +R. Tendon of extensor metacarpi pollicis. +</p> + +<p> +S. Tendons of extensor digitorum sublimis; P P P, their digital prolongations. +</p> + +<p> +T. Tendon of flexor carpi ulnaris. +</p> + +<p> +U. Union of the digital arteries at the tip of the finger. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/044P17_25.jpg"> +<img src="images/044P17_25.jpg" width="312" height="600" alt="Illustration:" /></a> +<p class="caption">Plate 17</p> +</div> + +<p> +PLATE 18. +</p> + +<p> +A. Radial artery. +</p> + +<p> +B. Tendons of the extensors of the thumb. +</p> + +<p> +C. Tendon of extensor carpi radialis. +</p> + +<p> +D. Annular ligament. +</p> + +<p> +E. Deep palmar arch, formed by radial artery giving off <i>e</i>, the artery of +the thumb. +</p> + +<p> +F. Pisiform bone. +</p> + +<p> +G. Ulnar artery, giving off the branch I to join the deep palmar arch E of the +radial artery. +</p> + +<p> +H. Ulnar nerve; <i>h</i>, superficial branches given to the fingers. Its deep +palmar branch is seen lying on the interosseous muscles, M M. +</p> + +<p> +K. Abductor minimi digiti. +</p> + +<p> +L. Flexor brevis minimi digiti. +</p> + +<p> +M. Palmar interosseal muscles. +</p> + +<p> +N. Tendons of flexor digitorum sublimis and profundus, and the lumbricales +muscles cut and turned down. +</p> + +<p> +O. Tendon of flexor pollicis longus. +</p> + +<p> +P. Carpal end of the metacarpal bone of the thumb. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/044P18_25.jpg"> +<img src="images/044P18_25.jpg" width="324" height="600" alt="Illustration:" /></a> +<p class="caption">Plate 18</p> +</div> + +<p> +PLATE 19. AAA. Tendons of extensor digitorum communis; A*, tendon overlying +that of the indicator muscle. +</p> + +<p> +B. Dorsal part of the annular ligament. +</p> + +<p> +C. End of the radial nerve distributed over the back of the hand, to two of the +fingers and the thumb. +</p> + +<p> +D. Dorsal branch of the ulnar nerve supplying the back of the hand and the +three outer fingers. +</p> + +<p> +E. Radial artery turning round the carpal end of the metacarpal bone of the +thumb. +</p> + +<p> +F. Tendon of extensor carpi radialis brevis. +</p> + +<p> +G. Tendon of extensor carpi radialis longus. +</p> + +<p> +H. Tendon of third extensor of the thumb. +</p> + +<p> +I. Tendon of second extensor of the thumb. +</p> + +<p> +K. Tendon of extensor minimi digiti joining a tendon of extensor communis. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/044P19_25.jpg"> +<img src="images/044P19_25.jpg" width="279" height="600" alt="Illustration:" /></a> +<p class="caption">Plate 19</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap10"></a>COMMENTARY ON PLATES 20 & 21.</h2> + +<p> +THE RELATIVE POSITION OF THE CRANIAL, NASAL, ORAL, AND PHARYNGEAL CAVITIES, +&c. +</p> + +<p> +On making a section (vertically through the median line) of the cranio-facial +and cervico-hyoid apparatus, the relation which these structures bear to each +other in the osseous skeleton reminds me strongly of the great fact enunciated +by the philosophical anatomists, that the facial apparatus manifests in +reference to the cranial structures the same general relations which the hyoid +apparatus bears to the cervical vertebrae, and that these relations are similar +to those which the thoracic apparatus bears to the dorsal vertebrae. To this +anatomical fact I shall not make any further allusions, except in so far as the +acknowledgment of it shall serve to illustrate some points of surgical import. +</p> + +<p> +The cranial chamber, A A H, Plate 20, is continuous with the spinal canal C. +The osseous envelope of the brain, called calvarium, Z B, holds serial order +with the cervical spinous processes, E I, and these with the dorsal spinous +processes. The dura-matral lining membrane, A A A*, of the cranial chamber is +continuous with the lining membrane, C, of the spinal canal. The brain is +continuous with the spinal cord. The intervertebral foramina of the cervical +spine are manifesting serial order with the cranial foramina. The nerves which +pass through the spinal region of this series of foramina above and below C are +continuous with the nerves which pass through the cranial region. The anterior +boundary, D I, of the cervical spine is continuous with the anterior boundary, +Y F, of the cranial cavity. And this common serial order of osseous parts—viz., +the bodies of vertebrae, serves to isolate the cranio-spinal compartment from +the facial and cervical passages. Thus the anterior boundary, Y F D I, of the +cranio-spinal canal is also the posterior boundary of the facial and cervical +cavities. +</p> + +<p> +Now as the cranio-spinal chamber is lined by the common dura-matral membrane, +and contains the common mass of nervous structure, thus inviting us to fix +attention upon this structure as a whole, so we find that the frontal cavity, +Z, the nasal cavity, X W, the oral cavity, 4, 5, S, the pharyngeal and +oesophageal passages 8 Q, are lined by the common mucous membrane, and +communicate so freely with each other that they may be in fact considered as +forming a common cavity divided only by partially formed septa, such as the +one, U V, which separates to some extent the nasal fossa from the oral fossa. +</p> + +<p> +As owing to this continuity of structure, visible between the head and spine, +we may infer the liability which the affections of the one region have to pass +into and implicate the other, so likewise by that continuity apparent between +all compartments of the face, fauces, oesophagus, and larynx, we may estimate +how the pathological condition of the one region will concern the others. +</p> + +<p> +The cranium, owing to its comparatively superficial and undefended condition, +is liable to fracture. When the cranium is fractured, in consequence of force +applied to its anterior or posterior surfaces, A or B, Plate 20, the fracture +will, for the most part, be confined to the place whereat the force has been +applied, provided the point opposite has not been driven against some resisting +body at the same time. Thus when the point B is struck by a force sufficient to +fracture the bone, while the point A is not opposed to any resisting body, then +B alone will yield to the force applied; and fracture thus occurring at the +point B, will have happened at the place where the applied force is met by the +force, or weight, or inertia of the head itself. But when B is struck by any +ponderous body, while A is at the same moment forced against a resisting body, +then A is also liable to suffer fracture. If fracture in one place be attended +with counter-fracture in another place, as at the opposite points A and B, then +the <i>fracture</i> occurs from the force impelling, while the +<i>counter-fracture</i> happens by the force resisting. +</p> + +<p> +Now in the various motions which the cranium A A B performs upon the top of the +cervical spine C, motions backwards, forwards, and to either side, it will +follow that, taking C as a fixed point, almost all parts of the cranial +periphery will be brought vertical to C in succession, and therefore whichever +point happens at the moment to stand opposite to C, and has impelling force +applied to it, then C becomes the point of resistance, and thus +counter-fractures at the cranial base occur in the neighbourhood of C. When +force is applied to the cranial vertex, whilst the body is in the erect +posture, the top of the cervical spine, E D C, becomes the point of resistance. +Or if the body fall from a height upon its cranial vertex, then the propelling +force will take effect at the junction of the spine with the cranial base, +whilst the resisting force will be the ground upon which the vertex strikes. In +either case the cranial base, as well as the vertex, will be liable to +fracture. +</p> + +<p> +The anatomical form of the cranium is such as to obviate a frequent liability +to fracture. Its rounded shape diffuses, as is the case with all rotund forms, +the force which happens to strike upon it. The mode in which the cranium is set +upon the cervical spine serves also to diffuse the pressure at the points where +the two opposing forces meet—viz., at the first cervical vertebra E and the +cranial basilar process F. This fact might be proved upon mechanical principle. +</p> + +<p> +The tegumentary envelope of the head, as well as the dura-matral lining, serves +to damp cranial vibration consequent upon concussion; while the sutural +isolation of the several component bones of the cranium also prevents, in some +degree, the extension of fractures and the vibrations of concussion. The +contents of the head, like the contents of all hollow forms, receive the +vibratory influence of force externally applied. The brain receives the +concussion of the force applied to its osseous envelope; and when this latter +happens to be fractured, the danger to life is not in proportion to the extent +of the fracture here, any more than elsewhere in the skeleton fabric, but is +solely in proportion to the amount of shock or injury sustained by the nervous +centre. +</p> + +<p> +When it is required to trephine any part of the cranial envelope, the points +which should be avoided, as being in the neighbourhood of important +bloodvessels, are the following—the occipital protuberance, B, within which the +“torcular Herophili” is situated, and from this point passing through the +median line of the vertex forwards to Z the frontal sinus, the trephine should +not be applied, as this line marks the locality of the superior longitudinal +sinus. The great lateral sinus is marked by the superior occipital ridge +passing from the point B outwards to the mastoid process. The central point B +of the side of the head, Plate 21, marks the locality of the root of the +meningeal artery within the cranium, and from this point the vessel branches +forwards and backwards over the interior of the cranium. +</p> + +<p> +The nasal fossae are situated on either side of the median partition formed by +the vomer and cartilaginous nasal septum. Both nasal fossae are open anteriorly +and posteriorly; but laterally they do not, in the normal state of these parts, +communicate. The two posterior nares answering to the two nasal fossae open +into the upper part of the bag of the pharynx at 8, Plate 20, which marks the +opening of the Eustachian tube. +</p> + +<p> +The structures observable in both the nasal fossae absolutely correspond, and +the foramina which open into each correspond likewise. All structures situated +on either side of the median line are similar. And the structure which occupies +the median line is itself double, or duality fused into symmetrical unity. The +osseous nasal septum is composed of two laminae laid side by side. The spongy +bones, X W, are attached to the outer wall of the nasal fossa, and are situated +one above the other. These bones are three in number, the uppermost is the +smallest. The outer wall of each naris is grooved by three fossae, called +meatuses, and these are situated between the spongy bones. Each meatus receives +one or more openings of various canals and cavities of the facial apparatus. +The sphenoidal sinus near F opens into the upper meatus. The frontal, Z, and +maxillary sinuses open into the middle meatus, and the nasal duct opens into +the inferior sinus beneath the anterior inferior angle of the lower spongy +bone, W. +</p> + +<p> +In the living body the very vascular fleshy and glandular Schneiderian membrane +which lines all parts of the nasal fossa almost completely fills this cavity. +When polypi or other growths occupy the nasal fossae, they must gain room at +the expense of neighbouring parts. The nasal duct may have a bent probe +introduced into it by passing the instrument along the outer side of the floor +of the nasal fossa as far back as the anterior inferior angle of the lower +spongy bone, W, at which locality the duct opens. An instrument of sufficient +length, when introduced into the nostrils in the same direction, will, if +passed backwards through the posterior nares, reach the opening of the +Eustachian tube, 8. +</p> + +<p> +While the jaws are closed, the tongue, R, Plate 20, occupies the oral cavity +almost completely. When the jaws are opened they form a cavity between them +equal in capacity to the degree at which they are sundered from each other. The +back of the pharynx can be seen when the jaws are widely opened if the tongue +be depressed, as R, Plate 20. The hard palate, U, which forms the roof of the +mouth, is extended further backwards by the soft palate, V, which hangs as the +loose velum of the throat between the nasal fossae above and the fauces below. +Between the velum palati, V, and the root of the tongue, we may readily +discern, when the jaws are open, two ridges of arching form, 5, 6, on either +side of the fauces. These prominent arches and their fellows are named the +pillars of the fauces. The anterior pillar, 5, is formed by the submucous +palato-glossus muscle; the posterior pillar, 6, is formed by the +palato-pharyngeus muscle. Between these pillars, 5 and 6, is situated the +tonsil, S, beneath the mucous membrane. When the tonsils of opposite sides +become inflamed and suppurate, an incision may be made into either gland +without much chance of wounding the internal carotid artery; for, in fact, this +vessel lies somewhat removed from it behind. In Plate 21, that point of the +superior constrictor of the pharynx, marked D, indicates the situation of the +tonsil gland; and a considerable interval will be seen to exist between D and +the internal carotid vessel F. +</p> + +<p> +If the head be thrown backwards the nasal and oral cavities will look almost +vertically towards the pharyngeal pouch. When the juggler is about to “swallow +the sword,” he throws the head back so as to bring the mouth and fauces in a +straight line with the pharynx and oesophagus. And when the surgeon passes the +probang or other instruments into the oesophagus, he finds it necessary to give +the head of the person on whom he operates the same inclination backwards. When +instruments are being passed into the oesophagus through the nasal fossa, they +are not so likely to encounter the rima glottidis below the epiglottis, 9, as +when they are being passed into the oesophagus by the mouth. The glottis may be +always avoided by keeping the point of the instrument pressing against the back +of the pharynx during its passage downwards. +</p> + +<p> +When in suspended animation we endeavour to inflate the lungs through the nose +or mouth, we should press the larynx, 10, 11,12, backwards against the +vertebral column, so as to close the oesophageal tube. +</p> + +<h4>DESCRIPTION OF PLATES 20 & 21.</h4> + +<p> +PLATE 20. +</p> + +<p> +A A. The dura-matral falx; A*, its attachment to the tentorium. +</p> + +<p> +B. Torcular Herophili. +</p> + +<p> +C. Dura-mater lining the spinal canal. +</p> + +<p> +D D*. Axis vertebra. +</p> + +<p> +E E*. Atlas vertebra. +</p> + +<p> +F F*. Basilar processes of the sphenoid and occipital bones. +</p> + +<p> +G. Petrous part of the temporal bone. +</p> + +<p> +H. Cerebellar fossa. +</p> + +<p> +I I*. Seventh cervical vertebra. +</p> + +<p> +K K*. First rib surrounding the upper part of the pleural sac. +</p> + +<p> +L L*. Subclavian artery of the right side overlying the pleural sac. +</p> + +<p> +M M*. Right subclavian vein. +</p> + +<p> +N. Right common carotid artery cut at its origin. +</p> + +<p> +O. Trachea. +</p> + +<p> +P. Thyroid body. +</p> + +<p> +Q. Oesophagus. +</p> + +<p> +R. Genio-hyo-glossus muscle. +</p> + +<p> +S. Left tonsil beneath the mucous membrane. +</p> + +<p> +T. Section of the lower maxilla. +</p> + +<p> +U. Section of the upper maxilla. +</p> + +<p> +V. Velum palati in section. +</p> + +<p> +W. Inferior spongy bone. +</p> + +<p> +X. Middle spongy bone. +</p> + +<p> +Y. Crista galli of oethmoid bone. +</p> + +<p> +Z. Frontal sinus. +</p> + +<p> +2. Anterior cartilaginous part of nasal septum. +</p> + +<p> +3. Nasal bone. +</p> + +<p> +4. Last molar tooth of the left side of lower jaw. +</p> + +<p> +5. Anterior pillar of the fauces. +</p> + +<p> +6. Posterior pillar of the fauces. +</p> + +<p> +7. Genio-hyoid muscle. +</p> + +<p> +8. Opening of Eustachian tube. +</p> + +<p> +9. Epiglottis. +</p> + +<p> +10. Hyoid bone. +</p> + +<p> +11. Thyroid bone. +</p> + +<p> +12. Cricoid bone. +</p> + +<p> +13. Thyroid axis. +</p> + +<p> +14. Part of anterior scalenus muscle. +</p> + +<p> +15. Humeral end of the clavicle. +</p> + +<p> +16. Part of posterior scalenus muscle. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/048P20_25.jpg"> +<img src="images/048P20_25.jpg" width="474" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 20</p> +</div> + +<p> +PLATE 21. +</p> + +<p> +A. Zygoma. +</p> + +<p> +B. Articular glenoid fossa of temporal bone. +</p> + +<p> +C. External pterygoid process lying on the levator and tensor palati muscles. +</p> + +<p> +D. Superior constrictor of pharynx. +</p> + +<p> +E. Transverse process of the Atlas. +</p> + +<p> +F. Internal carotid artery. Above the point F, is seen the glosso-pharyngeal +nerve; below F, is seen the hypoglossal nerve. +</p> + +<p> +G. Middle constrictor of pharynx. +</p> + +<p> +H. Internal jugular vein. +</p> + +<p> +I. Common carotid cut across. +</p> + +<p> +K. Rectus capitis major muscle. +</p> + +<p> +L. Inferior constrictor of pharynx. +</p> + +<p> +M. Levator anguli scapulae muscle. +</p> + +<p> +N. Posterior scalenus muscle. +</p> + +<p> +O. Anterior scalenus muscle. +</p> + +<p> +P. Brachial plexus of nerves. +</p> + +<p> +Q. Trachea. +</p> + +<p> +R R*. Subclavian artery. +</p> + +<p> +S. End of internal jugular vein. +</p> + +<p> +T. Bracheo-cephalic artery. +</p> + +<p> +U U*. Roots of common carotid arteries. +</p> + +<p> +V. Thyroid body. +</p> + +<p> +W. Thyroid cartilage. +</p> + +<p> +X. Hyoid bone. +</p> + +<p> +Y. Hyo-glossus muscle. +</p> + +<p> +Z. Upper maxillary bone. +</p> + +<p> +2. Inferior maxillary branch of fifth cerebral nerve. +</p> + +<p> +3. Digastric muscle cut. +</p> + +<p> +4. Styloid process. +</p> + +<p> +5. External carotid artery. +</p> + +<p> +6 6. Lingual artery. +</p> + +<p> +7. Roots of cervical plexus of nerves. +</p> + +<p> +8. Thyroid axis; 8*, thyroid artery, between which and Q, the trachea, is seen +the inferior laryngeal nerve. +</p> + +<p> +9. Omo-hyoid muscle cut. +</p> + +<p> +10. Sternal end of clavicle. +</p> + +<p> +11. Upper rings of trachea, which may with most safety be divided in +tracheotomy. +</p> + +<p> +12. Cricoid cartilage. +</p> + +<p> +13. Crico-thyroid interval where laryngotomy is performed. +</p> + +<p> +14. Genio-hyoid muscle. +</p> + +<p> +15. Section of lower maxilla. +</p> + +<p> +16. Parotid duct. +</p> + +<p> +17. Lingual attachment of styloglossus muscle, with part of the gustatory nerve +seen above it. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/048P21_25.jpg"> +<img src="images/048P21_25.jpg" width="438" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 21</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap11"></a>COMMENTARY ON PLATE 22.</h2> + +<p> +THE RELATIVE POSITION OF THE SUPERFICIAL ORGANS OF THE THORAX AND ABDOMEN. +</p> + +<p> +In the osseous skeleton, the thorax and abdomen constitute a common +compartment. We cannot, while we contemplate this skeleton, isolate the one +region from the other by fact or fancy. The only difference which I can +discover between the regions called thorax and abdomen, in the osseous +skeleton, (considering this body morphologically,) results, simply, from the +circumstance that the ribs, which enclose thoracic space, have no <i>osseous +</i>counterparts in the abdomen enclosing abdominal space, and this difference +is merely histological. In man and the mammalia the costal arches hold relation +with the pulmonary organs, and these costae fail at that region where the +ventral organs are located. In birds, and many reptiles, the costal arches +enclose the common thoracico-abdominal region, as if it were a common pulmonary +region. In fishes the costal arches enclose the thoracico-abdominal region, +just as if it were a common abdominal region. I merely mention these general +facts to show that costal enclosure does not actually serve to isolate the +thorax from the abdomen in the lower classes of animals; and on turning to the +human form, I find that this line of separation between the two compartments is +so very indefinite, that, as pathologists, we are very liable to err in our +diagnosis between the diseased and the healthy organs of either region, as they +lie in relation with the moveable diaphragm or septum in the living body. The +contents of the whole trunk of the body from the top of the sternum to the +perineum are influenced by the respiratory motions; and it is most true that +the diaphragmatic line, H F H*, is alternately occupied by those organs +situated immediately above and below it during the performance of these +motions, even in health. +</p> + +<p> +The organs of the thoracic region hold a certain relation to each other and to +the thoracic walls. The organs of the abdomen hold likewise a certain relation +to each other and to the abdominal parietes. The organs of both the thorax and +the abdomen have a certain relation to each other, as they lie above and below +the diaphragm. In dead nature these relations are fixed and readily +ascertainable, but in living, moving nature, the organs influence this relative +position, not only of each other, but also of that which they bear to the +cavities in which they are contained. This change of place among the organs +occurs in the normal or healthy state of the living body, and, doubtless, +raises some difficulty in the way of our ascertaining, with mathematical +precision, the actual state of the parts which we question, by the physical +signs of percussion and auscultation. In disease this change of place among +these organs is increased, and the difficulty of making a correct diagnosis is +increased also in the same ratio. For when an emphysematous lung shall fully +occupy the right thoracic side from B to L, then G, the liver, will protrude +considerably into the abdomen beneath the right asternal ribs, and yet will not +be therefore proof positive that the liver is diseased and abnormally enlarged. +Whereas, on the other hand, when G, the liver, is actually diseased, it may +occupy a situation in the right side as high as the fifth or sixth ribs, +pushing the right lung upwards as high as that level; and, therefore, while +percussion elicits a dull sound over this place thus occupied, such sound will +not be owing to a hepatized lung, but to the absence of the lung caused by the +presence of the liver. +</p> + +<p> +In the healthy adult male body, Plate 22, the two lungs, D D*, whilst in their +ordinary expanded state, may be said to range over all that region of the trunk +of the body which is marked by the sternal and asternal ribs. The heart, E, +occupies the thoracic centre, and part of the left thoracic side. The heart is +almost completely enveloped in the two lungs. The only portion of the heart and +pericardium, which appears uncovered by the lung on opening the thorax, is the +base of the right ventricle, E, situated immediately behind the lower end of +the sternum, where this bone is joined by the cartilages of the sixth and +seventh ribs. The lungs range perpendicularly from points an inch above B, the +first rib, downwards to L, the tenth rib, and obliquely downwards and backwards +to the vertebral ends of the last ribs. This space varies in capacity, +according to the degree in which the lungs are expanded within it. The increase +in thoracic space is attained, laterally, by the expansion of the ribs, C I; +and vertically, by the descent of the diaphragm, H, which forces downwards the +mass of abdominal viscera. The contraction of thoracic space is caused by the +approximation of all the ribs on each side to each other; and by the ascent of +the diaphragm. The expansion of the lungs around the heart would compress this +organ, were it not that the costal sides yield laterally while the diaphragm +itself descends. The heart follows the ascent and descent of the diaphragm, +both in ordinary and forced respiration. +</p> + +<p> +But however much the lungs vary in capacity, or the heart as to position in the +respiratory motions, still the lungs are always closely applied to the thoracic +walls. Between the pleura costalis and pulmonalis there occurs no interval in +health. The thoracic parietes expand and contract to a certain degree; and to +that same degree, and no further, do the lungs within the thorax expand and +contract. By no effort of expiration can the animal expel all the air +completely from its lungs, since by no effort of its own, can it contract +thoracic space beyond the natural limit. On the other hand, the utmost degree +of expansion of which the lungs are capable, exactly equals that degree in +which the thoracic walls are dilatable by the muscular effort; and, therefore, +between the extremes of inspiration and expiration, the lungs still hold +closely applied to the costal parietes. The air within the lungs is separated +from the air external to the thorax, by the thoracic parietes. The air within +and external to the lungs communicate at the open glottis. When the glottis +closes and cuts off the communication, the respiratory act ceases—the lungs +become immovable, and the thoracic walls are (so far as the motions of +respiration are concerned) rendered immovable also. The muscles of respiration +cannot, therefore, produce a vacuum between the pulmonic and costal pleura, +either while the external air has or has not access to the lungs. Upon this +fact the mechanism of respiration mainly depends; and we may see a still +further proof of this in the circumstance that, when the thoracic parietes are +pierced, so as to let the external air into the cavity of the pleura, the lung +collapses and the thoracic side ceases to exert an expansile influence over the +lung. When in cases of fracture of the rib the lung is wounded, and the air of +the lung enters the pleura, the same effect is produced as when the external +air was admitted through an opening in the side. +</p> + +<p> +When serous or purulent effusion takes place within the cavity of the pleura, +the capacity of the lung becomes lessened according to the quantity of the +effusion. It is more reasonable to expect that the soft tissue of the lung +should yield to the quantity of fluid within the pleural cavity, than that the +rigid costal walls should give way outwardly; and, therefore, it seldom happens +that the practitioner can discover by the eye any strongly-marked difference +between the thoracic walls externally, even when a considerable quantity of +either serum, pus, or air, occupies the pleural sacs. +</p> + +<p> +In the healthy state of the thoracic organs, a sound characteristic of the +presence of the lung adjacent to the walls of the thorax may be elicited by +percussion, or heard during the respiratory act through the stethoscope, over +all that costal space ranging anteriorly between B, the first rib, and I K, the +eight and ninth ribs. The respiratory murmur can be heard below the level of +these ribs posteriorly, for the lung descends behind the arching diaphragm as +far as the eleventh rib. +</p> + +<p> +When fluid is effused into the pleural cavity, the ribs are not moved by the +intercostal muscles opposite the place occupied by the fluid, for this has +separated the lung from the ribs. The fluid has compressed the lung; and in the +same ratio as the lung is prevented from expanding, the ribs become less +moveable. The presence of fluid in the pleural sac is discoverable by dulness +on percussion, and, as might be expected, by the absence of the respiratory +murmur at that locality which the fluid occupies. Fluid, when effused into the +pleural sac, will of course gravitate; and its position will vary according to +the position of the patient. The sitting or standing posture will therefore +suit best for the examination of the thorax in reference to the presence of +fluid. +</p> + +<p> +Though the lungs are closely applied to the costal sides at all times in the +healthy state of these organs, still they slide freely within the thorax during +the respiratory motions—forwards and backwards—over the serous pericardium, E, +and upwards and downwards along the pleura costalis. The length of the +adhesions which supervene upon pleuritis gives evidence of the extent of these +motions. When the lung becomes in part solidified and impervious to the +inspired air, the motions of the thoracic parietes opposite to the part are +impeded. Between a solidified lung and one which happens to be compressed by +effused fluid it requires no small experience to distinguish a difference, +either by percussion or the use of the stethoscope. It is great experience +alone that can diagnose hydro-pericardium from hypertrophy of the substance of +the heart by either of these means. +</p> + +<p> +The thoracic viscera gravitate according to the position of the body. The heart +in its pericardial envelope sways to either side of the sternal median line +according as the body lies on this or that side. The two lungs must, therefore, +be alternately affected as to their capacity according as the heart occupies +space on either side of the thorax. In expiration, the heart, E, is more +uncovered by the shelving edges of the lungs than in inspiration. In +pneumothorax of either of the pleural sacs the air compresses the lung, pushes +the heart from its normal position, and the space which the air occupies in the +pleura yields a clear hollow sound on percussion, whilst, by the ear or +stethoscope applied to a corresponding part of the thoracic walls, we discover +the absence of the respiratory murmur. +</p> + +<p> +The transverse diameter of the thoracic cavity varies at different levels from +above downwards. The diameter which the two first ribs, B B*, measure, is the +least. That which is measured by the two eighth ribs, I I*, is the greatest. +The perpendicular depth of the thorax, measured anteriorly, ranges from A, the +top of the sternum, to F, the xyphoid cartilage. Posteriorly, the perpendicular +range of the thoracic cavity measures from the spinous process of the seventh +cervical vertebra above, to the last dorsal spinous process below. In full, +deep-drawn inspiration in the healthy adult, the ear applied to the thoracic +walls discovers the respiratory murmur over all the space included within the +above mentioned bounds. After extreme expiration, if the thoracic walls be +percussed, this capacity will be found much diminished; and the extreme limits +of the thoracic space, which during full inspiration yielded a clear sound, +indicative of the presence of the lung, will now, on percussion, manifest a +dull sound, in consequence of the absence of the lung, which has receded from +the place previously occupied. +</p> + +<p> +Owing to the conical form of the thoracic space, the apex of which is measured +by the first ribs, B B*, and the basis by I I*, it will be seen that if +percussion be made directly from before, backwards, over the pectoral masses, R +R*, the pulmonic resonance will not be elicited. When we raise the arms from +the side and percuss the thorax between the folds of the axillae, where the +serratus magnus muscle alone intervenes between the ribs and the skin, the +pulmonic sound will answer clearly. +</p> + +<p> +At the hypochondriac angles formed between the points F, L, N, on either side +the lungs are absent both in inspiration and expiration. Percussion, when made +over the surface of the angle of the right side, discovers the presence of the +liver, G G*. When made over the median line, and on either side of it above the +umbilicus, N, we ascertain the presence of the stomach, M M*. In the left +hypochondriac angle, the stomach may also be found to occupy this place wholly. +</p> + +<p> +Beneath the umbilicus, N, and on either side of it as far outwards as the lower +asternal ribs, K L, thus ranging the abdominal parietes transversely, +percussion discovers the transverse colon, O, P, O*. The small intestines, S +S*, covered by the omentum, P*, occupy the hypogastric and iliac regions. +</p> + +<p> +The organs situated within the thorax give evidence that they are developed in +accordance to the law of symmetry. The lungs form a pair, one placed on either +side of the median line. The heart is a double organ, formed of the right and +left heart. The right lung differs from the left, inasmuch as we find the +former divided into three lobes, while the latter has only two. That place +which the heart now occupies in the left thoracic side is the place where the +third or middle lobe of the left lung is wanting. In the abdomen we find that +most of its organs are single. The liver, stomach, spleen, colon, and small +intestine form a series of single organs: each of these may be cleft +symmetrically. The kidneys are a pair. +</p> + +<p> +The extent to which the ribs are bared in the figure Plate 22, marks exactly +the form and transverse capacity of the thoracic walls. The diaphragm, H H*, +has had a portion of its forepart cut off, to show how it separates the thin +edges of both lungs above from the liver, G, and the stomach, M, below. These +latter organs, although occupying abdominal space, rise to a considerable +height behind K L, the asternal ribs, a fact which should be borne in mind when +percussing the walls of the thorax and abdomen at this region. +</p> + +<h4>DESCRIPTION OF PLATE 22.</h4> + +<p> +A. Upper bone of the sternum. +</p> + +<p> +B B*. Two first ribs. +</p> + +<p> +C C*. Second pair of ribs. +</p> + +<p> +D D*. Right and left lungs. +</p> + +<p> +E. Pericardium, enveloping the heart—the right ventricle. +</p> + +<p> +F. Lower end of the sternum. +</p> + +<p> +G G*. Lobes of the liver. +</p> + +<p> +H H*. Right and left halves of the diaphragm in section. The right half +separating the right lung from the liver; the left half separating the left +lung from the broad cardiac end of the stomach. +</p> + +<p> +I I*. Eighth pair of ribs. +</p> + +<p> +K K*. Ninth pair of ribs. +</p> + +<p> +L L*. Tenth pair of ribs. +</p> + +<p> +M M*. The stomach; M, its cardiac bulge; M*, its pyloric extremity. +</p> + +<p> +N. The umbilicus. +</p> + +<p> +OO*. The transverse colon. +</p> + +<p> +P P*. The omentum, covering the transverse colon and small intestines. +</p> + +<p> +Q. The gall bladder. +</p> + +<p> +R R*. The right and left pectoral prominences. +</p> + +<p> +S S*. Small intestines. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/052P22_25.jpg"> +<img src="images/052P22_25.jpg" width="404" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 22</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap12"></a>COMMENTARY ON PLATE 23.</h2> + +<p> +THE RELATIVE POSITION OF THE DEEPER ORGANS OF THE THORAX AND THOSE OF THE +ABDOMEN. +</p> + +<p> +The size or capacity of the thorax in relation to that of the abdomen varies in +the individual at different periods of life. At an early age, the thorax, +compared to the abdomen, is less in proportion than it is at adult age. The +digestive organs in early age preponderate considerably over the respiratory +organs; whereas, on the contrary, in the healthy and well-formed adult, the +thoracic cavity and organs of respiration manifest a greater relative +proportion to the ventral cavity and organs. At the adult age, when sexual +peculiarities have become fully marked, the thoracic organs of the male body +predominate over those of the abdomen, whilst in the female form the ventral +organs take precedence as to development and proportions. This diversity in the +relative capacity of the thorax and abdomen at different stages of development, +and also in persons of different sexes, stamps each individual with +characteristic traits of physical conformation; and it is required that we +should take into our consideration this normal diversity of character, while +conducting our examinations of individuals in reference to the existence of +disease. +</p> + +<p> +The heart varies in some measure, not only as to size and weight, but also as +to position, even in healthy individuals of the same age and sex. The level at +which the heart is in general found to be situated in the thorax is that +represented in PLATE 23, where the apex points to the sixth intercostal space +on the left side above K, while the arch of the aorta rises to a level with C, +the second costal cartilage. In some instances, the heart may be found to +occupy a much lower position in the thorax than the one above mentioned, or +even a much higher level. The impulse of the right ventricle, F, has been +noticed occasionally as corresponding to a point somewhat above the middle of +the sternum and the intercostal space between the fourth and fifth left costal +cartilages; while in other instances its beating was observable as low down as +an inch or more below the xiphoid cartilage, and these variations have existed +in a state of health. +</p> + +<p> +Percussion over the region of the heart yields a dull flat sound. The sound is +dullest opposite the right ventricle, F; whilst above and to either side of +this point, where the heart is overlapped by the anterior shelving edges of +both lungs, the sound is modified in consequence of the lung’s resonant +qualities. The heart-sounds, as heard through the stethoscope, in valvular +disease, will, of course, be more distinctly ascertained at the locality of F, +the right ventricle, which is immediately substernal. While the body lies +supine, the heart recedes from the forepart of the chest; and the lungs during +inspiration expanding around the heart will render its sounds less distinct. In +the erect posture, the heart inclines forwards and approaches the anterior wall +of the thorax. When the heart is hypertrophied, the lungs do not overlap it to +the same extent as when it is of its ordinary size. In the latter state, the +elastic cushion of the lung muffles the heart’s impulse. In the former state, +the lung is pushed aside by the overgrown heart, the strong muscular walls of +which strike forcibly against the ribs and sternum. +</p> + +<p> +The thorax is separated from the abdomen by the moveable diaphragm. The heart, +F E, lies upon the diaphragm, L L*. The liver, M, lies immediately beneath the +right side of this muscular septum, L*, while the bulging cardiac end of the +stomach, O, is in close contact with it on the left side, L. As these three +organs are attached to the diaphragm—the heart by its pericardium, the stomach +by the tube of the oesophagus, and the liver by its suspensory ligaments—it +must happen that the diaphragm while descending and ascending in the motions of +inspiration and expiration will communicate the same alternate motions to the +organs which are connected with it. +</p> + +<p> +In ordinary respiration the capacity of the thorax is chiefly affected by the +motions of the diaphragm; and the relative position which this septum holds +with regard to the thoracic and abdominal chambers will cause its motions of +ascent and descent to influence the capacity of both chambers at the same time. +When the lungs expand, they follow the descent of the diaphragm, which forces +the abdominal contents downwards, and thus what the thorax gains in space the +abdomen loses. When the lungs contract, the diaphragm ascends, and by this act +the abdomen gains that space which the thorax loses. But the organs of the +thoracic cavity perform a different office in the economy from those of the +abdomen. The air which fills the lungs is soon again expired, whilst the +ingesta of the abdominal viscera are for a longer period retained; and as the +space, which by every inspiration the thorax gains from the abdomen, would +cause inconvenient pressure on the distended organs of this latter cavity, so +we find that to obviate this inconvenience, nature has constructed the anterior +parietes of the abdomen of yielding material. The muscular parietes of the +abdomen relax during every inspiration, and thus this cavity gains that space +which it loses by the encroachment of the dilating lungs. +</p> + +<p> +The mechanical principle upon which the abdominal chamber is constructed, +enables it to adjust its capacity to such exigence or pressing necessity as its +own visceral organs impose on it, from time to time; and the relation which the +abdominal cavity bears to the thoracic chamber, enables it also to be +compensatory to this latter. When the inspiratory thorax gains space from the +abdomen, or when space is demanded for the increasing bulk of the alimentary +canal, or for the enlarging pregnant uterus; or when, in consequence of +disease, such as dropsical accumulation, more room is wanted, then the +abdominal chamber supplies the demand by the anterior bulge or swell of its +expansile muscular parietes. +</p> + +<p> +The position of the heart itself is affected by the expansion of the lungs on +either side of it. As the expanding lungs force the diaphragm downwards, the +heart follows it, and all the abdominal viscera yield place to the descending +thoracic contents. In strong muscular efforts the diaphragm plays an important +part, for, previously to making forced efforts, the lungs are distended with +air, so as to swell and render fixed the thoracic walls into which so many +powerful muscles of the shoulders, the neck, back, and abdomen, are inserted; +at the same time the muscular diaphragm L L*, becomes tense and unbent from its +arched form, thereby contracting abdominal space, which now has no compensation +for this loss of space, since the abdominal parietes are also rendered firm and +unyielding. It is at this crisis of muscular effort that the abdominal viscera +become impacted together; and, acting by their own elasticity against the +muscular force, make an exit for themselves through the weakest parts of the +abdominal walls, and thus herniae of various kinds are produced. The most +common situations of abdominal herniae are at the inguinal regions, towards +which the intestines, T T, naturally gravitate; and at these situations the +abdominal parietes are weak and membranous. +</p> + +<p> +The contents of a hernial protrusion through the abdominal parietes, correspond +in general with those divisions of the intestinal tube, which naturally lie +adjacent to the part where the rupture has taken place. In the umbilical hernia +it is either the transverse colon S*, or some part of the small intestine +occupying the median line, or both together, with some folds of the omentum, +which will be found to form the contents of this swelling. When the diaphragm +itself sustains a rupture in its left half, the upper portion of the descending +colon, S, protrudes through the opening. A diaphragmatic hernia has not, so far +as I am aware, been seen to occur in the right side; and this exemption from +rupture of the right half of the diaphragm may be accounted for anatomically, +by the fact that the liver, M, defends the diaphragm at this situation. The +liver occupies the whole depth of the right hypochondrium; and intervenes +between the diaphragm L*, and the right extremity of the transverse colon, S**. +</p> + +<p> +The contents of a right inguinal hernia consist of the small intestine, T. The +contents of the right crural hernia are formed by either the small intestine, +T, or the intestinum caecum, S***. I have seen a few cases in which the caecum +formed the right crural hernia. Examples are recorded in which the intestine +caecum formed the contents of a right inguinal hernia. The left inguinal and +crural herniae contain most generally the small intestine, T, of the left side. +</p> + +<p> +The right lung, I*, is shorter than the left; for the liver, M, raises the +diaphragm, L, to a higher level within the thorax, on the right side, than it +does on the left. When the liver happens to be diseased and enlarged, it +encroaches still more on thoracic space; but, doubtless, judging from the +anatomical connexions of the liver, we may conclude that when it becomes +increased in volume it will accommodate itself as much at the expense of +abdominal space. The liver, in its healthy state and normal proportions, +protrudes for an inch (more or less) below the margins of the right asternal +ribs. The upper or convex surface of the liver rises beneath the diaphragm to a +level corresponding with the seventh or sixth rib, but this position will vary +according to the descent and ascent of the diaphragm in the respiratory +movements. The ligaments by which the liver is suspended do not prevent its +full obedience to these motions. +</p> + +<p> +The left lung, I, descends to a lower level than the right; and the left +diaphragm upon which it rests is itself supported by the cardiac end of the +stomach. When the stomach is distended, it does not even then materially +obstruct the expansion of the left lung, or the descent of the left diaphragm, +for the abdominal walls relax and allow of the increasing volume of the stomach +to accommodate itself. The spleen, R, is occasionally subject to an +extraordinary increase of bulk; and this organ, like the enlarged liver and the +distended stomach, will, to some extent, obstruct the movements of the +diaphragm in the act of respiration, but owing to its free attachments it +admits of a change of place. The abdominal viscera, one and all, admit of a +change of place; the peculiar forms of those mesenteric bonds by which they are +suspended, allow them to glide freely over each other; and this circumstance, +together with the yielding nature of the abdominal parietes, allows the +thoracic organs to have full and easy play in the respiratory movements +performed by agency of the diaphragm. +</p> + +<p> +The muscles of respiration perform with ease so long as the air has access to +the lungs through the normal passage, viz., the trachea. While the principle of +the thoracic pneumatic apparatus remains underanged, the motor powers perform +their functions capably. The physical or pneumatic power acts in obedience to +the vital or muscular power, while both stand in equilibrium; but the +ascendancy of the one over the other deranges the whole thoracic machine. When +the glottis closes by muscular spasm and excludes the external air, the +respiratory muscles cease to exert a motor power upon the pulmonary cavity; +their united efforts cannot cause a vacuum in thoracic space in opposition to +the pressure of the external air. When, in addition to the natural opening of +the glottis, a false opening is made in the side at the point K, the air within +the lung at I, and external to it in the now open pleural cavity, will stand in +equilibrio; the lung will collapse as having no muscular power by which to +dilate itself, and the thoracic dilator muscles will cease to affect the +capacity of the lung, so long as by their action in expanding the thoracic +walls, the air gains access through the side to the pleural sac external to the +lung. +</p> + +<p> +Whether the air be admitted into the pleural sac, by an opening made in the +side from without, or by an opening in the lung itself, the mechanical +principle of the respiratory apparatus will be equally deranged. Pneumo-thorax +will be the result of either lesion; and by the accumulation of air in the +pleura the lung will suffer pressure. This pressure will be permanent so long +as the air has no egress from the cavity of the pleura. +</p> + +<p> +The permanent distention of the thoracic cavity, caused by the accumulation of +air in the pleural sac, or by the diffusion of air through the interlobular +cellular tissue consequent on a wound of the lung itself, will equally obstruct +the breathing; and though the situation of the accumulated air is in fact +anatomically different in both cases, yet the effect produced is similar. +Interlobular pressure and interpleural pressure result in the same thing, viz., +the permanent retention of the air external to the pulmonary cells, which, in +the former case, are collapsed individually; and, in the latter case, in the +mass. Though the emphysematous lung is distended to a size equal to the healthy +lung in deep inspiration, yet we know that emphysematous distention, being +produced by extrabronchial air accumulation, is, in fact, obstructive to the +respiratory act. The emphysematous lung will, in the same manner as the +distended pleural sac, depress the diaphragm and render the thoracic muscles +inoperative. The foregoing observations have been made in reference to the +effect of wounds of the thorax, the proper treatment of which will be obviously +suggested by our knowledge of the state of the contained organs which have +suffered lesion. +</p> + +<h4>DESCRIPTION OF PLATE 23.</h4> + +<p> +A. Upper end of the sternum. +</p> + +<p> +B B.* First pair of ribs. +</p> + +<p> +C C.* Second pair of ribs. +</p> + +<p> +D. Aorta, with left vagus and phrenic nerves crossing its transverse arch. +</p> + +<p> +E. Root of pulmonary artery. +</p> + +<p> +F. Right ventricle. +</p> + +<p> +G. Right auricle. +</p> + +<p> +H. Vena cava superior, with right phrenic nerve on its outer border. +</p> + +<p> +I I*. Right and left lungs collapsed, and turned outwards, to show the heart’s +outline. +</p> + +<p> +K K*. Seventh pair of ribs. +</p> + +<p> +L L*. The diaphragm in section. +</p> + +<p> +M. The liver in section. +</p> + +<p> +N. The gall bladder with its duct joining the hepatic duct to form the common +bile duct. The hepatic artery is seen superficial to the common duct; the vena +portae is seen beneath it. The patent orifices of the hepatic veins are seen on +the cut surface of the liver. +</p> + +<p> +O. The stomach. +</p> + +<p> +P. The coeliac axis dividing into the coronary, splenic and hepatic arteries. +</p> + +<p> +Q. Inferior vena cava. +</p> + +<p> +R. The spleen. +</p> + +<p> +S S* S**. The transverse colon, between which and the lower border of seen the +gastro-epiploic artery, formed by the splenic and hepatic arteries. +</p> + +<p> +S***. Ascending colon in the right iliac region. +</p> + +<p> +T. Convolutions of the small intestines distended with air. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/056P23_25.jpg"> +<img src="images/056P23_25.jpg" width="427" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 23</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap13"></a>COMMENTARY ON PLATE 24.</h2> + +<p> +THE RELATIONS OF THE PRINCIPAL BLOODVESSELS TO THE VISCERA OF THE +THORACICO-ABDOMINAL CAVITY. +</p> + +<p> +The median line of the body is occupied by the centres of the four great +systems of organs which serve in the processes of circulation, respiration, +innervation, and nutrition. These organs being fashioned in accordance with the +law of symmetry, we find them arranged in close connexion with the vertebrate +centre of the osseous fabric, which is itself symmetrical. In this symmetrical +arrangement of the main organs of the trunk of the body, a mechanical principle +is prominently apparent; for as the centre is the least moveable and most +protected region of the form, so have these vitally important structures the +full benefit of this situation. The aortal trunk, G, of the arterial system is +disposed along the median line, as well for its own safety as for the fitting +distribution of those branches which spring symmetrically from either side of +it to supply the lateral regions of the body. +</p> + +<p> +The visceral system of bloodvessels is moulded upon the organs which they +supply. As the thoracic viscera differ in form and functional character from +those of the abdomen, so we find that the arterial branches which are supplied +by the aorta to each set, differ likewise in some degree. In the accompanying +figure, which represents the thoracic and abdominal visceral branches of the +aorta taken in their entirety, this difference in their arrangement may be +readily recognised. In the thorax, compared with the abdomen, we find that not +only do the aortic branches differ in form according to the variety of those +organs contained in either region, but that they differ numerically according +to the number of organs situated in each. The main vessel itself, however, is +common to both regions. It is the one thoracico-abdominal vessel, and this +circumstance calls for the comparison, not only of the several parts of the +great vessel itself, but of all the branches which spring from it, and of the +various organs which lie in its vicinity in the thorax and abdomen, and hence +we are invited to the study of these regions themselves connectedly. +</p> + +<p> +In the thorax, the aorta, G G*, is wholly concealed by the lungs in their +states both of inspiration and expiration. The first part of the aortic arch, +as it springs from the left ventricle of the heart, is the most superficial, +being almost immediately sub-sternal, and on a level with the sternal junctions +of the fourth ribs. By applying the ear at this locality, the play of the +aortic valves may be distinctly heard. From this point the aorta, G, rises and +arches from before, backwards, to the left side of the spine, G*. The arch of +the vessel lies more deeply between the two lungs than does its ventricular +origin. The descending thoracic aorta lies still more deeply situated at the +left side of the dorsal spine. At this latter situation it is in immediate +contact with the posterior thick part of the left lung; whilst on its right are +placed, L, the thoracic duct; I, the oesophagus; K, the vena azygos, and the +vertebral column. In Plate 26 may be seen the relation which the superior vena +cava, H, bears to the aortic arch, A. +</p> + +<p> +In the span of the aortic arch will be found, H*, the left bronchus, together +with the right branch of the pulmonary artery, and the right pulmonary veins. +The pneumo-gastric and phrenic nerves descend on either side of the arch. The +left pneumo-gastric nerve winds round beneath the arch at the point where the +obliterated ductus arteriosus joins it. See Plates 12 & 26. +</p> + +<p> +The pulmonary artery, B, Plates 1 & 2, lies close upon the fore part, and +conceals the origin, of the systemic aorta. Whenever, therefore, the semilunar +valves of either the pulmonary artery or the systemic aorta become diseased, it +must be extremely difficult to distinguish by the sounds alone, during life, in +which of the two the derangement exists. The origins of both vessels being at +the fore part of the chest, it is in this situation, of course, that the state +of their valves is to be examined. The descending part of the thoracic aorta, +G*, being at the posterior part of the chest, and lying on the vertebral ends +of the left thoracic ribs, will therefore require that we should examine its +condition in the living body at the dorsal aspect of the thorax. As the arch of +the aorta is directed from before backwards—that is, from the sternum to the +spine, it follows that when an aneurism implicates this region of the vessel, +the exact situation of the tumour must be determined by antero-posterior +examination; and we should recollect, that though on the fore part of the chest +the cartilages of the second ribs, where these join the sternum, mark the level +of the aortic arch, on the back of the chest its level is to be taken from the +vertebral ends of the third or fourth ribs. This difference is caused by the +oblique descent of the ribs from the spine to the sternum. The first and second +dorsal vertebrae, with which the first and second ribs articulate, are +considerably above the level of the first and second pieces of the sternum. +</p> + +<p> +In a practical point of view, the pulmonary artery possesses but small interest +for us; and in truth the trunk of the systemic aorta itself may be regarded in +the same disheartening consideration, forasmuch as when serious disease attacks +either vessel, the “tree of life” may be said to be lopped at its root. +</p> + +<p> +When an aneurism arises from the aortic arch it implicates those important +organs which are gathered together in contact with itself. The aneurismal +tumour may press upon and obstruct the bronchi, H H*; the thoracic duct, L; the +oesophagus, I; the superior vena cava, H, Plate 26, or wholly obliterate either +of the vagi nerves. The aneurism of the arch of the aorta may cause suffocation +in two ways—viz., either by pressing directly on the tracheal tube, or by +compressing and irritating the vagus nerve, whose recurrent branch will convey +the stimulus to the laryngeal muscles, and cause spasmodic closure of the +glottis. This anatomical fact also fully accounts for the constant cough which +attends some forms of aortic aneurism. The pulmonary arteries and veins are +also liable to obstruction from the tumour. This will occur the more certainly +if the aneurism spring from the right or the inferior side of the arch, and if +the tumour should not break at an early period, slow absorption, caused by +pressure of the tumour, may destroy even the vertebral column, and endanger the +spinal nervous centre. If the tumour spring from the left side or the fore part +of the arch, it may in time force a passage through the anterior wall of the +thorax. +</p> + +<p> +The principal branches of the thoracic aorta spring from the upper part of its +arch. The innominate artery, 2, is the first to arise from it; the left common +carotid, 6, and the left subclavian artery, 5, spring in succession. These +vessels being destined for the head and upper limbs, we find that the remaining +branches of the thoracic aorta are comparatively diminutive, and of little +surgical interest. The intercostal arteries occasionally, when wounded, call +for the aid of the surgeon; these arteries, like all other branches of the +aorta, are largest at their origin. Where these vessels spring from G, the +descending thoracic aorta, they present considerable caliber; but at this +inaccessible situation, they seldom or never call for surgical interference. As +the intercostal arteries pass outwards, traversing the intercostal spaces with +their accompanying nerves, they diminish in size. Each vessel divides at a +distance of about two inches, more or less, from the spine; and the upper +larger branch lies under cover of the inferior border of the adjacent rib. When +it is required to perform the operation of paracentesis thoracis, this +distribution of the vessel should be borne in mind; and also, that the farther +from the spine this operation is performed, the less in size will the vessels +be found. The intercostal artery is sometimes wounded by the fractured end of +the rib, in which case, if the pleura be lacerated, an effusion of blood takes +place within the thorax, compresses the lung, and obstructs respiration. +</p> + +<p> +The thoracic aorta descends along the left side of the spine, as far as the +last dorsal vertebra, at which situation the pillars of the diaphragm overarch +the vessel. From this place the aorta passes obliquely in front of the five +lumbar vertebrae, and on arriving opposite the fourth, it divides into the two +common iliac branches. The aorta, for an extent included between these latter +boundaries, is named the abdominal aorta, and from its fore part arise those +branches, which supply the viscera of the abdomen. +</p> + +<p> +The branches which spring from the abdominal aorta to supply the viscera of +this region, are considerable, both as to their number and size. They are, +however, of comparatively little interest in practice. To the anatomist they +present many peculiarities of distribution and form worthy of notice, as, for +example, their frequent anastomosis, their looping arrangement, and their large +size and number compared with the actual bulk of the organs which they supply. +As to this latter peculiarity, we interpret it according to the fact that here +the vessels serve other purposes in the economy besides that of the support and +repair of structure. The vessels are large in proportion to the great quantity +of fluid matter secreted from the whole extent of the inner surface of this +glandular apparatus—the gastro-intestinal canal, the liver, pancreas, and +kidneys. +</p> + +<p> +As anatomists, we are enabled, from a knowledge of the relative position of the +various organs and bloodvessels of both the thorax and abdomen, to account for +certain pathological phenomena which, as practitioners, we possess as yet but +little skill to remedy. Thus it would appear most probable that many cases of +anasarca of the lower limbs, and of dropsy of the belly, are frequently caused +by diseased growths of the liver, P, obstructing the inferior vena cava, R, and +vena portae, rather than by what we are taught to be the “want of balance +between secreting and absorbing surfaces.” The like occurrence may obstruct the +gall-ducts, and occasion jaundice. Over-distention of any of those organs +situated beneath the right hypochondrium, will obstruct neighbouring organs and +vessels. Mechanical obstruction is doubtless so frequent a source of +derangement, that we need not on many occasions essay a deeper search for +explaining the mystery of disease. +</p> + +<p> +In the right hypochondriac region there exists a greater variety of organs than +in the left; and disease is also more frequent on the right side. Affections of +the liver will consequently implicate a greater number of organs than +affections of the spleen on the left side, for the spleen is comparatively +isolated from the more important blood vessels and other organs. +</p> + +<p> +The external surface of the liver, P, lies in contact with the diaphragm, N, +the costal cartilages, M, and the upper and lateral parts of the abdominal +parietes; and when the liver becomes the seat of abscess, this, according to +its situation, will point and burst either into the thorax above, or through +the side between or beneath the false ribs, M. The hepatic abscess has been +known to discharge itself through the stomach, the duodenum, T, and the +transverse colon, facts which are readily explained on seeing the close +relationship which these parts hold to the under surface of the liver. When the +liver is inflamed, we account for the gastric irritation, either from the +inflammation having extended to the neighbouring stomach, or by this latter +organ being affected by “reflex action.” The hepatic cough is caused by the +like phenomena disturbing the diaphragm, N, with which the liver, P, lies in +close contact. +</p> + +<p> +When large biliary concretions form in S, the gallbladder, or in the hepatic +duct, Nature, failing in her efforts to discharge them through the common +bile-duct, into the duodenum, T, sets up inflammation and ulcerative +absorption, by aid of which processes they make a passage for themselves +through some adjacent part of the intestine, either the duodenum or the +transverse colon. In these processes the gall-bladder, which contains the +calculus, becomes soldered by effused lymph to the neighbouring part of the +intestinal tube, into which the stone is to be discharged, and thus its escape +into the peritoneal sac is prevented. When the hepatic abscess points +externally towards M, the like process isolates the matter from the cavities of +the chest and abdomen. +</p> + +<p> +In wounds of any part of the intestine, whether of X, the caecum, W, the +sigmoid flexure of the colon, or Z, the small bowel, if sufficient time be +allowed for Nature to establish the adhesive inflammation, she does so, and +thus fortifies the peritoneal sac against an escape of the intestinal matter +into it by soldering the orifice of the wounded intestine to the external +opening. In this mode is formed the artificial anus. The surgeon on principle +aids Nature in attaining this result. +</p> + +<h4>DESCRIPTION OF PLATE 24.</h4> + +<p> +A. The thyroid body. +</p> + +<p> +B. The trachea. +</p> + +<p> +C C*. The first ribs. +</p> + +<p> +D D*. The clavicles, cut at their middle. +</p> + +<p> +E. Humeral part of the great pectoral muscle, cut. +</p> + +<p> +F. The coracoid process of the scapula. +</p> + +<p> +G. The arch of the aorta. G*. Descending aorta in the thorax. +</p> + +<p> +H. Right bronchus. H*. Left bronchus. +</p> + +<p> +I. Oesophagus. +</p> + +<p> +K. Vena azygos receiving the intercostal veins. +</p> + +<p> +L. Thoracic duct. +</p> + +<p> +M M*. Seventh ribs. +</p> + +<p> +N N. The diaphragm, in section. +</p> + +<p> +O. The cardiac orifice of the stomach. +</p> + +<p> +P. The liver, in section, showing the patent orifices of the hepatic veins. +</p> + +<p> +Q. The coeliac axis sending off branches to the liver, stomach, and spleen. The +stomach has been removed, to show the looping anastomosis of these vessels +around the superior and inferior borders of the stomach. +</p> + +<p> +R. The inferior vena cava about to enter its notch in the posterior thick part +of the liver, to receive the hepatic veins. +</p> + +<p> +S. The gall-bladder, communicating by its duct with the hepatic duct, which is +lying upon the vena portae, and by the side of the hepatic artery. +</p> + +<p> +T. The pyloric end of the stomach, joining T*, the duodenum. +</p> + +<p> +U. The spleen. +</p> + +<p> +V V. The pancreas. +</p> + +<p> +W. The sigmoid flexure of the colon. +</p> + +<p> +X. The caput coli. +</p> + +<p> +Y. The mesentery supporting the numerous looping branches of the superior +mesenteric artery. +</p> + +<p> +Z. Some coils of the small intestine. +</p> + +<p> +2. Innominate artery. +</p> + +<p> +3. Right subclavian artery. +</p> + +<p> +4. Right common carotid artery. +</p> + +<p> +5. Left subclavian artery. +</p> + +<p> +6. Left common carotid artery. +</p> + +<p> +7. Left axillary artery. +</p> + +<p> +8. Coracoid attachment of the smaller pectoral muscle. +</p> + +<p> +9. Subscapular muscle. +</p> + +<p> +10. Coracoid head of the biceps muscle. +</p> + +<p> +11. Tendon of the latissimus dorsi muscle. +</p> + +<p> +12. Superior mesenteric artery, with its accompanying vein. +</p> + +<p> +13. Left kidney. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/060P24_25.jpg"> +<img src="images/060P24_25.jpg" width="438" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 24</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap14"></a>COMMENTARY ON PLATE 25.</h2> + +<p> +THE RELATION OF THE PRINCIPAL BLOODVESSELS OF THE THORAX AND ABDOMEN TO THE +OSSEOUS SKELETON, ETC. +</p> + +<p> +The arterial system of vessels assumes, in all cases, somewhat of the character +of the forms upon which they are distributed, or of the organs which they +supply. This mode of distribution becomes the more apparent, according as we +rise from particulars to take a view of <i>the whole</i>. With the same ease +that any piece of the osseous fabric, taken separately, may be known, so may +any one artery, taken apart from the rest, be distinguished as to the place +which it occupied, and the organs which it supplied in the economy. The +vascular skeleton, whether taken as a whole or in parts, exhibits +characteristics as apparent as are those of the osseous skeleton itself. The +main bloodvessel, A B C, of the trunk of the body, possesses character, <i>sui +generis</i>, just as the vertebral column itself manifests. The main arteries +of the head or limbs are as readily distinguishable, the one from the other, as +are the osseous fabrics of the head and limbs. The visceral arteries are +likewise moulded upon the forms which they supply. But evidently the arterial +system of vessels conforms most strictly with the general design of the osseous +skeleton. +</p> + +<p> +In Plate 25, viewed as a whole, we find that as the vertebral column stands +central to the osseous skeleton, so does the aorta, A B C, take the centre of +the arterial skeleton. As the ribs jut symmetrically from either side of the +vertebral column, so do the intercostal arteries follow them from their own +points of origin in the aorta. The one side of the osseous system is not more +like the other than is the system of vessels on one side like that of the +other. And in addition to this fact of a similarity of sides in the vascular as +in the osseous skeleton, I also remark that both extremities of the aorta +divide into branches which are similar to one another above and below, thereby +conforming exactly with the upper and lower limbs, which manifest unmistakable +points of analogy. +</p> + +<p> +The branches which spring from the aortic arch above are destined to supply the +head and upper limbs. They are, H, the innominate artery, and I K, the left +common carotid and subclavian arteries. The branches which spring from the +other extremity of the aorta are disposed for the support of the pelvis and +lower limbs; they are the right and left common iliac arteries, L M. These +vessels exhibit, at both ends of the main aortic trunk, a remarkable analogy; +and as the knowledge of this fact may serve to lighten the dry and weary detail +of descriptive anatomy, at the same time that it points directly to views of +practical import, I may be allowed briefly to remark upon it as follows:— +</p> + +<p> +The vessels which spring from both ends of the aorta, as seen in Plate 25, are +represented in what is called their normal character—that is, while three +vessels, H I K, spring separately from the aortic arch above, only two vessels, +L and M, arise from the aorta below. Let the anatomist now recall to mind the +“peculiarities” which at times appear amongst the vessels, H I K, above, and he +will find that some of them absolutely correspond to the normal arrangement of +the vessels, L M, below. And if he will consider the “peculiarities” which +occur to the normal order of the vessels, L M, below, he will find that some of +these correspond exactly to the normal order of the vessels above. Thus, when I +K of the left side join into a common trunk, this resembles the innominate +artery, H, of the right side, and then both these vessels perfectly correspond +with the two common iliac arteries below. When, on the other hand, L and M, the +common iliac arteries, divide, immediately after leaving the aortic trunk, into +two pairs of branches, they correspond to the abnormal condition of the +vessels, H I K, above; where H, immediately after leaving the aortic arch, +divides into two branches, like I K. With this generalization upon the normal +and abnormal facts of arrangement, exhibited among the vessels arising from +both ends of the aorta, I furnish to the reader the idea that the vessels, H I +K, above may present of the same figure as the vessels, L M, below, and these +latter may assume the character of H I K, above. Whenever, therefore, either +set of vessels becomes the subject of operation, such as having a ligature +applied to them, we must be prepared to meet the “varieties.” +</p> + +<p> +The veins assume an arrangement similar to that of the arteries, and the above +remarks will therefore equally apply to the veins. In the same way as the +arteries, H I K, may present in the condition of two common or brachio-cephalic +trunks, and thereby simulate the condition of the common iliac arteries, so we +find that the normal forms of the veins above and below actually and +permanently exhibit this very type. The brachio-cephalic veins, D B, Plate 26, +exactly correspond to each other, and to the common iliac veins, S T; and as +these latter correspond precisely with the common iliac arteries, so may we +infer that the original or typical condition of the vessels I K, Plate 25, is a +brachia-cephalic or common-trunk union corresponding with its brachio-cephalic +vein. When the vessels, I K, therefore present of the brachio-cephalic form as +the vessel H, we have a perfect correspondence between the two extremes of the +aorta, both as regards the arteries arising from it, and the veins which +accompany these arteries; and this condition of the vascular skeleton I regard +as the typical uniformity. The separate condition of the vessels I K, +notwithstanding the frequency of the occurrence of such, may be considered as a +special variation from the original type. +</p> + +<p> +The length of the aorta is variable in two or more bodies; and so, likewise, is +the length of the trunk of each of those great branches which springs from its +arch above, and of those into which it divides below, The modes in which these +variations as to length occur, are numerous. The top of the arch of the aorta +is described as being in general on a level with the cartilages of the second +ribs, from which point it descends on the left side of the spinal column; and +after having wound gradually forwards to the forepart of the lumbar spine at C, +divides opposite to the fourth lumbar vertebra into the right and left common +iliac arteries. The length of that portion of the aorta which is called +thoracic, is determined by the position of the pillars of the diaphragm F, +which span the vessel; and from this point to where the aorta divides into the +two common iliac arteries, the main vessel is named abdominal. The aorta, from +its arch to its point of division on the lumbar vertebrae, gradually diminishes +in caliber, according to the number and succession of the branches derived from +it. +</p> + +<p> +The varieties as to length exhibited by the aorta itself, and by the principal +branches which spring from it, occur under the following mentioned +conditions:—When the arch of the aorta rises above or sinks below its ordinary +position or level,—namely, the cartilages of the second ribs, as seen in Plate +25,—it varies not only its own length, but also that of the vessels H I K; for +if the arch of the aorta rises above this level, the vessels H I K become +shortened; and as the arch sinks below this level, these vessels become +lengthened. Even when the aortic arch holds its proper level in the thorax, +still the vessels H I K may vary as to length, according to the height to which +they rise in the neck previously to their division. When the aorta sinks below +its proper level at the same time that the vessels H I K rise considerably +above that point at which they usually arch or divide in the neck, then of +course their length becomes greatly increased. When, on the other hand, the +aortic arch rises above its usual level, whilst the vessels H I K arch and +divide at a low position in the neck, then their length becomes very much +diminished. The length of the artery H may be increased even though the arch of +the aorta holds its proper level, and though the vessels H I K occupy their +usual position in the neck; for it is true that the vessel H may spring from a +point of the aortic arch A nearer to the origin of this from the ventricle of +the heart, whilst the vessel I may be shortened, owing to the fact of its +arising from some part of H, the innominate vessel. All these circumstances are +so obvious, that they need no comment, were it not for the necessity of +impressing the surgeon with the fact that uncertainty as to a successful result +must always attach to his operation of including in a ligature either of the +vessels H I K, so as to affect an aneurismal tumour. +</p> + +<p> +Now whilst the length of the aorta and that of the principal branches springing +from its arch may be varied according to the above-mentioned conditions, so may +the length of the aorta itself, and of the two common iliac vessels, vary +according to the place whereat the aorta, C, bifurcates. Or, even when this +point of division is opposite the usual vertebra,—viz., the fourth +lumbar,—still the common iliac vessels may be short or long, according to the +place where they divide into external and internal iliac branches. The aorta +may bifurcate almost as high up as where the pillars of the diaphragm overarch +it, or as low down as the fifth lumbar vertebra. The occasional existence of a +sixth lumbar vertebra also causes a variety in the length, not only of the +aorta, but of the two common iliac vessels and their branches.[Footnote] +</p> + +<p> +[Footnote: Whatever may be the number of variations to which the branches +arising from both extremes of the aorta are liable, all anatomists admit that +the arrangement of these vessels, as exhibited in Plate 25, is by far the most +frequent. The surgical anatomist, therefore, when planning his operation, takes +this arrangement as the standard type. Haller asserts this order of the vessels +to be so constant, that in four hundred bodies which he examined, he found only +<i>one variety</i>—namely, that in which the left vertebral artery arose from +the aorta. Of other varieties described by authors, he observes—“Rara vero haec +omnia esse si dixero cum quadringenta nunc cadavera humana dissecuerim, fidem +forte inveniam.” (Iconum Anatom.) This variety is also stated by J. F. Meckel +(Handbuch der Mensch Anat.), Soemmerring (De Corp. Hum Fabrica), Boyer (Tr. +d’Anat.), and Mr. Harrison (Surg. Anal. of Art.), to be the most frequent. +Tiedemann figures this variety amongst others (Tabulae Arteriarum). Mr. Quain +regards as the most frequent change which occurs in the number of the branches +of the aortic arch, “that in which the left carotid is derived from the +innominate.” (Anatomy of the Arteries, &c.) A case is recorded by Petsche +(quoted in Haller), in which he states the bifurcation of the aorta to have +taken place at the origin of the renal arteries: (query) are we to suppose that +the renal arteries occupied their usual position? Cruveilhier records a case +(Anal. Descript.) in which the right common iliac was wanting, in consequence +of having divided at the aorta into the internal and external iliac branches. +Whether the knowledge of these and numerous other varieties of the arterial +system be of much practical import to the surgeon, he will determine for +himself. To the scientific anatomist, it must appear that the main object in +regard to them is to submit them to a strict analogical reasoning, so as to +demonstrate the operation of that law which has produced them. To this end I +have pointed to that analogy which exists between the vessels arising from both +extremities of the aorta. “Itaque convertenda plane est opera ad inquirendas et +notandas rerum similitudines et analoga tam integralibus quam partibus; illae +enim sunt, quae naturam uniunt, et constituere scientias incipiunt.” “Natura +enim non nisi parendo vincitur; et quod in contemplatione instar causae est; id +in operatione instar regulae est.” (Novum Organum Scientiarum, Aph. xxvii-iii, +lib. i.)] +</p> + +<p> +The difference between the perpendicular range of the anterior and posterior +walls of the thoracic cavity may be estimated on a reference to Plate 25, in +which the xyphoid cartilage, E, joined to the seventh pair of ribs, bounds its +anterior wall below, while F, the pillars of the diaphragm, bound its posterior +wall. The thoracic cavity is therefore considerably deeper in its posterior +than in its anterior wall; and this occasions a difference of an opposite kind +in the anterior and posterior walls of the abdomen; for while the abdomen +ranges perpendicularly from E to W, its posterior range measures only from F to +the ventra of the iliac bones, R. The arching form of the diaphragm, and the +lower level which the pubic symphysis occupies compared with that of the +cristae of the iliac bones, occasion this difference in the measure of both the +thorax and abdomen. +</p> + +<p> +The usual position of the kidneys, G G*, is on either side of the lumbar spine, +between the last ribs and the cristae of the iliac bones. The kidneys lie on +the fore part of the quadratus lumborum and psoae muscles. They are sometimes +found to have descended as low as the iliac fossae, R, in consequence of +pressure, occasioned by an enlarged liver on the right, or by an enlarged +spleen on the left. The length of the abdominal part of the aorta may be +estimated as being a third of the entire vessel, measured from the top of its +arch to its point of bifurcation. So many and such large vessels arise from the +abdominal part of the aorta, and these are set so closely to each other, that +it must in all cases be very difficult to choose a proper locality whereat to +apply a ligature on this region of the vessel. If other circumstances could +fairly justify such an operation, the anatomist believes that the circulation +might be maintained through the anastomosis of the internal mammary and +intercostal arteries with the epigastric; the branches of the superior +mesenteric with those of the inferior; and the branches of this latter with the +perineal branches of the pubic. The lumbar, the gluteal, and the circumflex +ilii arteries, also communicate around the hip-bone. The same vessels would +serve to carryon the circulation if either L, the common iliac, V, the external +iliac, or the internal iliac vessel, were the subject of the operation by +ligature. +</p> + +<h4>DESCRIPTION OF PLATE 25.</h4> + +<p> +A. The arch of the aorta. +</p> + +<p> +B B. The descending thoracic part of the aorta, giving off <i>b b</i>, the +intercostal arteries. +</p> + +<p> +C. The abdominal part of the aorta. +</p> + +<p> +D D. First pair of ribs. +</p> + +<p> +E. The xyphoid cartilage. +</p> + +<p> +G G*. The right and left kidneys. +</p> + +<p> +H. The brachio-cephalic artery. +</p> + +<p> +I. Left common carotid artery. +</p> + +<p> +K. Left subclavian artery. +</p> + +<p> +L. Right common iliac artery at its place of division. +</p> + +<p> +M. Left common iliac artery, seen through the meso-rectum. +</p> + +<p> +N. Inferior vena cava. +</p> + +<p> +O O. The sigmoid flexure of the colon. +</p> + +<p> +P. The rectum. +</p> + +<p> +Q. The urinary bladder. +</p> + +<p> +R. The right iliac fossa. +</p> + +<p> +S S. The right and left ureters. +</p> + +<p> +T. The left common iliac vein, joining the right under the right common iliac +artery to form the inferior vena cava. +</p> + +<p> +U. Fifth lumbar vertebra. +</p> + +<p> +V. The external iliac artery of right side. +</p> + +<p> +W. The symphysis pubis. +</p> + +<p> +X. An incision made over the locality of the femoral artery. +</p> + +<p> +<i>b b.</i> The dorsal intercostal arteries. +</p> + +<p> +c. The coeliac axis +</p> + +<p> +d. The superior mesenteric artery. +</p> + +<p> +<i>f f.</i> The renal arteries. +</p> + +<p> +<i>g.</i> The inferior mesenteric artery. +</p> + +<p> +<i>h</i>. The vas deferens bending over the epigastric artery and the os pubis, +after having passed through the internal abdominal ring. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/064P25_25.jpg"> +<img src="images/064P25_25.jpg" width="502" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 25</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap15"></a>COMMENTARY ON PLATE 26.</h2> + +<p> +THE RELATION OF THE INTERNAL PARTS TO THE EXTERNAL SURFACE OF THE BODY. +</p> + +<p> +An exact acquaintance with the normal character of the external form, its +natural prominences and depressions, produced by the projecting swell of +muscles and points of bone, &c., is of great practical importance to the +surgeon. These several marks described on the superficies he takes as certain +guides to the precise locality and relations of the more deeply situated +organs. And as, by dissection, Nature reveals to him the fact that she holds +constant to these relations, so, at least, may all that department of practice +which he bases upon this anatomical certainty be accounted as rooted in truth +and governed by fixed principles. The same organ bears the same special and +general relations in all bodies, not only of the human, but of all other +species of vertebrata; and from this evidence we conclude that the same marks +on surface indicate the exact situation of the same organs in all similar +bodies. +</p> + +<p> +The surface of the well-formed human body presents to our observation certain +standard characters with which we compare all its abnormal conditions. Every +region of the body exhibits fixed character proper to its surface. The neck, +the axilla, the thorax, the abdomen, the groin, have each their special marks, +by which we know them; and the eye, well versed in the characters proper to the +healthy state of each, will soonest discover the nature of all effects of +injury—such as dislocations, fractures, tumours of various kinds, &c. By +our acquaintance with the perfect, we discover the imperfect; by a comparison +with the geometrically true rectangled triangle, or circle, we estimate the +error of these forms when they have become distorted; and in the same way, by a +knowledge of what is the healthy normal standard of human form, we diagnose +correctly its slightest degree of deformity, produced by any cause whatever, +whether by sudden accident, or slowly-approaching disease. +</p> + +<p> +Now, the abnormal conditions of the surface become at once apparent to our +senses; but those diseased conditions which concern the internal organs require +no ordinary exercise of judgment to discover them. The outward form masks the +internal parts, and conceals from our direct view, like the covers of a closed +volume, the marvellous history contained within. But still the superficies is +so moulded upon the deeper situated structures, that we are induced to study it +as a map, which discourses of all which it incloses in the healthy or the +diseased state. Thus, the sternum points to A, the aorta; the middle of the +clavicles, to C, the subclavian vessels; the localities 9, 10 of the coracoid +processes indicate the place of the axillary vessels; the navel, P, points to +Q, the bifurcation of the aorta; the pubic symphysis, Z, directs to the urinary +bladder, Y. At the points 7, 8, may be felt the anterior superior spinous +processes of the iliac bones, between which points and Z, the iliac vessels, V, +6, pass midway to the thigh, and give off the epigastric vessels, 2, 3, to the +abdominal parietes. Between these points of general relations, which we trace +on the surface of the trunk of the body, the anatomist includes the entire +history of the special relations of the organs within contained. And not until +he is capable of summing together the whole picture of anatomical analysis, and +of viewing this in all its intricate relationary combination—even through and +beneath the closed surface of living moving nature, is he prepared to estimate +the conditions of disease, or interfere for its removal. +</p> + +<p> +When fluid accumulates on either side of the thoracic compartment to such an +excess that an opening is required to be made for its exit from the body, the +operator, who is best acquainted with the relations of the parts in a state of +health, is enabled to judge with most correctness in how far these parts, when +in a state of disease, have swerved from these proper relations. In the normal +state of the thoracic viscera, the left thoracic space, G A K N, is occupied by +the heart and left lung. The space indicated within the points A N K, in the +anterior region of the thorax, is occupied by the heart, which, however, is +partially overlapped by the anterior edge of the lung, PLATE 22. If the thorax +be deeply penetrated at any part of this region, the instrument will wound +either the lung or the heart, according to the situation of the wound. But when +fluid becomes effused in any considerable quantity within the pleural sac, it +occupies space between the lung and the thoracic walls; and the fluid +compresses the lung, or displaces the heart from the left side towards the +right. This displacement may take place to such an extent, that the heart, +instead of occupying the left thoracic angle, A K N, assumes the position of A +K* N on the right side. Therefore, as the fluid, whatever be its quantity, +intervenes between the thoracic walls, K K*, and the compressed lung, the +operation of paracentesis thoracis should be performed at the point K, or +between K and the latissimus dorsi muscle, so as to avoid any possibility of +wounding the heart. The intercostal artery at K is not of any considerable +size. +</p> + +<p> +In the normal state of the thoracic organs, the pericardial envelope of the +heart is at all times more or less uncovered by the anterior edge of the left +lung, as seen in PLATE 22. When serous or other fluid accumulates to an excess +in the pericardium, so as considerably to distend this sac, it must happen that +a greater area of pericardial surface will be exposed and brought into +immediate contact with the thoracic walls on the left side of the sternal +median line, to the exclusion of the left lung, which now no longer interposes +between the heart and the thorax. At this locality, therefore, a puncture may +be made through the thoracic walls, directly into the distended pericardium, +for the escape of its fluid contents, if such proceeding be in other respects +deemed prudent and advisable. +</p> + +<p> +The abdominal cavity being very frequently the seat of dropsical effusion, when +this takes place to any great extent, despite the continued and free use of the +medicinal diuretic and the hydragogue cathartic, the surgeon is required to +make an opening with the instrumental hydragogue—viz., the trocar and cannula. +The proper locality whereat the puncture is to be made so as to avoid any large +bloodvessel or other important organ, is at the middle third of the median +line, between P the umbilicus, and Z the symphysis pubis. The anatomist chooses +this median line as the safest place in which to perform paracentesis +abdominis, well knowing the situation of 2, 3, the epigastric vessels, and of +Y, the urinary bladder. +</p> + +<p> +All kinds of fluid occupying the cavities of the body gravitate towards the +most depending part; and therefore, as in the sitting or standing posture, the +fluid of ascites falls upon the line P Z, the propriety of giving the patient +this position, and of choosing some point within the line P Z, for the place +whereat to make the opening, becomes obvious. In the female, the ovary is +frequently the seat of dropsical accumulation to such an extent as to distend +the abdomen very considerably. Ovarian dropsy is distinguished from ascites by +the particular form and situation of the swelling. In ascites, the abdominal +swell is symmetrical, when the body stands or sits erect. In ovarian dropsy, +the tumour is greatest on either side of the median line, according as the +affected ovary happens to be the right or the left one. +</p> + +<p> +The fluid of ascites and that of the ovarian dropsy affect the position of the +abdominal viscera variously In ascites, the fluid gravitates to whichever side +the body inclines, and it displaces the moveable viscera towards the opposite +side. Therefore, to whichever side the abdominal fluid gravitates, we may +expect to find it occupying space between the abdominal parietes and the small +intestines. The ovarian tumour is, on the contrary, comparatively fixed to +either side of the abdominal median line; and whether it be the right or left +ovary that is affected, it permanently displaces the intestines on its own +side; and the sac lies in contact with the neighbouring abdominal parietes; nor +will the intestines and it change position according to the line of +gravitation. +</p> + +<p> +Now, though the above-mentioned circumstances be anatomically true respecting +dropsical effusion within the general peritonaeal sac and that of the ovary, +there are many urgent reasons for preferring to all other localities the line P +Z, as the only proper one for puncturing the abdomen so as to give exit to the +fluid. For though the peritonaeal ascites does, according to the position of +the patient, gravitate to either side of the abdomen, and displace the moveable +viscera on that side, we should recollect that some of these are bound fixedly +to one place, and cannot be floated aside by the gravitating fluid. The liver +is fixed to the right side, 11, by its suspensory ligaments. The spleen +occupies the left side, 12. The caecum and the sigmoid flexure of the colon +occupy, R R*, the right and left iliac regions. The colon ranges transversely +across the abdomen, at P. The stomach lies transversely between the points, 11, +12. The kidneys, O, occupy the lumbar region. All these organs continue to hold +their proper places, to whatever extent the dropsical effusion may take place, +and notwithstanding the various inclinations of the body in this or that +direction. On this account, therefore, we avoid performing the operation of +paracentesis abdominis at any part except the median line, P Z; and as to this +place, we prefer it to all others, for the following cogent reasons—viz., the +absence of any large artery; the absence of any important viscus; the fact that +the contained fluid gravitates in large quantity, and in immediate contact with +the abdominal walls anteriorly, and interposes itself between these walls and +the small intestines, which float free, and cannot approach the parietes of the +abdomen nearer than the length which the mesenteric bond allows. +</p> + +<p> +If the ovarian dropsy form a considerable tumour in the abdomen, it may be +readily reached by the trocar and cannula penetrating the line P Z. And thus we +avoid the situation of the epigastric vessels. The puncture through the linea +alba should never be made below the point, midway between P and Z, lest we +wound the urinary bladder, which, when distended, rises considerably above the +pubic symphysis. +</p> + +<p> +Amongst the many mechanical obstructions which, by impeding the circulation, +give rise to dropsical effusion, are the following:—An aneurismal tumour of the +aorta, A, or the innominate artery, [Footnote 1] F, may press upon the veins, H +or D, and cause an oedematous swelling of the corresponding side of the face +and the right arm. In the same way an aneurism of the aorta, Q, by pressing +upon the inferior vena cava, T, may cause oedema of the lower limbs. Serum may +accumulate in the pericardium, owing to an obstruction of the cardiac veins, +caused by hypertrophy of the substance of the heart; and when from this cause +the pericardium becomes much distended with fluid, the pressure of this upon +the flaccid auricles and large venous trunks may give rise to general anasarca, +to hydrothorax or ascites, either separate or co-existing. Tuberculous deposits +in the lungs and scrofulous bronchial glands may cause obstructive pressure on +the pulmonary veins, followed by effusion of either pus or serum into the +pleural sac. [Footnote 2] An abscess or other tumour of the liver may, by +pressing on the vena portae, cause serous effusion into the peritonaeal sac; or +by pressure on the inferior vena cava, which is connected with the posterior +thick border of the liver, may cause anasarca of the lower limbs. Matter +accumulating habitually in the sigmoid flexure of the colon may cause a +hydrocele, or a varicocele, by pressing on the spermatic veins of the left +side. It is quite true that these two last-named affections appear more +frequently on the left side than on the right; and it seems to me much more +rational to attribute them to the above-mentioned circumstance than to the fact +that the left spermatic veins open, at a disadvantageous right angle, into the +left renal vein. +</p> + +<p> +[Footnote 1: The situation of this vessel, its close relation to the pleura, +the aorta, the large venous trunks, the vagus and phrenic nerves, and the +uncertainty as to its length, or as to whether or not a thyroid or vertebral +branch arises from it, are circumstances which render the operation of tying +the vessel in cases of aneurism very doubtful as to a successful issue. The +operation (so far as I know) has hitherto failed. Anatomical relations, nearly +similar to these, prevent, in like manner, an easy access to the iliac +arteries, and cause the operator much anxiety as to the issue.] +</p> + +<p> +[Footnote 2: The effusion of fluid into the pleural sac (from whatever cause it +may arise) sometimes takes place to a very remarkable extent. I have had +opportunities of examining patients, in whom the heart appeared to be +completely dislocated, from the left to the right side, owing to the large +collection of serous fluid in the left pleural sac. The heart’s pulsations +could be felt distinctly under the right nipple. Paracentesis thoracis was +performed at the point indicated in PLATE 26. In these cases, and another +observed at the Hotel Dieu, the heart and lung, in consequence of the extensive +adhesions which they contracted in their abnormal position, did not immediately +resume their proper situation when the fluid was withdrawn from the chest. Nor +is it to be expected that they should ever return to their normal character and +position, when the disease which caused their displacement has been of long +standing.] +</p> + +<h4>DESCRIPTION OF PLATE 26.</h4> + +<p> +A. The systemic aorta. Owing to the body being inclined forwards, the root of +the aorta appears to approach too near the lower boundary (N) of the thorax. +</p> + +<p> +B. The left brachio-cephalic vein. +</p> + +<p> +C. Left subclavian vein. +</p> + +<p> +D. Right brachia-cephalic vein. +</p> + +<p> +E. Left common carotid artery. +</p> + +<p> +F. Brachio-cephalic artery. +</p> + +<p> +G G*. The first pair of ribs. +</p> + +<p> +H. Superior vena cava. +</p> + +<p> +I. Left bronchus. +</p> + +<p> +K K*. Fourth pair of ribs. +</p> + +<p> +L. Descending thoracic aorta. +</p> + +<p> +M. Oesophagus. +</p> + +<p> +N. Epigastrium. +</p> + +<p> +O. Left kidney. +</p> + +<p> +P. Umbilicus. +</p> + +<p> +Q. Abdominal aorta, at its bifurcation. +</p> + +<p> +R R*. Right and left iliac fossae. +</p> + +<p> +S. Left common iliac vein. +</p> + +<p> +T. Inferior vena cava. +</p> + +<p> +U. Psoas muscle, supporting the right spermatic vessels. +</p> + +<p> +V. Left external iliac artery crossed by the left ureter. +</p> + +<p> +W. Right external iliac artery crossed by the right ureter. +</p> + +<p> +X. The rectum. +</p> + +<p> +Y. The urinary bladder, which being fully distended, and viewed from above, +gives it the appearance of being higher than usual above the pubic symphysis. +</p> + +<p> +Z. Pubic symphysis. +</p> + +<p> +2. The left internal abdominal ring complicated with the epigastric vessels, +the vas deferens, and the spermatic vessels. +</p> + +<p> +3. The right internal abdominal ring in connection with the like vessels and +duct as that of left side. +</p> + +<p> +4. Superior mesenteric artery. +</p> + +<p> +5, 6. Right and left external iliac veins. +</p> + +<p> +7, 8. Situations of the anterior superior iliac spinous processes. +</p> + +<p> +9, 10. Situations of the coracoid processes. +</p> + +<p> +11, 12. Right and left hypochondriac regions. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/068P26_25.jpg"> +<img src="images/068P26_25.jpg" width="509" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 26</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap16"></a>COMMENTARY ON PLATE 27.</h2> + +<p> +THE SURGICAL DISSECTION OF THE SUPERFICIAL BLOODVESSELS ETC. OF THE +INGUINO-FEMORAL REGION. +</p> + +<p> +Hernial protrusions are very liable to occur at the inguino-femoral region; and +this fact has led the surgeon to study the anatomical relations of this part +with more than ordinary care and patience. So minutely has he dissected every +structure proper to this locality, and so closely has he investigated every +possible condition of it as being the seat of hernial, that the only novelty +which now remains to be sought for is that of a simplification of the facts, +already known to be far too much obscured by an unwieldy nomenclature, and a +useless detail of trifling evidence. And it would seem that nothing can more +directly tend to this simplification, than that of viewing the inguinal and +femoral regions, not separately, but as a relationary whole. For as both +regions are blended together by structures which are common to both, so do the +herniae which are described as being proper to either region, occur in such +close connexion as at times to render it very difficult to distinguish between +them. +</p> + +<p> +The human species is, of all others, most subject to hernial in the groin. The +erect attitude of the human form, and the fact that many of its more powerful +muscular efforts are performed in this posture, cause its more frequent +liability to the accidents called abdominal herniae or ruptures. +</p> + +<p> +The viscera of the abdomen occupy this cavity completely, and indeed they +naturally, at all times, subject the abdominal parietes to a state of constant +pressure, as may be proved by their escape from the abdomen in cases of large +wounds of this region. In the erect posture of the body this pressure is +increased, for the viscera now gravitate and force downwards and forwards +against the abdominal parietes. In addition to this gravitating force, another +power impels the viscera from above downwards—namely, that of the muscles of +the trunk, and the principal agent amongst these is the diaphragm. The lungs, +again, expanding above the diaphragm, add also to the gravitation of the +abdominal contents, and these, under the pressure thus accumulated, +occasionally make an exit for themselves at the groins, which are the weakest +and most depending parts of the abdomen. +</p> + +<p> +Herniae are variously named in accordance with the following +circumstances—viz., the precise locality at which they occur—the size and form +of the tumour—the time of life at which they happen. Sexual peculiarities do +not serve to distinguish herniae, though it is true that the inguinal form, at +the part D F, occurs more commonly in the male, whilst the crural form, at the +opening E, happens more frequently in the female. +</p> + +<p> +The most common forms of herniae happen at those localities where the abdominal +walls are traversed by the bloodvessels on their way to the outstanding organs, +and where, in consequence, the walls of the abdomen have become weakened. It +also happens, that at these very situations the visceral pressure is greatest +whilst the body stands erect. These localities are, A, the umbilicus, a point +characterized as having given passage (in the foetal state) to the umbilical +vessels; D, the place where the spermatic vessels and duct pass from the +abdomen to the testicle; and immediately beneath this, the crural arch, which +gives exit to the crural vessels. Herniae may happen at other localities, such +as at the thyroid aperture, which transmits the thyroid vessels; and at the +greater sacrosciatic notch, through which the gluteal vessels pass; and all +regions of the abdominal walls may give exit to intestinal protrusion in +consequence of malformations, disease, or injury. But as the more frequent +varieties of herniae are those which traverse the localities, A, D, E, and as +these, fortunately, are the most manageable under the care of the surgical +anatomist, we proceed to examine the structures concerned in their occurrence. +</p> + +<p> +A direct opening from within outwards does not exist in the walls of the +abdomen; and anatomy demonstrates to us the fact, that where the spermatic +cord, D F, and the femoral vessels, pass from the abdomen to the external +parts, they carry with them a covering of the several layers of structures, +both muscular and membranous, which they encounter in their passage. The +inguinal and crural forms of herniae which follow the passages made by the +spermatic cord, and the crural vessels, must necessarily carry with them the +like investments, and these are what constitute the coverings of the herniae +themselves. +</p> + +<p> +The groin in its undissected state is marked by certain elevations and +depressions which indicate the general relations of the subcutaneous parts. The +abdomen is separated from the thigh by an undulating grooved line, extending +from C*, the point of the iliac bone, to B, the symphysis pubis This line or +fold of the groin coincides exactly with the situation of that fibrous band of +the external oblique muscle named Poupart’s ligament. From below the middle of +this abdomino-femoral groove, C B, another curved line, D, <i>b</i>, springs, +and courses obliquely, inwards and downwards, between the upper part of the +thigh and the pubis, to terminate in the scrotum. The external border of this +line indicates the course of the spermatic cord, D F, which can be readily felt +beneath the skin. In all subjects, however gross or emaciated they may happen +to be, these two lines are readily distinguishable, and as they bear relations +to the several kinds of rupture taking place in these parts, the surgeon should +consider them with keen regard. A comparison of the two sides of the figure, +PLATE 27, will show that the spermatic cord, D F, and Poupart’s ligament, C B, +determine the shape of the inguino-femoral region. When the integument with the +subcutaneous adipose tissue is removed from the inguino-femoral region, we +expose that common investing membrane called the superficial fascia. This +fascia, <i>a a a</i>, stretches over the lower part of the abdomen and the +upper part of the thigh. It becomes intimately attached to Poupart’s ligament +along the ilio-pubic line, C B; it invests the spermatic cord, as shown at +<i>b</i>, and descends into the scrotum, so as to encase this part. Where this +superficial fascia overlies the saphenous opening, E, of the fascia lata, it +assumes a “cribriform” character, owing to its being pierced by numerous +lymphatic vessels and some veins. As this superficial fascia invests all parts +of the inguino-femoral region, as it forms an envelope for the spermatic cord, +D F, and sheathes over the saphenous opening, E, it must follow of course that +wherever the hernial protrusion takes place in this region, whether at D, or F, +or E, or adjacent parts, this membrane forms the external subcutaneous covering +of the bowel. +</p> + +<p> +There is another circumstance respecting the form and attachments of the +superficial fascia, which, in a pathological point of view, is worthy of +notice—viz., that owing to the fact of its enveloping the scrotum, penis, +spermatic cord, and abdominal parietes, whilst it becomes firmly attached to +Poupart’s ligament along the abdomino-femoral fold, B C, it isolates these +parts, in some degree, from the thigh; and when urine happens to be from any +cause extravasated through this abdominal-scrotal bag of the superficial +fascia, the thighs do not in general participate in the inflammation +superinduced upon such accident. +</p> + +<p> +The spermatic cord, D, emerges from the abdomen and becomes definable through +the fibres of the sheathing tendon of the external oblique muscle, H, at a +point midway between the extremities of the ilio-pubic line or fold. In some +cases, this place, whereat the cord first manifests itself in the groin, lies +nearer the pubic symphysis; but however much it may vary in this particular, we +may safely regard the femoro-pubic fold, D, <i>b</i>, as containing the cord, +and also that the place where this fold meets the iliopubic line, C B, at the +point D, marks the exit of the cord from the abdomen. +</p> + +<p> +The spermatic cord does not actually pierce the sheathing tendon of the +external oblique muscle at the point D, and there does not, in fact, exist +naturally such an opening as the “external abdominal ring,” for the cord +carries with it a production of the tendon of the external oblique muscle, and +this has been named by surgical anatomists the “intercolumnar fascia,” +[Footnote] the “spermatic fascia.” The fibres of this spermatic fascia are seen +at D F, crossing the cord obliquely, and encasing it. This covering of the cord +lies beneath the spermatic envelope formed by, <i>a b,</i> the superficial +fascia; and when a hernial protrusion descends through the cord, both these +investing membranes form the two outermost envelopes for the intestine in its +new and abnormal situation. +</p> + +<p> +[Footnote: On referring to the works of Sir Astley Cooper, Hesselbach, Scarpa, +and, others, I find attempts made to establish a distinction between what is +called the “intercolumnar fascia” and the “spermatic fascia,” and just as if +these were structures separable from each other or from the aponeurotic sheath +of the external oblique muscle. I find, in like manner, in these and other +works, a tediously-laboured account of the superficial fascia, as being +divisible into two layers of membrane, and that this has given rise to +considerable difference of opinion as to whether or not we should regard the +deeper layer as being a production of the fascia lata, ascending from the thigh +to the abdomen, or rather of the membrane of the abdomen descending to the +thigh, &c. These and such like considerations I omit to discuss here; for, +with all proper deference to the high authority of the authors cited, I dare to +maintain, that, in a practical point of view, they arc absolutely of no moment, +and in a purely scientific view, they are, so far as regards the substance of +the truth which they would reveal, wholly beneath the notice of the rational +mind. The practitioner who would arm his judgment with the knowledge of a broad +fact or principle, should not allow his serious attention to be diverted by a +pursuit after any such useless and trifling details, for not only are they +unallied to the stern requirements of surgical skill, but they serve to degrade +it from the rank and roll of the sciences. Whilst operating for the reduction +of inguinal hernia by the “taxis” or the bistoury, who is there that feels +anxiety concerning the origin or the distinctiveness of the “spermatic fascia?” +Or, knowing it to be present, who concerns himself about the better propriety +of naming it “tunica vaginalis communis,” “tunique fibreuse du cordon +spermatique,” “fascia cremasterica,” or “tunica aponeurotica?”] +</p> + +<p> +The close relations which the cord, D F, bears to the saphenous opening, E, of +the fascia lata, should be closely considered, forasmuch as when an oblique +inguinal hernia descends from D to F, it approaches the situation of the +saphenous opening, E, which is the seat of the femoral or crural hernia, and +both varieties of hernia may hence be confounded. But with a moderate degree of +judgment, based upon the habit of referring the anatomy to the surface, such +error may always be avoided. This important subject shall be more fully treated +of further on. +</p> + +<p> +The superficial bloodvessels of the inguino-femoral region are,<i> e e</i>, the +saphenous vein, which, ascending from the inner side of the leg and thigh, +pierces the saphenous opening, E, to unite with the femoral vein. The saphenous +vein, previously to entering the saphenous opening, receives the epigastric +vein, <i>i</i>, the external circumflex ilii vein, <i>h</i>, and another venous +branch, <i>d</i>, coming from the fore part of the thigh. In the living body +the course of the distended saphenous vein may be traced beneath the skin, and +easily avoided in surgical operations upon the parts contained in this region. +Small branches of the femoral artery pierce the fascia lata, and accompany +these superficial veins. Both these orders of vessels are generally divided in +the operation required for the reduction of either the inguinal or the femoral +strangulated hernia; but they are, for the most part, unimportant in size. Some +branches of nerves, such as, <i>k</i>, the external cutaneous, which is given +off from the lumbar nerves, and, <i>f, </i>the middle cutaneous, which is +derived from the crural nerve, pierce the fascia lata, and appear upon the +external side and middle of the thigh. +</p> + +<p> +Numerous lymphatic glands occupy the inguino-femoral region; these can be felt, +lying subcutaneous, even in the undissected state of the parts. These glands +form two principal groups, one of which, <i>c,</i> lies along the middle of the +inguinal fold, C B; the other, G <i>g</i>, lies scattered in the neighbourhood +of the saphenous opening. The former group receive the lymphatic vessels of the +generative organs; and the glands of which it is composed are those which +suppurate in, syphilitic or other affections of these parts. +</p> + +<p> +The general relations which the larger vessels of the inguino-femoral region +bear to each other and to the superficies, may be referred to in PLATE 27, with +practical advantage. The umbilicus, A, indicates pretty generally the level at +which the aorta bifurcates on the forepart of the lumbar vertebrae. In the +erect, and even in the recumbent posture, the aorta may (especially in +emaciated subjects) be felt pulsating under the pressure of the hand; for the +vertebrae bear forward the vessel to a level nearly equal with, C C, the +anterior superior spinous processes of the iliac bones. If a gunshot were to +pass through the abdomen, transversely, from these points, and through B, it +would penetrate the aorta at its bifurcation. The line A B coincides with the +linea alba. The oblique lines, A D, A D,* indicate the course of the iliac +vessels. The point D marks the situation where the spermatic vessels enter the +abdomen; and also where the epigastric artery is given off from the external +iliac. The most convenient line of incision that can be made for reaching the +situation of either of the iliac arteries, is that which ranges from C, the +iliac spine, to D, the point where the spermatic cord enters the abdomen. The +direct line drawn between D and G marks the course of the femoral artery, and +this ranges along the outer border, E, of the saphenous opening. +</p> + +<h4>DESCRIPTION OF PLATE 27.</h4> + +<p> +A. The umbilicus. +</p> + +<p> +B. The upper margin of the pubic symphysis. +</p> + +<p> +C. The anterior superior spine of the left iliac bone. C*, the situation iof +the corresponding part on the right side. +</p> + +<p> +D. The point where, in this subject, the cord manifested itself beneath ithe +fibres of the external oblique muscle. D*, a corresponding part on ithe +opposite side. +</p> + +<p> +E. The saphenous opening in the fascia lata, receiving <i>e</i>, the saphenous +ivein. +</p> + +<p> +F. The lax and pendulous cord, which in this case, overlies the upper ipart of +the saphenous opening. +</p> + +<p> +G. Lymphatic glands lying on the fascia lata in the neighbourhood of the +isaphenous opening. +</p> + +<p> +H. The fleshy part of the external oblique muscle. +</p> + +<p> +<i>a a a.</i> The superficial fascia of the abdomen. +</p> + +<p> +<i>b.</i> The same fascia forming an envelope for the spermatic cord and +iscrotum. +</p> + +<p> +<i>c.</i> Inguinal glands lying near Poupart’s ligament. +</p> + +<p> +<i>d. </i>A common venous trunk, formed by branches from the thigh and abdomen, +iand joining— +</p> + +<p> +<i>e e.</i> The saphenous vein. +</p> + +<p> +<i>f.</i> The middle cutaneous nerve, derived from the anterior crural nerve. +</p> + +<p> +<i>g.</i> Femoral lymphatic glands. +</p> + +<p> +<i>h.</i> Superficial external iliac vein. +</p> + +<p> +<i>i.</i> Superficial epigastric vein. +</p> + +<p> +<i>k.</i> External cutaneous branches of nerves from the lumbar plexus. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/072P27_25.jpg"> +<img src="images/072P27_25.jpg" width="509" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 27</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap17"></a>COMMENTARY ON PLATES 28 & 29.</h2> + +<p> +THE SURGICAL DISSECTION OF THE FIRST, SECOND, THIRD, AND FOURTH LAYERS OF THE +INGUINAL REGION IN CONNEXION WITH THOSE OF THE THIGH. +</p> + +<p> +The common integument or <i>first layer</i> of the inguino-femoral region being +removed, we expose the superficial fascia constituting the <i>second layer</i>. +The connexion of this fascia with Poupart’s ligament along the line C D, +together with the facts, that corresponding with this line the fascia is devoid +of adipous substance, and the integument thin and delicate, whilst above over +the abdomen, and below over the upper part of the thigh, the meshes of the +fascia are generally loaded with a considerable quantity of adipous tissue, +will account for the permanency and distinctness of the fold of the groin. As +this fold corresponds with Poupart’s ligament, it is taken as a guide to +distinguish between the inguinal and femoral forms of herniae. +</p> + +<p> +The general relations of the superficial fascia are well described by Camper in +the following sentence: “Musculus obliquus igitur externus abdominis, qua parte +carneus est, membrana quadam propria, quali omnes musculi, tegitur, quae sensim +in aponeurosin mutata, ac cum tendineis hujus musculi partibus unita, externe +ac anteriore parte abdomen tegit; finem vero nullibi habere perspicuum est, ad +pubem enim miscet cellulosa membrana, cum ligamento penis in viris ac +clitoridis in feminis, involucrum dat musculo cremasteri, ac aponeuroseos +speciem musculis anterioribus femoris, qua glandulae inguinales, ac cruris vasa +majora obteguntur.” (Icones Herniarum.) +</p> + +<p> +Owing to the varied thickness of the adipous tissue contained in the +superficial fascia at several regions of the same body, and at some +corresponding regions of different individuals, it will be evident that the +depth of the incision required to divide it, so as to expose subjacent +structures, must vary accordingly. Where the superficial fascia, after encasing +the cord, descends into the scrotum, it is also devoid of the fatty tissu. +</p> + +<p> +By the removal of the superficial fascia and glands we expose the aponeurosis +of the external oblique muscle, A <i>a,</i> Pl. 28, (constituting t<i>he third +layer</i> of the groin,) and also the fascia of the thigh, H L. These strong +fibrous structures will be observed to hold still <i>in situ</i> the other +parts, and to be the chief agents in determining the normal form of this +region. +</p> + +<p> +The inguino-femoral region, as being the seat of hernial protrusions, may in +this stage of the dissection be conveniently described as a space formed of two +triangles—the one inguinal, the other femoral, placed base to base. The +inguinal triangle may be drawn between the points, B C D, Pl. 28, while the +femoral triangle may be marked by the points, C D N. The conjoined bases of +these triangles correspond to Poupart’s ligament along the line, C D. The +inguinal varieties of herniae occur immediately above the line, C D, while the +femoral varieties of herniae take place below this line. The herniae of the +inguinal triangle are, therefore, distinguishable from those of the femoral +triangle by a reference to the line, C D, or Poupart’s ligament. +</p> + +<p> +The aponeurosis of the external oblique muscle occupies the whole of that space +which I have marked as the inguinal triangle, B C D, Pl. 28. The fleshy fibres +of the muscle, A, after forming the lateral wall of the abdomen, descend to the +level of C, the iliac spinous process, and here give off the inguinal part of +their broad tendon, <i>a</i>. The fibres of this part of the tendon descend +obliquely downwards and forwards to become inserted at the median line of the +abdomen into the linea alba, B D, as also into the symphysis and crista of the +os pubis. The lower band of the fibres of this tendinous sheath—viz., that +which is stretched between C, the iliac spine, and D, the crista pubis, is +named Poupart’s ligament; and this is strongly connected with H, the iliac +portion of the fascia lata of the thigh. +</p> + +<p> +Poupart’s ligament is not stretched tensely in a right line, like the string of +a bow, between the points, C and D. With regard to these points it is lax, and +curves down towards the thigh like the arc of a circle. The degree of tension +which it manifests when the thigh is in the extended position is chiefly owing +to its connexion with the fascia lata. If in this position of the limb we sever +the connexion between the ligament and fascia, the former becomes relaxed in +the same degree as it does when we flex the thigh upon the abdomen. The utmost +degree of relaxation which can be given to Poupart’s ligament is effected by +flexing the thigh towards the abdomen, at the same time that we support the +body forwards. This fact has its practical application in connexion with the +reduction of herniae. +</p> + +<p> +Immediately above the middle of Poupart’s ligament, at the point E, Pl. 28, we +observe the commencement of a separation taking place among the fibres of the +aponeurosis. These divide into two bands, which, gradually widening from each +other as they proceed inwards, become inserted, the upper one into the +symphysis pubis, the lower into the spine and pectineal ridge of this bone. The +lower band identifies itself with Poupart’s ligament. The interval which is +thus formed by the separation of these fibres assumes the appearance of an +acute triangle, the apex of which is at E, and the base at D. But the outer end +of this interval is rounded off by certain fibres which cross those of the +bands at varying angles. At this place, the aponeurosis, thus constituted of +fibres disposed crossways, is elongated into a canal, forming an envelope for +the cord, K. This elongation is named the “external spermatic fascia,” and is +continued over the cord as far as the testicle. In the female, a similar canal +encloses the round ligament of the uterus. From the above-mentioned facts, it +will appear that the so-called “external abdominal ring” does not exist as an +aperture with defined margins formed in the tendon of the external oblique +muscle. It is only when we divide the spermatic fascia upon the cord at K, that +we form the external ring, and then it must be regarded as an artificial +opening, as at D, Pl. 29. +</p> + +<p> +The part of the groin where the spermatic fascia is first derived from the +aponeurosis, so as to envelope the cord, varies in several individuals; and +thereupon depends, in great measure, the strength or weakness of the groin. In +some cases, the cord becomes pendulous as far outwards as the point E, Pl. 28, +which corresponds to the internal ring, thereby offering a direct passage for +the hernial protrusion. In other instances, the two bands of the aponeurosis, +known as the “pillars of the ring,” together with the transverse fibres, or +“intercolumnar fascia,” firmly embrace and support the cord as far inwards as +the point K, and by the oblique direction thus given to the cord in traversing +the inguinal parietes, these parts are fortified against the occurrence of +hernia. In Pl. 28, the cord, K, will be observed to drop over the lower band of +fibres, (“external pillar of the ring,”) and to have D, the crista pubis, on +its inner side. In Pl. 29, the upper band of fibres (“internal pillar of the +ring”) may be seen proceeding to its insertion into the symphysis pubis. When a +hernial tumour protrudes at the situation K, it is invested, in the same manner +as the cord, by the spermatic fascia, and holds in respect to the fibrous bands +or pillars the same relations also as this part. +</p> + +<p> +After removing the tendon of the external oblique muscle, A <i>a</i>, Pl. 28, +together with its spermatic elongation, E, we expose the internal oblique, F E, +Pl. 29, and the cremaster, constituting the <i>fourth</i> <i>inguinal +layer</i>. The fleshy part of this muscle, F E, occupies a much greater extent +of the inguinal region than does that of the external oblique. Whilst the +fleshy fibres of the latter terminate on a level with C, the iliac spine, those +of the internal oblique are continued down as far as the external abdominal +ring, E D <i>h</i>, and even protrude through this place in the form of a +cremaster. The muscular fibres of the internal oblique terminate internally at +the linea semilunaris, <i>g</i>; while Poupart’s ligament, the spinous process +and crest of the ilium, give origin to them externally. At the linea +semilunaris, the tendon of the internal oblique is described as dividing into +two layers, which passing, one before and the other behind the rectus +abdominis, thus enclose this muscle in a sheath, after which they are inserted +into the linea alba, G. The direction of the fibres of the inguinal portion of +the muscle, F E, is obliquely downwards and forwards, and here they are firmly +overlaid by the aponeurosis of the external oblique. +</p> + +<p> +The cremaster muscle manifests itself as being a part of the internal oblique, +viewing this in its totality. Cloquet (Recherches anatomiques sur les Hernies +de l’Abdomen) first demonstrated the correctness of this idea. +</p> + +<p> +The oblique and serial arrangement of the muscular fibres of the internal +oblique, F, Pl. 29, is seen to be continued upon the spermatic cord by the +fibres of the cremaster, E e. These fibres, like those of the lower border of +the internal oblique, arise from the middle of Poupart’s ligament, and after +descending over the cord as far as the testicle in the form of a series of +inverted loops, <i>e</i>, again ascend to join the tendon of the internal +oblique, by which they become inserted into the crest and pectineal ridge of +the os pubis. The peculiar looping arrangement exhibited by the cremasteric +fibres indicates the fact that the testicle, during its descent from the loins +to the scrotum, carried with it a muscular covering, at the expense of the +internal oblique muscle. The cremaster, therefore, is to be interpreted as a +production of the internal oblique, just as the spermatic fascia is an +elongation of the external oblique. The hernia, which follows the course of the +spermatic vessels, must therefore necessarily become invested by cremasteric +fibres. +</p> + +<p> +The fascia lata, H, Pl. 28, being strongly connected and continuous with +Poupart’s ligament along its inferior border, the boundary line, which +Poupart’s ligament is described as drawing between the abdomen and thigh, must +be considered as merely an artificial one. +</p> + +<p> +In the upper region of the thigh the fascia lata is divided into two +parts—viz., H, the iliac part, and L, the pubic. The iliac part, H, which is +external, and occupying a higher plane than the pubic part, is attached to +Poupart’s ligament along its whole extent, from C to D, Pl. 28; that is, from +the anterior iliac spinous process to the crista pubis. From this latter point +over the upper and inner part of the thigh, the iliac division of the fascia +appears to terminate in an edge of crescentic shape, <i>h;</i> but this +appearance is only given to it by our separating the superficial fascia with +which it is, in the natural state of the parts, blended. The pubic part of the +fascia, L, Pl. 28, which is much thinner than the iliac part, covers the +pectineus muscle, and is attached to the crest and pectineal ridge of the os +pubis, occupying a plane, therefore, below the iliac part, and in this way +passes outwards beneath the sheath of the femoral vessels, K I, Pl. 29. These +two divisions of the fascia lata, although separated above, are united and +continuous on the same plane below. An interval is thus formed between them for +the space of about two inches below the inner third of Poupart’s ligament; and +this interval is known as the “saphenous opening,” L <i>h</i>, Pl. 28. Through +this opening, the saphena vein, O, Pl. 29, enters the femoral vein, I. +</p> + +<p> +From the foregoing remarks it will appear that no such aperture as that which +is named “saphenous,” and described as being shaped in the manner of L +<i>h</i>, Pl. 28, with its “upper and lower cornua,” and its “falciform +process,” or edge, <i>h</i>, exists naturally. Nor need we be surprised, +therefore, that so accurate an observer as Soemmering (de Corporis Humani +Fabrica) appears to have taken no notice of it. +</p> + +<p> +Whilst the pubic part of the fascia lata passes beneath the sheath of the +femoral vessels, K I, Pl. 29, the iliac part, H <i>h</i>, blends by its +falciform margin with the superficial fascia, and also with N <i>n,</i> the +sheath of the femoral vessels. The so-called saphenous opening, therefore, is +naturally masked by the superficial fascia; and this membrane being here +perforated for the passage of the saphena vein, and its tributary branches, as +also the efferent vessels of the lymphatic glands, is termed “cribriform.” +</p> + +<p> +The femoral vessels, K I, contained in their proper sheath, lie immediately +beneath the iliac part of the fascia lata, in that angle which is expressed by +Poupart’s ligament, along the line C D above; by the sartorius muscle in the +line C M externally; and by a line drawn from D to N, corresponding to the +pectineus muscle internally. The femoral vein, I, lies close to the outer +margin of the saphenous opening. The artery, K, lies close to the outer side of +the vein; and external to the artery is seen, L, the anterior crural nerve, +sending off its superficial and deep branches. +</p> + +<p> +When a femoral hernia protrudes at the saphenous space L <i>h</i>, Pl. 28, the +dense falciform process, <i>h,</i> embraces its outer side, while the pubic +portion of the fascia, L, lies beneath it. The cord, K, is placed on the inner +side of the hernia; the cribriform fascia covers it; and the upper end of the +saphena vein, M, passes beneath its lower border. The upper cornu, <i>h,</i> +Pl. 29, of the falciform process would seem, by its situation, to be one of the +parts which constrict a crural hernia. An inguinal hernia, which descends the +cord, K, Pl. 28, provided it passes no further than the point indicated at K, +and a crural hernia turning upwards from the saphenous interval over the cord +at K, are very likely to present some difficulty in distinctive diagnosis. +</p> + +<h4>DESCRIPTION OF THE FIGURES OF PLATES 28 & 29.</h4> + +<p> +PLATE 28. +</p> + +<p> +A. The fleshy part of the external oblique muscle; <i>a</i>, its tendon +icovering the rectus muscle. +</p> + +<p> +B. The umbilicus. +</p> + +<p> +C. The anterior superior spinous process of the ilium. +</p> + +<p> +D. The spinous process of the os pubis. +</p> + +<p> +E. The point where in this instance the fibres of the aponeurotic tendon iof +the external oblique muscle begin to separate and form the pillars iof the +external ring. +</p> + +<p> +F G. See Plate 29. +</p> + +<p> +H. The fascia lata—its iliac portion. The letter indicates the isituation of +the common femoral artery; <i>h</i>, the falciform edge of the isaphenous +opening. +</p> + +<p> +I. The sartorius muscle covered by a process of the fascia lata. +</p> + +<p> +K. The spermatic fascia derived from the external oblique tendon. +</p> + +<p> +L. The pubic part of the fascia lata forming the inner and posterior iboundary +of the saphenous opening. +</p> + +<p> +M. The saphenous vein. +</p> + +<p> +N. A tributary vein coming from the fore part of the thigh. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/076P28_25.jpg"> +<img src="images/076P28_25.jpg" width="600" height="440" alt="Illustration:" /></a> +<p class="caption">Plate 28</p> +</div> + +<p> +PLATE 29. +</p> + +<p> +A. The muscular part of the external oblique; <i>a,</i> its tendon. +</p> + +<p> +B. The umbilicus. +</p> + +<p> +C. The anterior superior iliac spine. +</p> + +<p> +D. The spine of the os pubis. +</p> + +<p> +E. The cremasteric fibres, within the external ring, surrounding the icord; +<i>e</i>, the cremasteric fibres looping over the cord outside the ring. +</p> + +<p> +F. The muscular part of the internal oblique giving off, E, the icremaster; its +tendon sheathing the rectus muscle. +</p> + +<p> +G. The linea alba; f, <i>g</i>, the linea semilunaris. +</p> + +<p> +H. The iliac part of the fascia lata; <i>h,</i> the upper cornu of its +ifalciform process. +</p> + +<p> +I. The femoral vein. +</p> + +<p> +K. The femoral artery. +</p> + +<p> +L. The anterior crural nerve. +</p> + +<p> +M. The sartorius muscle. +</p> + +<p> +N. The sheath of the femoral vessels; <i>n,</i> its upper part. +</p> + +<p> +O. The saphena vein. +</p> + +<p> +P. The pubic part of the fascia lata. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/076P29_25.jpg"> +<img src="images/076P29_25.jpg" width="600" height="447" alt="Illustration:" /></a> +<p class="caption">Plate 29</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap18"></a>COMMENTARY ON PLATES 30 & 31.</h2> + +<p> +THE SURGICAL DISSECTION OF THE FIFTH, SIXTH, SEVENTH, AND EIGHTH LAYERS OF THE +INGUINAL REGION, AND THEIR CONNEXION WITH THOSE OF THE THIGH. +</p> + +<p> +When we remove the internal oblique and cremaster muscles, we expose the +transverse muscle, which may be regarded as the <i>fifth inguinal layer</i>, F, +Pl. 30. This muscle is similar in shape and dimensions to the internal oblique. +The connexions of both are also similar, inasmuch as they arise from the inner +edge of the crista ilii, and from the outer half of, V, Poupart’s ligament. The +fleshy fibres of these two muscles vary but little in direction, and terminate +at the same place—viz., the linea semilunaris, which marks the outer border of +the rectus muscle. But whilst the fleshy parts of these three abdominal +muscles, D E F, form successive strata in the groin, their aponeurotic tendons +present the following peculiarities of arrangement in respect to the rectus +muscle. The tendon of the external oblique, <i>d</i>, passes altogether in +front of the rectus; that of the internal oblique is split opposite the linea +semilunaris into two layers, which enclose the rectus between them as they pass +to be inserted into the linea alba. But midway between the navel and pubes, at +the point marked G, both layers of the tendon are found to pass in front of the +rectus. The tendon of the transverse muscle passes behind the rectus; but +opposite the point G, it joins both layers of the internal oblique tendon, and +with this passes in front of the rectus. The fibrous structure thus constituted +by the union of the tendons of the internal oblique and transverse muscles, +<i>e f,</i> is named the “conjoined tendon.” +</p> + +<p> +The conjoined tendon, <i>f,</i> Plates 30 and 31, appears as a continuation of +the linea semilunaris, for this latter is in itself a result of the union of +the tendons of the abdominal muscles at the external border of the rectus. As +the conjoined tendon curves so far outwards to its insertion into the pectineal +ridge of the pubic bone, as to occupy a situation immediately behind the +external ring, it thereby fortifies this part against the occurrence of a +direct protrusion of the bowel. But the breadth, as well as the density, of +this tendon varies in several individuals, and these will accordingly be more +or less liable to the occurrence of hernia. +</p> + +<p> +The arched inferior border of the transverse muscle, F, Plate 30, expresses by +its abrupt termination that some part is wanting to it; and this appearance, +together with the fact that the fibres of this part of the muscle blend with +those of the internal oblique and cremaster, and cannot be separated except by +severing the connexion, at once suggests the idea that the cremaster is a +derivation from both these muscles. +</p> + +<p> +Assuming this to be the case, therefore, it follows that when the dissector +removes the cremaster from the space L <i>h</i>, he himself causes this vacancy +in the muscular parietes of the groin to occur, and at the same time gives +unnatural definition to the lower border of the transverse and oblique muscles. +In a dissection so conducted, the cord is made to assume the variable positions +which anatomists report it to have in respect to the neighbouring muscles. But +when we view nature as she is, and not as fashioned by the scalpel, we never +fail to find an easy explanation of her form. +</p> + +<p> +In the foetus, prior to the descent of the testicle, the cremaster muscle does +not exist. (Cloquet, op cit.) From this we infer, that those parts of the +muscles, E F, Plate 30, which at a subsequent period are converted into a +cremaster, entirely occupy the space L <i>h</i>. In the adult body, where one +of the testicles has been arrested in the inguinal canal, the muscles, E F, do +not present a defined arched margin, above the vacant space L <i>h</i>, but are +continued (as in the foetus) as low down as the external abdominal ring. In the +adult, where the testicle has descended to the scrotum, the cremaster exists, +and is serially continuous with the muscles, E F, covering the space L +<i>h</i>; the meaning of which is, that the cremasteric parts of the muscles, E +F, cover this space. The name cremaster therefore must not cancel the fact that +the fibres so named are parts of the muscles, E F. Again, in the female devoid +of a cremaster, the muscles, E F, present of their full quantities, having +sustained no diminution of their bulk by the formation of a cremaster. But when +an external inguinal hernia occurs in the female body, the bowel during its +descent carries before it a cremasteric covering at the expense of the muscles +E F, just in the same way as the testicle does in the foetus. (Cloquet.) +</p> + +<p> +From the above-mentioned facts, viewed comparatively, it seems that the +following inferences may be legitimately drawn:—1st, that the space L <i>h</i> +does not naturally exist devoid of a muscular covering; for, in fact, the +cremaster overlies this situation; 2nd, that the name cremaster is one given to +the lower fibres of the internal oblique and transverse muscles which cover +this space; and 3rd, that to separate the cremasteric elongation of these +muscles, and then describe them as presenting a defined arched margin, an inch +or two above Poupart’s ligament, is an act as arbitrary on the part of the +dissector as if he were to subdivide these muscles still more, and, while +regarding the subdivisions as different structures, to give them names of +different signification. When once we consent to regard the cremaster as +constituted of the fibres originally proper to the muscles, E F, we then are +led to the discovery of the true relations of the cord in respect to these +muscles. +</p> + +<p> +On removing the transverse muscle, we expose the inguinal part of the +transversalis fascia—the <i>sixth inguinal layer</i>, L <i>h</i>, Plate 30—K +<i>k</i>, Plate 31. This fascia or membrane affords a general lining to the +abdominal walls, in some parts of which it presents of a denser and stronger +texture than in others. It is stretched over the abdomen between the muscles +and the peritonaeum. The fascia iliaca, the fascia pelvica, and the fascia +transversalis, are only regional divisions of the one general membrane. On +viewing this fascia in its totality, I find it to exhibit many features in +common with those other fibrous structures which envelope serous cavities. The +transversalis fascia supports externally the peritonaeum, in the same way as +the dura mater supports the arachnoid membrane, or as the pleural fascia +supports the serous pleura. While the serous membranes form completely shut +sacs, the fibrous membranes which lie external to those sacs are pierced by the +vessels which course between them and the serous membranes, and afford sheaths +or envelopes for these vessels in their passage from the interior to the +external parts. The sheath, H <i>h</i>, Plates 30 and 31, which surrounds the +spermatic vessels, and the sheath, R, Plate 31, which envelopes the crural +vessels, are elongations of the fascia transversalis. +</p> + +<p> +In the groin, the transversalis fascia, K <i>k</i>, Plate 31, presents, in +general, so dense a texture as to offer considerable resistance to visceral +pressure. Here it is stretched between the transverse muscle, F, Plate 31, and +the peritonaeum, I. It adheres to the external surface of the peritonaeum, and +to the internal surface of the transverse muscle, by means of an intervening +cellular tissue. It is connected below to Poupart’s ligament, along the line of +which it joins the fascia iliaca. It lines the lower posterior aspect of the +rectus muscle, where this is devoid of its sheath; and it is incorporated with +<i>f,</i> the conjoined tendon, thereby fencing the external abdominal ring. +Immediately above the middle of Poupart’s ligament, this membrane, at the point +marked <i>h, </i>Plate 30, is pouched into a canal-shaped elongation, which +invests the spermatic vessels as far as the testicle in the scrotum; and to +this elongation is given the names “fascia spermatica interna” (Cooper), +“fascia infundibuliform” (Cloquet). The same part, when it encloses an external +oblique hernia, is named “fascia propria.” The neck or inlet of this +funnel-shaped canal is oval, and named the “internal abdominal ring.” As this +ring looks towards the interior of the abdomen, and forms the entrance of the +funnel-shaped canal, it cannot of course be seen from before until we slit open +this canal. Compare the parts marked H <i>h</i> in Plates 30 and 31. +</p> + +<p> +The inguinal and iliac portions of the fascia transversalis join along the line +of Poupart’s ligament, A C. The iliac vessels, in their passage to the thigh, +encounter the fascia at the middle third of the crural arch formed by the +ligament, and take an investment (the sheath, R) from the fascia. The fore part +of this sheath is mentioned as formed by the fascia transversalis—the back part +by the fascia iliaca; but these distinctions are merely nominal, and it is +therefore unnecessary to dwell upon them. The sheath of the femoral vessels is +also funnel-shaped, and surrounds them on all sides. Its broad entrance lies +beneath the middle of Poupart’s ligament. Several septa are met with in its +interior. These serve to separate the femoral vessels from each other. The +femoral vein, O, Plate 30, is separated from the falciform margin, S <i>s</i>, +of the saphenous opening by one of these septa. Between this septum and the +falx an interval occurs, and through it the crural hernia usually descends. +These parts will be more particularly noticed when considering the anatomy of +crural hernia. +</p> + +<p> +Beneath the fascia transversalis is found the subserous cellular membrane, +which serves as a connecting medium between the fascia and the peritonaeum. +This cellular membrane may be considered as the <i>seventh inguinal layer.</i> +It is described by Scarpa (sull’ Ernie) as forming an investment for the +spermatic vessels inside the sheath, where it is copious, especially in old +inguinal hernia. It is also sometimes mixed with fatty tissue. In it is found +embedded the infantile cord—the remains of the upper part of the peritoneal +tunica vaginalis—a structure which will be considered in connexion with +congenital herniae. +</p> + +<p> +By removing the subserous cellular tissue, we lay bare the peritonaeum, which +forms the <i>eighth layer of the inguinal region.</i> Upon it the epigastric +and spermatic vessels are seen to rest. These vessels course between the fascia +transversalis and the peritonaeum. The internal ring which is formed in the +fascia, K <i>h</i>, may be now seen to be closed by the peritonaeum, I. The +inguinal canal, therefore, does not, in the normal state of these parts, +communicate with the general serous cavity; and here it must be evident that +before the bowel, which is situated immediately behind the peritonaeum, I, can +be received into the canal, H <i>h,</i> it must either rupture that membrane, +or elongate it in the form of a sac. +</p> + +<p> +The exact position which the epigastric, L, Plate 31, and spermatic vessels, M, +bear in respect to the internal ring, is a point of chief importance in the +surgical anatomy of the groin; for the various forms of herniae which protrude +through this part have an intimate relation to these vessels. The epigastric +artery, in general, arises from the external iliac, close above the middle of +Poupart’s ligament, and ascends the inguinal wall in an oblique course towards +the navel. It applies itself to the inner border of the internal ring, and here +it is crossed on its outer side by the spermatic vessels, as these are about to +enter the inguinal canal. +</p> + +<p> +The inguinal canal is the natural channel through which the spermatic vessels +traverse the groin on their way to the testicle in the scrotum. In the remarks +which have been already made respecting the several layers of structures found +in the groin, I endeavoured to realize the idea of an inguinal canal as +consisting of elongations of these layers invaginated the one within the other, +the outermost layer being the integument of the groin elongated into the +scrotal skin, whilst the innermost layer consisted of the transversalis fascia +elongated into the fascia spermatica interna, or sheath. The peritonaeum, which +forms the eighth layer of the groin, was seen to be drawn across the internal +ring of this canal above in such a way as to close it completely, whilst all +the other layers, seven in number, were described as being continued over the +spermatic vessels in the form of funnel-shaped investments, as far down as the +testicle. +</p> + +<p> +With the ideas of an inguinal canal thus naturally constituted, I need not +hesitate to assert that the form, the extent, and the boundaries of the +inguinal canal, as given by the descriptive anatomist, are purely conventional, +and do not exist until after dissection; for which reason, and also because the +form and condition of these parts so described and dissected do not appear +absolutely to correspond in any two individuals, I omit to mention the scale of +measurements drawn up by some eminent surgeons, with the object of determining +the precise relative position of the several parts of the inguinal region. +</p> + +<p> +The existence of an inguinal canal consisting, as I have described it, of +funnel-shaped elongations from the several inguinal layers continued over the +cord as far as the testicle, renders the adult male especially liable to +hernial protrusions at this part. The oblique direction of the canal is, in +some measure, a safeguard against these accidents; but this obliquity is not of +the same degree in all bodies, and hence some are naturally more prone to +herniae than others. +</p> + +<h4>DESCRIPTION OF THE FIGURES OF PLATES 30 & 31.</h4> + +<p> +PLATE 30. +</p> + +<p> +A. The anterior superior iliac spine. +</p> + +<p> +B. The umbilicus. +</p> + +<p> +C. The spine of the pubis. +</p> + +<p> +D. The external oblique muscle; <i>d</i>, its tendon. . +</p> + +<p> +E. The internal oblique muscle; <i>e</i>, its tendon. +</p> + +<p> +F. The transverse muscle; <i>f,</i> its tendon, forming, with <i>e</i>, the +conjoined tendon. +</p> + +<p> +G. The rectus muscle enclosed in its sheath. +</p> + +<p> +H. The fascia spermatica interna covering the cord; <i>h</i>, its funnel-shaped +extremity. +</p> + +<p> +I, K, L, M. See Plate 31. +</p> + +<p> +N. The femoral artery; <i>n</i>, its profunda branch. +</p> + +<p> +O. The femoral vein. +</p> + +<p> +P. The saphena vein. +</p> + +<p> +Q. The sartorius muscle. +</p> + +<p> +R. The sheath of the femoral vessels. +</p> + +<p> +S. The falciform margin of the saphenous opening. +</p> + +<p> +T. The anterior crural nerve. +</p> + +<p> +U. The pubic portion of the fascia lata. +</p> + +<p> +V. The iliac portion attached to Poupart’s ligament. +</p> + +<p> +W. The lower part of the iliacus muscle. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/078P30_25.jpg"> +<img src="images/078P30_25.jpg" width="600" height="456" alt="Illustration:" /></a> +<p class="caption">Plate 30</p> +</div> + +<p> +PLATE 31. +</p> + +<p> +A. The anterior superior iliac spine. +</p> + +<p> +B. The umbilicus. +</p> + +<p> +C. The spine of the pubis. +</p> + +<p> +D. The external oblique muscle; <i>d,</i> its tendon; <i>d*</i>, the external +ring. +</p> + +<p> +E. The internal oblique muscle. +</p> + +<p> +F. The transverse muscle; <i>f,</i> its tendon; forming, with <i>e</i>, the +conjoined tendon. +</p> + +<p> +G. The rectus muscle laid bare. +</p> + +<p> +H <i>h.</i> The fascia spermatica interna laid open above and below <i>d*</i>, +the external ring. +</p> + +<p> +I. The peritonaeum closing the internal ring. +</p> + +<p> +K. The fascia transversalis; <i>k</i>, its pubic part. +</p> + +<p> +L. The epigastric artery and veins. +</p> + +<p> +M. The spermatic artery, veins, and vas deferens bending round the epigastric +artery at the internal ring; <i>m</i>, the same vessels below the external +ring. +</p> + +<p> +N. The femoral artery; <i>n</i>, its profunda branch. +</p> + +<p> +O. The femoral vein, joined by— +</p> + +<p> +P. The saphena vein. +</p> + +<p> +Q. The sartorius muscle. +</p> + +<p> +R. The sheath of the femoral vessels. +</p> + +<p> +S S. The falciform margin of the saphenous opening, +</p> + +<p> +T. The anterior crural nerve. +</p> + +<p> +U. The pubic part of the fascia lata. +</p> + +<p> +V. The iliac part of the fascia lata. +</p> + +<p> +W. The lower part of the iliacus muscle. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/078P31_25.jpg"> +<img src="images/078P31_25.jpg" width="600" height="503" alt="Illustration:" /></a> +<p class="caption">Plate 31</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap19"></a>COMMENTARY ON PLATES 32, 33, & 34.</h2> + +<p> +THE DISSECTION OF THE OBLIQUE OR EXTERNAL AND THE DIRECT OR INTERNAL INGUINAL +HERNIAE. +</p> + +<p> +The order in which the herniary bowel takes its investments from the eight +layers of the inguinal region, is precisely the reverse of that order in which +these layers present in the dissection from before backwards. The innermost +layer of the inguinal region is the peritonaeum, and from this membrane the +intestine, when about to protrude, derives its first covering. This covering +constitutes the hernial sac. Almost all varieties of inguinal herniae are said +to be enveloped in a sac, or elongation of the peritonaeum. This is accounted +as the general rule. The exceptions to the rule are mentioned as occurring in +the following modes: 1st, the caecum and sigmoid flexure of the colon, which +are devoid of mesenteries, and only partially covered by the peritonaeum, may +slip down behind this membrane, and become hernial; 2nd, the inguinal part of +the peritonaeum may suffer rupture, and allow the intestine to protrude through +the opening. When a hernia occurs under either of these circumstances, it will +be found deprived of a sac. +</p> + +<p> +All the blood vessels and nerves of the abdomen lie external to the +peritonaeum. Those vessels which traverse the abdomen on their way to the +external organs course outside the peritonaeum; and at the places where they +enter the abdominal parietes, the membrane is reflected from them. This +disposition of the peritonaeum in respect to the spermatic and iliac vessels is +exhibited in Plate 32. +</p> + +<p> +The part of the peritonaeum which lines the inguinal parietes does not (in the +normal state of the adult body) exhibit any aperture corresponding to that +named the internal ring. The membrane is in this place, as elsewhere, +continuous throughout, being extended over the ring, as also over other +localities, where subjacent structures may be in part wanting. It is in these +places, where the membrane happens to be unsupported, that herniae are most +liable to occur. And it must be added, that the natural form of the internal +surface of the groin is such as to guide the viscera under pressure directly +against those parts which are the weakest. +</p> + +<p> +The inner surface of the groin is divided into two pouches or fossae, by an +intervening crescentic fold of the peritonaeum, which corresponds with the +situation of the epigastric vessels. This fold is formed by the epigastric +vessels and the umbilical ligament, which, being tenser and shorter than the +peritonaeum, thereby cause this membrane to project. The outer fossa represents +a triangular space, the apex of which is below, at P; the base being formed by +the fibres of the transverse muscle above; the inner side by the epigastric +artery; and the outer side by Poupart’s ligament. The apex of this inverted +triangle is opposite the internal ring. The inner fossa is bounded by the +epigastric artery externally; by the margin of the rectus muscle internally; +and by the os pubis and inner end of Poupart’s ligament inferiorly. The inner +fossa is opposite the external abdominal ring, and is known as the triangle of +Hesselbach. +</p> + +<p> +The two peritonaeal fossae being named external and internal, in reference to +the situation of the epigastric vessels, we find that the two varieties of +inguinal herniae which occur in these fossae are named external and internal +also, in reference to the same part. +</p> + +<p> +The <i>external</i> inguinal hernia, so called from its commencing in the outer +peritonaeal fossa, on the outer side of the epigastric artery, takes a covering +from the peritonaeum of this place, and pushes forward into the internal +abdominal ring at the point marked P, Plate 32. In this place, the incipient +hernia or bubonocele, covered by its sac, lies on the forepart of the spermatic +vessels, and becomes invested by those same coverings which constitute the +inguinal canal, through which these vessels pass. In this stage of the hernia, +its situation in respect to the epigastric artery is truly external, and in +respect to the spermatic vessels, anterior, while the protruded intestine +itself is separated from actual contact with either of these vessels by its +proper sac. The bubonocele, projecting through the internal ring at the +situation marked F, (Plate 33,) midway between A, the anterior iliac spine, and +I, the pubic spine, continues to increase in size; but as its further progress +from behind directly forwards becomes arrested by the tense resisting +aponeurosis of the external oblique muscle, <i>h, </i>it changes its course +obliquely inwards along the canal, traversing this canal with the spermatic +vessels, which still lie behind it, and, lastly, makes its exit at the external +ring, H. The obliquity of this course, pursued by the hernia, from the internal +to the external ring, has gained for it the name of <i>oblique</i> hernia. In +this stage of the hernial protrusion, the only part of it which may be truly +named external is the neck of its sac, F, for the elongated body, G, of the +hernia lies now actually in front of the epigastric artery, P, and this vessel +is separated from the anterior wall of the canal, H <i>h</i>, by an interval +equal to the bulk of the hernia. While the hernia occupies the canal, F H, +without projecting through the external ring, H, it is named “incomplete.” When +it has passed the external ring, H, so as to form a tumour of the size and in +the situation of <i>f g</i>, it is named “complete.” When, lastly, the hernia +has extended itself so far as to occupy the whole length of the cord, and reach +the scrotum, it is termed “scrotal hernia.” These names, it will be seen, are +given only to characterise the several stages of the one kind of hernia—viz., +that which commences to form at a situation external to the epigastric artery, +and, after following the course of the spermatic vessels through the inguinal +canal, at length terminates in the scrotum. +</p> + +<p> +The external inguinal hernia having entered the canal, P, (Plate 32,) at a +situation immediately in front of the spermatic vessels, continues, in the +several stages of its descent, to hold the same relation to these vessels +through the whole length of the canal, even as far as the testicle in the +scrotum. This hernia, however, when of long standing and large size, is known +to separate the spermatic vessels from each other in such a way, that some are +found to lie on its fore part—others to its outer side. However great may be +the size of this hernia, even when it becomes scrotal, still the testicle is +invariably found below it. This fact is accounted for by the circumstance, that +the lower end of the spermatic envelopes is attached so firmly to the coats of +the testicle as to prevent the hernia from either distending and elongating +them to a level below this organ, or from entering the cavity of the tunica +vaginalis. +</p> + +<p> +The external form of inguinal hernia is, comparatively speaking, but rarely +seen in the female. When it does occur in this sex, its position, investments, +and course through the inguinal canal, where it accompanies the round ligament +of the uterus, are the same as in the male. When the hernia escapes through the +external abdominal ring of the female groin, it is found to lodge in the labium +pudendi. In the male body, the testicle and spermatic cord, which have carried +before them investments derived from all the layers of the inguinal region, +have, as it were, already marked out the track to be followed by the hernia, +and prepared for it its several coverings. The muscular parietes of the male +inguinal region, from which the loose cremaster muscle has been derived, have +by this circumstance become weakened, and hence the more frequent occurrence of +external inguinal hernia in the male. But in the female, where no such process +has taken place, and where a cremaster does not exist at the expense of the +internal oblique and transverse muscles, the inguinal parietes remain more +compact, and are less liable to suffer distention in the course of the uterine +ligament. +</p> + +<p> +The <i>internal</i> inguinal hernia takes its peritonaeal covering (the sac) +from the inner fossa, Q R, Plate 32, internal to the epigastric artery, and +forces directly forwards through the external abdominal ring, carrying +investments from each of such structures as it meets with in this locality of +the groin. As the external ring, H, Plate 34, is opposite the inner peritonaeal +fossa, Q R, Plate 32, this hernia, which protrudes thus immediately from behind +forwards, is also named <i>direct.</i> In this way these two varieties of +hernia, (the external, Plate 33, and the internal, Plate 34,) though commencing +in different situations, P and R, Plate 32, within the abdomen, arrive at the +same place—viz., the external ring, H, Plates 33 and 34. The coverings of the +internal hernia, Plate 34, though not derived exactly from the same locality as +those which invest the cord and the external variety, are, nevertheless, but +different parts of the same structures; these are, 1st, the peritonaeum, G, +which forms its sac; 2nd, the pubic part of the fascia transversalis; 3rd, the +conjoined tendon itself, or (according as the hernia may occur further from the +mesial line) the cremaster, which, in common with the internal oblique and +transverse muscles, terminates in this tendon; 4th, the external spermatic +fascia, derived from the margins of the external ring; 5th, the superficial +fascia and integuments. +</p> + +<p> +The coverings of the internal inguinal hernia are (as to number) variously +described by authors. Thus with respect to the conjoined tendon, the hernia is +said, in some instances, to take an investment of this structure; in others, to +pass through a cleft in its fibres; in others, to escape by its outer margin. +Again, the cremaster muscle is stated by some to cover this hernia; by others, +to be rarely met with, as forming one of its coverings; and by others, never. +Lastly, it is doubted by some whether this hernia is even covered by a +protrusion of the fascia transversalis in all instances. [Footnote] +</p> + +<p> +[Footnote: Mr. Lawrence (Treatise on Ruptures) remarks, “How often it may be +invested by a protrusion of the fascia transversalis, I cannot hitherto +determine.” Mr. Stanley has presented to St. Bartholomew’s Hospital several +specimens of this hernia invested by the fascia. Hesselbach speaks of the +fascia as being always present. Cloquet mentions it as being present always, +except in such cases as where, by being ruptured, the sac protrudes through it. +Langenbeck states that the fascia is constantly protruded as a covering to this +hernia: “Quia hernia inguinalis interna non in canalis abdominalis aperturam +internam transit, tunicam vaginalem communem intrare nequit; parietem autem +canalis abdominalis internum aponeuroticum, in quo fovea inguinalis interna, et +qui ex adverso annulo abdominali est, ante se per annulum trudit.” (Comment, ad +illust. Herniarum, &c.) Perhaps the readiest and surest explanation which +can be given to these differences of opinion may be had from the following +remark:—“Culter enim semper has partes extricat, quae involucro adeo inhaerent, +ut pro lubitu musculum (membranam) efformare queas unde magnam illam inter +anatomicos discrepantiam ortam conjicio.” (Camper. Icones Herniarum.)] +</p> + +<p> +The variety in the number of investments of the internal inguinal hernia +(especially as regards the presence or absence of the conjoined tendon and +cremaster) appears to me to be dependent, 1st, upon the position whereat this +hernia occurs; 2nd, upon the state of the parts through which it passes; and +3rd, upon the manner in which the dissection happens to be conducted. +</p> + +<p> +The precise relations which the internal hernia holds in respect to the +epigastric and spermatic vessels are also mainly dependent (as in the external +variety) upon the situation where it traverses the groin. The epigastric artery +courses outside the neck of its sac, sometimes in close connexion with this +part—at other times, at some distance from it, according as the neck may happen +to be wide and near the vessel, or narrow, and removed from it nearer to the +median line. At the external ring, H, (Plate 34,) the sac of this hernia, +<i>g</i>, protrudes on the inner side of the spermatic vessels, <i>f;</i> and +the size of the hernia distending the ring, removes these vessels at a +considerable interval from, I, the crista pubis. At the ring, H, (Plate 34,) +the investments, <i>g f</i>, of the direct hernia are not <i>always</i> +distinct from those of the oblique hernia, <i>g f</i>, (Plate 33); for whilst +in both varieties the intestine and the spermatic vessels are separated from +actual contact by the sac, yet it is true that the direct hernia, as well as +the oblique, may occupy the inguinal canal. It is in relation to the epigastric +artery alone that the direct hernia differs essentially from the oblique +variety; for I find that both may be enclosed in the same structures as invest +the spermatic vessels. +</p> + +<p> +The external ring of the male groin is larger than that of the female; and this +circumstance, with others of a like nature, may account for the fact, that the +female is very rarely the subject of the direct hernia. In the male, the direct +hernia is found to occur much less frequently than the oblique, and this we +might, <i>a priori,</i> expect, from the anatomical disposition of the parts. +But it is true, nevertheless, that the part where the direct hernia occurs is +not defended so completely in some male bodies as it is in others. The +conjoined tendon, which is described as shielding the external ring, is in some +cases very weak, and in others so narrow, as to offer but little support to +this part of the groin. +</p> + +<h4>DESCRIPTION OF THE FIGURES OF PLATES 32, 33, & 34.</h4> + +<p> +PLATE 32. +</p> + +<p> +A. That part of the ilium which abuts against the sacrum. +</p> + +<p> +B. The spine of the ischium. +</p> + +<p> +C. The tuberosity of the ischium. +</p> + +<p> +D. The symphysis pubis. +</p> + +<p> +E. Situation of the anterior superior iliac spine. +</p> + +<p> +F. Crest of the ilium. +</p> + +<p> +G. Iliacus muscle. +</p> + +<p> +H. Psoas magnus muscle supporting the spermatic vessels. +</p> + +<p> +I. Transversalis muscle. +</p> + +<p> +K. Termination of the sheath of the rectus muscle. +</p> + +<p> +L1 L2 L3. The iliac, transverse and pelvic portions of the transversalis +fascia. +</p> + +<p> +M M. The peritonaeum lining the groin. +</p> + +<p> +N. The epigastric vessels lying between the peritonaeum, M, and the +transversalis fascia, L2. O. The umbilical ligament. +</p> + +<p> +P. The neck of the sac of an external inguinal hernia formed before the +spermatic vessels. +</p> + +<p> +Q. An interval which occasionally occurs between the umbilical ligament and the +epigastric artery. +</p> + +<p> +R and Q. Situations where the direct inguinal hernia occurs when, as in this +case, the umbilical ligament crosses the space named the internal fossa—the +triangle of Hesselbach. +</p> + +<p> +S. Lower part of the right spermatic cord. +</p> + +<p> +T. The bulb of the urethra. +</p> + +<p> +U. External iliac vein covered by the peritonaeum. +</p> + +<p> +V. External iliac artery covered by the peritonaeum. +</p> + +<p> +W. Internal iliac artery. +</p> + +<p> +X. Common iliac artery. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/084P32_25.jpg"> +<img src="images/084P32_25.jpg" width="553" height="600" alt="Illustration:" /></a> +<p class="caption">Plate 32</p> +</div> + +<p> +PLATE 33.—<i>The External Inguinal Hernia.</i> +</p> + +<p> +A. Anterior iliac spinous process. +</p> + +<p> +B. The umbilicus. +</p> + +<p> +C. Fleshy part of the external oblique muscle; <i>c</i>, its tendon. +</p> + +<p> +D. Fleshy part of the internal oblique muscle; <i>d,</i> its tendon. +</p> + +<p> +E. Transversalis muscle; <i>e,</i> the conjoined tendon. +</p> + +<p> +F <i>f.</i> The funnel-shaped sheath of the spermatic vessels covering the +external hernia; upon it are seen the cremasteric fibres. +</p> + +<p> +G <i>g.</i> The peritonaeal covering or sac of the external hernia within the +sheath. +</p> + +<p> +H. The external abdominal ring. +</p> + +<p> +I. The crista pubis. +</p> + +<p> +K <i>k.</i> The saphenous opening. +</p> + +<p> +L. The saphena vein. +</p> + +<p> +M. The femoral vein. +</p> + +<p> +N. The femoral artery; <i>n</i>, its profunda branch. +</p> + +<p> +O. The anterior crural nerve. +</p> + +<p> +P. The epigastric vessels overlaid by the neck of the hernia. +</p> + +<p> +Q Q. The sheath of the femoral vessels. +</p> + +<p> +R. The sartorius muscle. +</p> + +<p> +S. The iliacus muscle. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/084P33_25.jpg"> +<img src="images/084P33_25.jpg" width="568" height="600" alt="Illustration:" /></a> +<p class="caption">Plate 33</p> +</div> + +<p> +PLATE 34.—<i>The Internal Inguinal Hernia.</i> +</p> + +<p> +The letters indicate the same parts as in Plate 33 +</p> + +<div class="fig" style="width:100%;"> +<a href="images/084P34_25.jpg"> +<img src="images/084P34_25.jpg" width="491" height="600" alt="Illustration:" /></a> +<p class="caption">Plate 34</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap20"></a>COMMENTARY ON PLATES 35, 36, 37, & 38.</h2> + +<p> +THE DISTINCTIVE DIAGNOSIS BETWEEN EXTERNAL AND INTERNAL INGUINAL HERNIAE, THE +TAXIS, THE SEAT OF STRICTURE, AND THE OPERATION. +</p> + +<p> +A comparison of the relative position of these two varieties of herniae is in +ordinary cases the chief means by which we can determine their distinctive +diagnosis; but oftentimes they are found to exhibit such an interchange of +characters, that the name <i>direct</i> or <i>oblique</i> can no longer serve +to distinguish between them. The nearer the one approaches the usual place of +the other, the more likely are they to be mistaken the one for the other. An +internal hernia may enter the inguinal canal, and become oblique; while an +external hernia, though occupying the canal, may become direct. It is only when +these herniae occur at the situations commonly described, and where they +manifest their broadest contrast, that the following diagnostic signs can be +observed. +</p> + +<p> +The external bubonocele, H, Plate 37, G, Plate 38, when recently formed, may be +detected at a situation midway between the iliac and pubic spinous processes, +where it has entered the internal ring. When the hernia extends itself from +this part, its course will be obliquely inwards, corresponding with the +direction of the inguinal canal. While it still occupies the canal without +passing through the external ring, it is rendered obscure by the restraint of +the external oblique tendon; but yet a degree of fulness may be felt in this +situation. When the hernia has passed the external ring, T, Plate 36, it +dilates considerably, and assumes the form of an oblong swelling, H, Plate 36, +behind which the spermatic vessels are situated. When it has become scrotal, +the cord will be found still on its posterior aspect, while the testicle itself +occupies a situation directly below the swelling. +</p> + +<p> +The internal hernia, H, Plate 38, also traverses the external ring, T, where it +assumes a globular shape, and sometimes projects so far inwards, over the +pubes, C, as to conceal the crista of this bone. As the direction of this +hernia is immediately from behind forwards, the inguinal canal near the +internal ring is found empty, unswollen. The cord, Q, lies external to and +somewhat over the fore part of this hernia; and the testicle does not occupy a +situation exactly beneath the fundus of the sac, (as it does in the external +hernia,) but is found to be placed either at its fore part or its outer side. +This difference as to the relative position of the cord and testicle in both +these forms of herniae, is accounted for under the supposition that whilst the +external variety descends inside the sheaths of the inguinal canal, the +internal variety does not. But this statement cannot apply to all cases of +internal hernia, for this also occasionally enters the canal. Both forms of +inguinal herniae may exist at the same time on the same side: the external, G, +Plate 38, being a bubonocele, still occupying the inguinal canal; while the +internal, H, protrudes through the external ring, T, in the usual way. In this +form of hernia—a compound of the oblique and direct—while the parts remain +still covered by the integuments, it must be difficult to tell its nature, or +to distinguish any mark by which to diagnose the case from one of the external +variety, H, Plate 36, which, on entering the canal at the internal ring, +protrudes at the external ring. In both cases, the swelling produced in the +groin must be exactly of the same size and shape. The epigastric artery in the +case where the two herniae co-exist lies between them, holding in its usual +position with respect to each when occurring separately—that is, on the outer +side of the internal hernia, H, and on the inner side of the external one, G; +and the external hernia, G, not having descended the canal as far as the +external ring, T, allows the internal hernia, H, to assume its usual position +with respect to the cord, Q. [Footnote] +</p> + +<p> +[Footnote: Cases of this double hernia (external and internal) have been met +with by Wilmer, Arnaud, Sandifort, Richter, and others. A plurality of the same +variety of hernia may also occur on the same side. A complete and incomplete +external inguinal hernia existing in the one groin, is recorded by Mr. Aston +Key in his edition of Sir Astley Cooper’s work on Hernia. Sir Astley Cooper +states his having met with three internal inguinal herniae in each inguinal +region. (Ing. et Congenit. Hernire.) ] +</p> + +<p> +Returning, however, to the more frequent conditions of inguinal hernia—viz., +those in which either the direct or the oblique variety occurs alone—it should +be remembered that a hernia originally oblique, H, Plates 35 and 37, may, when +of long standing, and having attained a large size, destroy, by its +gravitation, the obliquity of the inguinal canal to such a degree as to bring +the internal, H, Plate 35, opposite to the external ring, as at I, and thereby +exhibit all the appearance of a hernia originally direct, I, Plate 37. In such +a case, the epigastric artery, F, which lies on the outer side of the neck of a +truly direct hernia, I, Plate 37, will be found to course on the inner side, G, +of the neck of this false-seeming direct hernia, I, Plate 35. +</p> + +<p> +In the trial made for replacing the protruded bowel by the <i>taxis</i>, two +circumstances should be remembered in order to facilitate this object: 1st, the +abdominal parietes should be relaxed by supporting the trunk forward, and at +the same time flexing the thigh on the trunk; 2nd, as every complete hernial +protrusion becomes distended more or less beyond the seat of stricture—wherever +this may happen to be—its reduction by the taxis should be attempted, with +gradual, gentle, equable pressure, so that the sac may be first emptied of its +fluid. That part of the hernia which protruded last should be replaced first. +The direction in which the hernia protrudes must always determine the direction +in which it is to be reduced. If it be the external or oblique variety, the +viscus is to be pushed upwards, outwards, and backwards; if it be the internal +or direct variety, it is to be reduced by pressure, made upwards and backwards. +Pressure made in this latter direction will serve for the reduction of that +hernia which, from being originally external and oblique, has assumed the usual +position of the internal or direct variety. +</p> + +<p> +The seat of the stricture in an external inguinal hernia is found to be +situated either at the internal ring, corresponding to the neck of the sac, or +at the external ring. Between these two points, which “bound the canal,” and +which are to be regarded merely as passive agents in causing stricture of the +protruding bowel, the lower parts of the transversalis and internal oblique +muscles embrace the herniary sac, and are known at times to be the cause of its +active strangulation or spasm. +</p> + +<p> +The seat of stricture in an internal hernia may be either at the neck of its +sac, I, Plate 37, or at the external ring, T, Plate 38; and according to the +locality where this hernia enters the inguinal wall, the nature of its +stricture will vary. If the hernia pass through a cleft in the conjoined +tendon, <i>f,</i> Plate 38, this structure will constrict its neck all around. +If it pass on the outer margin of this tendon, then the neck of the sac, +bending inwards in order to gain the external ring, will be constricted against +the sharp resisting edge of the tendon. Again, if the hernia enter the inguinal +wall close to the epigastric artery, it will find its way into the inguinal +canal, become invested by the structures forming this part, and here it may +suffer active constriction from the muscular fibres of the transverse and +internal oblique or their cremasteric parts. The external ring may be +considered as always causing some degree of pressure on the hernia which passes +through it. +</p> + +<p> +In both kinds of inguinal herniae, the neck of the sac is described as being +occasionally the seat of stricture, and it certainly is so; but never from a +cause originating in itself <i>per se</i>, or independently of adjacent +structures. The form of the sac of a hernia is influenced by the parts through +which it passes, or which it pushes and elongates before itself. Its neck, H, +Plate 37, is narrow at the internal ring of the fascia transversalis, because +this ring is itself narrowed; it is again narrowed at the external ring, T, +Plate 36, from the same cause. The neck of the sac of a direct hernia, I, Plate +37, being formed in the space of the separated fibres of the conjoined tendon, +or the pubic part of the transversalis fascia, while the sac itself passes +through the resisting tendinous external ring, is equal to the capacities of +these outlets. But if these constricting outlets did not exist, the neck of the +sac would be also wanting. When, however, the neck of the sac has existed in +the embrace of these constricting parts for a considerable period—when it +suffers inflammation and undergoes chronic thickening—then, even though we +liberate the stricture of the internal ring or the external, the neck of the +sac will be found to maintain its narrow diameter, and to have become itself a +real seat of stricture. It is in cases of this latter kind of stricture that +experience has demonstrated the necessity of opening the sac (a proceeding +otherwise not only needless, but objectionable) and dividing its constricted +neck. +</p> + +<p> +The fact that the stricture may be seated in the neck of the sac independent of +the internal ring, and also that the duplicature of the contained bowel may be +adherent to the neck or other part of the interior, or that firm bands of false +membrane may exist so as to constrict the bowel within the sac, are +circumstances which require that this should be opened, and the state of its +contained parts examined, prior to the replacement of the bowel in the abdomen. +If the bowel were adherent to the neck of the sac, we might, when trying to +reduce it by the taxis, produce visceral invagination; or while the stricture +is in the neck of the sac, if we were to return this and its contents <i>en +masse</i> (the “reduction en bloc”) into the abdomen, it is obvious that the +bowel would be still in a state of strangulation, though free of the internal +ring or other opening in the inguinal wall. +</p> + +<p> +The operation for the division of the stricture by the knife is conducted in +the following way: an incision is to be made through the integuments, adipous +membrane, and superficial fascia, of a length and depth sufficient to expose +the tendon of the external oblique muscle for an inch or so above the external +ring; and the hernia for the same extent below the ring. The length of the +incision will require to be varied according to circumstances, but its +direction should be oblique with that of the hernia itself, and also over the +centre of its longitudinal axis, so as to avoid injuring the spermatic vessels. +If the constriction of the hernia be caused by the external ring, a director is +to be inserted beneath this part, and a few of its fibres divided. But when the +stricture is produced by either of the muscles which lie beneath the +aponeurosis of the external oblique, it will be necessary to divide this part +in order to expose and incise them. +</p> + +<p> +When the thickened and indurated neck of the sac is felt to be the cause of the +strangulation, or when the bowel cannot be replaced, in consequence of +adhesions which it may have contracted with some part of the sac, it then +becomes necessary to open this envelope. And now the position of the epigastric +artery is to be remembered, so as to avoid wounding it in the incision about to +be made through the constricted neck of the sac. The artery being situated on +the <i>inner side of the neck</i> of the sac of an oblique hernia, requires the +incision to be made <i>outwards</i> from the <i>external side of the neck</i>; +whereas in the direct hernia, the artery being on its <i>outer side</i>, the +incision should be conducted <i>inwards</i> from <i>the inner side of the +neck</i>. But as the external or oblique hernia may by its weight, in process +of time, gravitate so far inwards as to assume the position and appearance of a +hernia originally direct and internal, and as by this change of place the +oblique hernia, becoming direct as to position, does not at the same time +become internal in respect to the epigastric artery,—for this vessel, F, Plate +35, has been borne inwards to the place, G, where it still lies, internal to +the neck of the sac, and since, moreover, it is very difficult to diagnose a +case of this kind with positive certainty, it is therefore recommended to +incise the stricture at the neck of the sac in a line carried <i>directly +upwards</i>. (Sir Astley Cooper.) It will be seen, however, on referring to +Plates 32, 33, 34, 35, 36, 37, & 38, that an incision carried <i>obliquely +upwards</i> towards the umbilicus would be much more likely to avoid the +epigastric artery through all its varying relations. +</p> + +<h4>DESCRIPTION OF THE FIGURES OF PLATES 35, 36, 37, & 38.</h4> + +<p> +PLATE 35. +</p> + +<p> +A. Anterior superior spine of the ilium; <i>a</i>, indicates the situation of +the middle of Poupart’s ligament. +</p> + +<p> +B. Symphysis pubis. +</p> + +<p> +C. Rectus abdominis muscle covered by the fascia transversalis. +</p> + +<p> +D. The peritonaeum lining the groin. +</p> + +<p> +E. The situation of the conjoined tendon resisting the further progress of the +external hernia gravitating inwards. +</p> + +<p> +F. A dotted line indicating the original situation of the epigastric artery in +the external hernia. +</p> + +<p> +G. The new position assumed by the epigastric artery borne inwards by the +weight of the old external hernia. +</p> + +<p> +H. The original situation of the neck of the sac of the external hernia. +</p> + +<p> +I. The new situation assumed by the neck of the sac of an old external hernia +which has gravitated inwards from its original place at H. +</p> + +<p> +K. The external iliac vein covered by the peritonaeum. +</p> + +<p> +L. The external iliac artery covered by the peritonaeum and crossed by the +spermatic vessels. +</p> + +<p> +M. The psoas muscle supporting the spermatic vessels and the genito-crural +nerve. +</p> + +<p> +N. The iliacus muscle. +</p> + +<p> +O. The transversalis fascia lining the transverse muscle. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/088P35_25.jpg"> +<img src="images/088P35_25.jpg" width="396" height="600" alt="Illustration:" /></a> +<p class="caption">Plate 35</p> +</div> + +<p> +PLATE 36.—AN ANTERIOR VIEW OF PLATE 35. +</p> + +<p> +A. Anterior superior iliac spinous process. +</p> + +<p> +B. The navel. +</p> + +<p> +C. The situation of the crista pubis. +</p> + +<p> +D. The external oblique muscle; <i>d</i>, its tendon. +</p> + +<p> +E. Internal oblique muscle; <i>e</i>, its tendon, covering the rectus muscle. +</p> + +<p> +F. Lower part of the transverse muscle; <i>f</i>, the conjoined tendon. +</p> + +<p> +G. The transversalis fascia investing the upper part of the hernial sac; +<i>g</i>, the original situation of the epigastric artery internal to this +hernia; <i>g*</i>, the new situation of the artery pushed inwards. +</p> + +<p> +H. The hernial sac, invested by <i>h</i>, the elongation of the fascia +transversalis, or funnel-shaped sheath. +</p> + +<p> +I. The femoral artery. +</p> + +<p> +K. The femoral vein. +</p> + +<p> +L. The sartorius muscle. +</p> + +<p> +M. Iliac part of the fascia lata joining Poupart’s ligament. +</p> + +<p> +N. Pubic part of the fascia lata. +</p> + +<p> +O. Saphena vein. +</p> + +<p> +P P. Falciform margin of the saphenous opening. +</p> + +<p> +Q. See Plate 38. +</p> + +<p> +R. Sheath of the femoral vessels. +</p> + +<p> +S. Anterior crural nerve. +</p> + +<p> +T. The external ring. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/088P36_25.jpg"> +<img src="images/088P36_25.jpg" width="389" height="600" alt="Illustration:" /></a> +<p class="caption">Plate 36</p> +</div> + +<p> +PLATE 37. +</p> + +<p> +All the letters except the following indicate the same parts as in Plate 35. +</p> + +<p> +F. The epigastric artery passing between the two hernial sacs +</p> + +<p> +G. The umbilical ligament. +</p> + +<p> +H. The neck of the sac of the external hernia. +</p> + +<p> +I. The neck of the sac of the internal hernia. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/088P37_25.jpg"> +<img src="images/088P37_25.jpg" width="393" height="600" alt="Illustration:" /></a> +<p class="caption">Plate 37</p> +</div> + +<p> +PLATE 38.—AN ANTERIOR VIEW OF PLATE 37. +</p> + +<p> +All the letters, with the exception of the following, refer to the same parts +as in Plate 36. +</p> + +<p> +G. The funnel-shaped elongation of the fascia transversalis receiving <i>g</i>, +the sac of the external bubonocele. +</p> + +<p> +H. The sac of the internal inguinal hernia invested by <i>h,</i> the +transversalis fascia. +</p> + +<p> +Q. The spermatic vessels lying on the outer side of H, the direct inguinal +hernia. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/088P38_25.jpg"> +<img src="images/088P38_25.jpg" width="437" height="600" alt="Illustration:" /></a> +<p class="caption">Plate 38</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap21"></a>COMMENTARY ON PLATES 39 & 40.</h2> + +<p> +DEMONSTRATIONS OF THE NATURE OF CONGENITAL AND INFANTILE INGUINAL HERNIAE, AND +OF HYDROCELE. +</p> + +<p> +PLATE 39. Fig. 1—<i>The descent of the testicle from the loins to the +scrotum</i>.—The foetal abdomen and scrotum form one general cavity, and are +composed of parts which are structurally identical. The cutaneous, fascial, +muscular, and membranous layers of the abdominal parietes are continued into +those of the scrotum. At the fifth month of foetal life, the testicle, 3, is +situated in the loins beneath the kidney, 2. The testicle is then numbered +amongst the abdominal viscera, and, like these, it is developed external to the +peritonaeal membrane, which forms an envelope for it. At the back and sides of +the testicle, where the peritonaeum is reflected from it, a small membranous +fold or mesentery (mesorchium, <i>Seiler)</i> is formed, and between the layers +of this the nerves and vessels enter the organ, the nerves being derived from +the neighbouring sympathetic ganglia (aortic plexus), while the arteries and +veins spring directly from the main abdominal bloodvessels. It being +predetermined that the testicle, 3, should migrate from the loins to the +scrotum, 6 <i>a,</i> 7, at a period included between the sixth and ninth month, +certain structural changes are at this time already effected for its sure and +easy passage. By the time that the testis, 5, is about to enter the internal +inguinal ring, 6 <i>a</i>, (seventh or eighth month,) a process or pouch of the +peritonaeal membrane (processus vaginalis) has already descended through this +aperture into the scrotum, and the testicle follows it. +</p> + +<p> +The descent of the testis is effected by a very slow and gradual process of +change. (Tout va par degres dans la nature, et rien par sauts.—<i>Bonnet.</i>) +But how, or by what distinct and active structural agent, this descent is +effected, or whether there does exist, in fact, any such agent as that which +anatomists name “gubernaculum testis,” are questions which appear to me by no +means settled.[Footnote] +</p> + +<p> +[Footnote: Dr. Carpenter (Principles of Human Physiology) remarks, that +“the cause of this descent is not very clear. It can scarcely be due merely, as +some have supposed, to the contraction of the gubernaculum, since that does not +contain any fibrous structure until after the lowering of the testis has +commenced.” Dr. Sharpey (Quain’s Anatomy, 5th edition) observes, that “the +office of the gubernaculum is yet imperfectly understood.” The opinions of +these two distinguished physiologists will doubtless be regarded as an +impartial estimate of the results of the researches prosecuted in reference to +these questions by Haller, Camper, Hunter, Arnaud, Lobstein, Meckel, Paletta, +Wrisberg, Vicq d’Azyr, Brugnone, Tumiati, Seiler, Girardi, Cooper, Bell, Weber, +Carus, Cloquet, Curling, and others. From my own observations, I am led to +believe that no such muscular structure as a gubernaculum exists, and therefore +that the descent of the testis is the effect of another cause. Leaving these +matters, however, to the consideration of the physiologist, it is sufficient +for the surgeon to know that the testis in its transition derives certain +coverings from the parietes of the groin, and that a communication is thereby +established between the scrotal and abdominal cavities.] +</p> + +<p> +The general lining membrane of the foetal abdomen is composed of two layers—an +outer one of fibrous, and an inner one of serous structure. Of these two +layers, the abdominal viscera form for themselves a double envelope. +[Footnote] The testis in the loins has a covering from both membranes, +and is still found to be enclosed by both, even when it has descended to the +scrotum. The two coverings of fibro-serous structure which surrounded the +testis in the loins become respectively the tunica albuginea and tunica +vaginalis when the gland occupies the scrotal cavity. +</p> + +<p> +[Footnote: Langenbeck describes the peritonaeum as consisting of two layers; +one external and fibrous, another internal and serous. By the first, he means, +I presume, that membrane of which the transversalis and iliac fasciae are +parts. (See Comment. de Periton. Structura, &c.) ] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/092P39F1_25.jpg"> +<img src="images/092P39F1_25.jpg" width="295" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 39—Figure 1</p> +</div> + +<p> +PLATE 39, Fig. 2.—<i>The testicle in the scrotum</i>.—When the testicle, 5, +descends into the scrotum, 7, which happens in general at the time of birth, +the abdomino-scrotal fibro-serous membrane, 6 <i>a</i>, 6 <i>d</i>, is still +continuous at the internal ring, 6 <i>b</i>. From this point downwards, to a +level with the upper border of the testicle, the canal of communication between +the scrotal cavity and the abdomen becomes elongated and somewhat constricted. +At this part, the canal itself consists, like the abdominal membrane above and +the scrotal membrane below, of a fibrous and serous layer, the latter enclosed +within the former. The serous lining of this canal is destined to be +obliterated, while the outer fibrous membrane is designed to remain in its +primitive condition. When the serous canal contracts and degenerates to the +form of a simple cord, it leaves the fibrous canal still continuous above with +the fibrous membrane (transversalis fascia) of the abdomen, and below with the +fibrous envelope (tunica albuginea) of the testis; and at the adult period, +this fibrous canal is known as the internal spermatic sheath, or +infundibuliform fascia enclosing the remains of the serous canal, together with +the spermatic vessels, &c. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/092P39F2_25.jpg"> +<img src="images/092P39F2_25.jpg" width="332" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 39—Figure 2</p> +</div> + +<p> +PLATE 39, Fig. 3.—<i>The serous tunica vaginalis is separated from the +peritonaeum.</i>—When the testicle, 7, has descended to the scrotum, the serous +tube or lining of the inguinal canal and cord, 6 <i>b</i>, 6 <i>c</i>, closes +and degenerates into a simple cord, (infantile spermatic cord,) and thereby the +peritonaeal sac, 6 <i>a</i>, becomes distinct from the serous tunica vaginalis, +6 <i>d</i>. But the fibrous tube, or outer envelope of the inguinal canal, +remains still pervious, and continues in this condition throughout life. In the +adult, we recognise this fibrous tube as the infundibuliform fascia of the +cord, or as forming the fascia propria of an external inguinal hernia. The +anterior part of the fibrous spermatic tube descends from the fascia +transversalis; the posterior part is continuous with the fascia iliaca. In +relation to the testicle, the posterior part will be seen to be reflected over +the body of the gland as the tunica albuginea, while the anterior part blends +with the cellular tissue of the front wall of the scrotum. The tunica +vaginalis, 6 <i>d</i>, is now traceable as a distinct sac,[Footnote] closed on +all sides, and reflected from the fore part of the testicle, above and below, +to the posterior aspect of the front wall of the scrotum. +</p> + +<p> +[Footnote: Mr. Owen states that the Chimpanzee alone, amongst brute animals, +has the tunica vaginalis as a distinct sac.] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/092P39F3_25.jpg"> +<img src="images/092P39F3_25.jpg" width="343" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 39—Figure 3</p> +</div> + +<p> +PLATE 40, Fig. 1.—<i>The abdomino-scrotal serous lining remains continuous at +the internal ring, and a congenital hydrocele is formed.</i>—When the serous +spermatic tube, 6 <i>b</i>, 6 <i>c</i>, remains pervious and continuous above +with the peritonaeum, 6 <i>a</i>, and below with the serous tunica vaginalis, 6 +<i>d</i>, the serous fluid of the abdomen will naturally gravitate to the most +depending part—viz., the tunica vaginalis; and thus a hydrocele is formed. This +kind of hydrocele is named congenital, owing to the circumstance that the +natural process of obliteration, by which the peritonaeum becomes separated +from the tunica vaginalis, has been, from some cause, arrested. [Footnote +1] As long as the canal of communication, 6 <i>b</i>, 6 <i>c</i>, between +the tunica vaginalis, 6 <i>d</i>, and the peritonaeum 6 <i>a</i>, remains +pervious, which it may be throughout life, this form of hydrocele is, of +course, liable to occur. It may be diagnosed from diseased enlargements of the +testicle, by its transparency, its fluctuation, and its smooth, uniform fulness +and shape, besides its being of less weight than a diseased testis of the same +size would be. It may be distinguished from the common form of hydrocele of the +isolated tunica vaginalis by the fact, that pressure made on the scrotum will +cause the fluid to pass freely into the general cavity of the peritonaeum. As +the fluid distends the tunica vaginalis, 6 <i>c</i>, 6 <i>d</i>, in front of +the testis, this organ will of course lie towards the back of the scrotum, and +therefore, if it be found necessary to evacuate the fluid, the puncture may be +made with most safety in front of the scrotum. If ascites should form in an +adult in whom the tunica vaginalis still communicates with the peritonaeal sac, +the fluid which accumulates in the latter membrane will also distend the +former, and all the collected fluid may be evacuated by tapping the scrotum. +When a hydrocele is found to be congenital, it must be at once obvious that to +inject irritating fluids into the tunica vaginalis (the radical cure) is +inadmissible. In an adult, free from all structural disease, and in whom a +congenital hydrocele is occasioned by the gravitation of the ordinary serous +secretion of the peritonaeum, a cure may be effected by causing the +obliteration of the serous spermatic canal by the pressure of a truss. When a +congenital hydrocele happens in an infant in whom the testicle, 5, Fig. 1, +Plate 39, is arrested in the inguinal canal, [Footnote 2] if pressure be made +on this passage with a view of causing its closure, the testicle will be +prevented from descending. +</p> + +<p> +[Footnote 1: The serous spermatic tube remains open in all quadrupeds; but +their natural prone position renders them secure against hydrocele or hernial +protrusion. It is interesting to notice how in man, and the most +anthropo-morphous animals, where the erect position would subject these to the +frequent accident of hydrocele or hernia, nature causes the serous spermatic +tube to close.] +</p> + +<p> +[Footnote 2: In many quadrupeds (the Rodentia and Monotremes) the testes remain +within the abdomen. In the Elephant, the testes always occupy their original +position beneath the kidneys, in the loins. Human adults are occasionally found +to be “testi-conde;” the testes being situated below the kidneys, or at some +part between this position and the internal inguinal ring. Sometimes only one +of the testes descends to the scrotum.] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/092P40F1_25.jpg"> +<img src="images/092P40F1_25.jpg" width="320" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 40—Figure 1.</p> +</div> + +<p> +PLATE 40, Fig. 2.—<i>The serous spermatic canal closes imperfectly, so as to +become sacculated, and thus a hydrocele of the cord is formed.</i>—After the +testicle, 7, has descended to the scrotum, the sides of the serous tube, or +lining of the inguinal canal and cord, 6 <i>b</i>, 6 <i>c,</i> may become +adherent at intervals; and the intervening sacs of serous membrane continuing +to secrete their proper fluid, will occasion a hydrocele of the cord. This form +of hydrocele will differ according to the varieties in the manner of closure; +and these may take place in the following modes:—1st, if the serous tube close +only at the internal ring, 6 <i>a</i>, while the lower part of it, 6 <i>b</i>, +6 <i>c,</i> remains pervious, and communicating with the tunica vaginalis, 6 +<i>d</i>, a hydrocele will be formed of a corresponding shape; 2nd, if the tube +close at the upper part of the testicle, 6 <i>c</i>, thus isolating the tunica +vaginalis, 6 <i>d</i>, while the upper part, 6 <i>b</i>, remains pervious, and +the internal ring, 6 <i>a,</i> open, and communicating with the peritonaeal +sac, a hydrocele of the cord will happen distinct from the tunica vaginalis; or +this latter may be, at the same time, distended with fluid, if the disposition +of the subject be favourable to the formation of dropsy; 3rd, the serous tube +may close at the internal ring, form sacculi along the cord, and close again at +the top of the testicle, thus separating the tunica vaginalis from the abdomen, +and thereby several isolated hydroceles may be formed. If in this condition of +the parts we puncture one of the sacs for the evacuation of its contents, the +others, owing to their separation, will remain distended. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/092P40F2_25.jpg"> +<img src="images/092P40F2_25.jpg" width="346" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 40—Figure 2.</p> +</div> + +<p> +PLATE 40, Fig. 3.—<i>Hydrocele of the isolated tunica vaginalis</i>.—When the +serous spermatic tube, 6 <i>b</i>, 6 <i>c</i>, becomes obliterated, according +to the normal rule, after the descent of the testicle, 7, the tunica vaginalis, +6 <i>d</i>, is then a distinct serous sac. If a hydrocele form in this sac, it +may be distinguished from the congenital variety by its remaining undiminished +in bulk when the subject assumes the horizontal position, or when pressure is +made on the tumour, for its contents cannot now be forced into the abdomen. The +testicle, 7, holds the same position in this as it does in the congenital +hydrocele. [Footnote] The radical cure may be performed here without +endangering the peritonaeal sac. Congenital hydrocele is of a cylindrical +shape; and this is mentioned as distinguishing it from isolated hydrocele of +the tunica vaginalis, which is pyriform; but this mark will fail when the cord +is at the same time distended, as it may be, in the latter form of the +complaint. +</p> + +<p> +[Footnote: When a hydrocele is interposed between the eye and a strong light, +the testis appears as an opaque body at the back of the tunica vaginalis. But +this position of the organ is, from several causes, liable to vary. The testis +may have become morbidly adherent to the front wall of the serous sac, in which +case the hydrocele will distend the sac laterally. Or the testis may be so +transposed in the scrotum, that, whilst the gland occupies its front part, the +distended tunica vaginalis is turned behind. The tunica vaginalis, like the +serous spermatic tube, may, in consequence of inflammatory fibrinous effusion, +become sacculated-multilocular, in which case, if a hydrocele form, the +position of the testis will vary accordingly.—See Sir Astley Cooper’s work, +(“Anatomy and Diseases of the Testis;”) Morton’s “Surgical Anatomy;” Mr. +Curling’s “Treatise on Diseases of the Testis;” and also his article +“Testicle,” in the Cyclopaedia of Anatomy and Physiology.] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/092P40F3_25.jpg"> +<img src="images/092P40F3_25.jpg" width="351" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 40—Figure 3.</p> +</div> + +<p> +PLATE 40, Fig. 4.—<i>The serous spermatic tube remaining pervious, a congenital +hernia is formed.</i>—When the testicle, 7, has descended to the scrotum, if +the communication between the peritonaeum, 6 <i>a</i>, and the tunica +vaginalis, 6 <i>c</i>, be not obliterated, a fold of the intestine, 13, will +follow the testicle, and occupy the cavity of the tunica vaginalis, 6 <i>d</i>. +In this form of hernia (hernia tunicae vaginalis, <i>Cooper</i>), the intestine +is in front of, and in immediate contact with, the testicle. The intestine may +descend lower than the testicle, and envelope this organ so completely as to +render its position very obscure to the touch. This form of hernia is named +congenital, since it occurs in the same condition of the parts as is found in +congenital hydrocele—viz., the inguinal ring remaining unclosed. It may occur +at any period of life, so long as the original congenital defect remains. It +may be distinguished from hydrocele by its want of transparency and +fluctuation. The impulse which is communicated to the hand applied to the +scrotum of a person affected with scrotal hernia, when he is made to cough, is +also felt in the case of congenital hydrocele. But in hydrocele of the separate +tunica vaginalis, such impulse is not perceived. Congenital hernia and +hydrocele may co-exist; and, in this case, the diagnostic signs which are +proper to each, when occurring separately, will be so mingled as to render the +precise nature of the case obscure. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/092P40F4_25.jpg"> +<img src="images/092P40F4_25.jpg" width="316" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 40—Figure 4.</p> +</div> + +<p> +PLATE 40, Fig. 5.—<i>Infantile hernia.</i>—When the serous spermatic tube +becomes merely closed, or obliterated at the inguinal ring, 6 <i>b</i>, the +lower part of it, 6 <i>c,</i> is pervious, and communicating with the tunica +vaginalis, 6 <i>d</i>. In consequence of the closure of the tube at the +inguinal ring, if a hernia now occur, it cannot enter the tunica vaginalis, and +come into actual contact with the testicle. The hernia, 13, therefore, when +about to force the peritonaeum, 6<i> a</i>, near the closed ring, 6 <i>b</i>, +takes a distinct sac or investment from this membrane. This hernial sac, 6 +<i>e</i>, will vary as to its position in regard to the tunica vaginalis, 6 +<i>d</i>, according to the place whereat it dilates the peritonaeum at the +ring. The peculiarity of this hernia, as distinguished from the congenital +form, is owing to the scrotum containing two sacs,—the tunica vaginalis and the +proper sac of the hernia; whereas, in the congenital variety, the tunica +vaginalis itself becomes the hernial sac by a direct reception of the naked +intestine. If in infantile hernia a hydrocele should form in the tunica +vaginalis, the fluid will also distend the pervious serous spermatic tube, 6 +<i>c</i>, as far up as the closed internal ring, 6 <i>b</i>, and will thus +invest and obscure the descending herniary sac, 13. This form of hernia is +named infantile (<i>Hey</i>), owing to the congenital defect in that process, +whereby the serous tube lining the cord is normally obliterated. Such a form of +hernia may occur at the adult age for the first time, but it is still the +consequence of original default. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/092P40F5_25.jpg"> +<img src="images/092P40F5_25.jpg" width="298" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 40—Figure 5.</p> +</div> + +<p> +PLATE 40, Fig. 6.—<i>Oblique inguinal hernia in the adult.</i>—This variety of +hernia occurs not in consequence of any congenital defect, except inasmuch as +the natural weakness of the inguinal wall opposite the internal ring may be +attributed to this cause. The serous spermatic tube has been normally +obliterated for its whole length between the internal ring and the tunica +vaginalis; but the fibrous tube, or spermatic fascia, is open at the internal +ring where it joins the transversalis fascia, and remains pervious as far down +as the testicle. The intestine, 13, forces and distends the upper end of the +closed serous tube; and as this is now wholly obliterated, the herniary sac, 6 +<i>c</i>, derived anew from the inguinal peritonaeum, enters the fibrous tube, +or sheath of the cord, and descends it as far as the tunica vaginalis, 6 +<i>d</i>, but does not enter this sac, as it is already closed. When we compare +this hernia, Fig. 6, Plate 40, with the infantile variety, Fig. 5, Plate 40, we +find that they agree in so far as the intestinal sac is distinct from the +tunica vaginalis; whereas the difference between them is caused by the fact of +the serous cord remaining in part pervious in the infantile hernia; and on +comparing Fig. 6, Plate 40, with the congenital variety, Fig. 4, Plate 40, we +see that the intestine has acquired a new sac in the former, whereas, in the +latter, the intestine has entered the tunica vaginalis. The variable position +of the testicle in Figs. 4, 5, & 6, Plate 40, is owing to the variety in +the anatomical circumstances under which these herniae have happened. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/092P40F6_25.jpg"> +<img src="images/092P40F6_25.jpg" width="312" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 40—Figure 6.</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap22"></a>COMMENTARY ON PLATES 41 & 42.</h2> + +<p> +DEMONSTRATIONS OF THE ORIGIN AND PROGRESS OF INGUINAL HERNIAE IN GENERAL. +</p> + +<p> +PLATE 41, Fig. 1.—When the serous spermatic tube is obliterated for its whole +length between the internal ring, 1, and the top of the testicle, 13, a hernia, +in order to enter the inguinal canal, 1, 4, must either rupture the peritonaeum +at the point 1, or dilate this membrane before it in the form of a sac. +[Footnote] If the peritonaeum at the point 1 be ruptured by the intestine, this +latter will enter the fibrous spermatic tube, 2, 3, and will pass along this +tube devoid of the serous sac. If, on the other hand, the intestine dilates the +serous membrane at the point, 1, where it stretches across the internal ring, +it will, on entering the fibrous tube, (infundibuliform fascia,) be found +invested by a sac of the peritonaeum, which it dilates and pouches before +itself. As the epigastric artery, 9, bends in general along the internal border +of the ring of the fibrous tube, 2, 2, the neck of the hernial sac which enters +the ring at a point external to the artery must be external to it, and remain +so despite all further changes in the form, position, and dimensions of the +hernia. And as this hernia enters the ring at a point anterior to the spermatic +vessels, its neck must be anterior to them. Again, if the bowel be invested by +a serous sac, formed of the peritonaeum at the point 1, the neck of such sac +must intervene between the protruding bowel and the epigastric and spermatic +vessels. But if the intestine enter the ring of the fibrous tube, 2, 2, by +having ruptured the peritonaeum at the point 1, then the naked intestine will +lie in immediate contact with these vessels. +</p> + +<p> +[Footnote: Mr. Lawrence (op. cit.) remarks, “When we consider the texture of +the peritonaeum, and the mode of its connexion to the abdominal parietes, we +cannot fancy the possibility of tearing the membrane by any attitude or +motion.” Cloquet and Scarpa have also expressed themselves to the effect, that +the peritonaeum suffers a gradual distention before the protruding bowel.] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/094P41F1_25.jpg"> +<img src="images/094P41F1_25.jpg" width="353" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 41—Figure 1</p> +</div> + +<p> +PLATE 41, Fig. 2—When the serous spermatic tube, 11, remains pervious between +the internal ring, 1, (where it communicates with the general peritonaeal +membrane,) and the top of the testicle, (where it opens into the tunica +vaginalis,) the bowel enters this tube directly, without a rupture of the +peritonaeum at the point 1. This tube, therefore, becomes one of the +investments of the bowel. It is the serous sac, not formed by the protruding +bowel, but one already open to receive the bowel. This is the condition +necessary to the formation of congenital hernia. This hernia must be one of the +external oblique variety, because it enters the open abdominal end of the +infantile serous spermatic tube, which is always external to the epigastric +artery. Its position in regard to the spermatic vessels is the same as that +noticed in Fig, 1, Plate 41. But, as the serous tube through which the +congenital hernia descends, still communicates with the tunica vaginalis, so +will this form of hernia enter this tunic, and thereby become different to all +other herniae, forasmuch as it will lie in immediate contact with the testicle. +[Footnote] +</p> + +<p> +[Footnote: A hernia may be truly congenital, and yet the intestine may not +enter the tunica vaginalis. Thus, if the serous spermatic tube close only at +the top of the testicle, the bowel which traverses the open internal inguinal +ring and pervious tube will not enter the tunica vaginalis.] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/094P41F2_25.jpg"> +<img src="images/094P41F2_25.jpg" width="372" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 41—Figure 2</p> +</div> + +<p> +PLATE 41, Fig. 3.—The infantile serous spermatic tube, 11, sometimes remains +pervious in the neighbourhood of the internal ring, 1, and a narrow tapering +process of the tube (the canal of Nuck) descends within the fibrous tube, 2, 3, +and lies in front of the spermatic vessels and epigastric artery. Before this +tube reaches the testicle, it degenerates into a mere filament, and thus the +tunica vaginalis has become separated from it as a distinct sac. When the bowel +enters the open abdominal end of the serous tube, this latter becomes the +hernial sac. It is not possible to distinguish by any special character a +hernia of this nature, when already formed, from one which occurs in the +condition of parts proper to Fig. 1, Plate 41, or that which is described in +the note to Fig. 2, Plate 41; for when the intestine dilates the tube, 11, into +the form of a sac, this latter assumes the exact shape of the sac, as noticed +in Fig. 1, Plate 41. The hernia in question cannot enter the tunica vaginalis. +Its position in regard to the epigastric and spermatic vessels is the same as +that mentioned above. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/094P41F3_25.jpg"> +<img src="images/094P41F3_25.jpg" width="333" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 41—Figure 3</p> +</div> + +<p> +PLATE 41, Fig. 4.—If the serous spermatic tube, 11, be obliterated or closed at +the internal ring, 1, thus cutting off communication with the general +peritonaeal membrane; and if, at the same time, it remain pervious from this +point above to the tunica vaginalis below, then the herniary bowel, when about +to protrude at the point 1, must force and dilate the peritonaeum, in order to +form its sac anew, as stated of Fig. 1, Plate 41. Such a hernia does not enter +either the serous tube or the tunica vaginalis; but progresses from the point +1, in a distinct sac. In this case, there will be found two sacs—one enclosing +the bowel; and another, consisting of the serous spermatic tube, still +continuous with the tunica vaginalis. This original state of the parts may, +however, suffer modification in two modes: 1st, if the bowel rupture the +peritonaeum at the point 1, it will enter the serous tube 11, and descend +through this into the cavity of the tunica vaginalis, as in the congenital +variety. 2nd, if the bowel rupture the peritonaeum near the point 1, and does +not enter the serous tube 11, nor the tunica vaginalis, then the bowel will be +found devoid of a proper serous sac, while the serous tube and tunica vaginalis +still exist in communication. In either case, the hernia will hold the same +relative position in regard to the epigastric artery and spermatic vessels, as +stated of Fig. 1, Plate 41. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/094P41F4_25.jpg"> +<img src="images/094P41F4_25.jpg" width="360" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 41—Figure 4</p> +</div> + +<p> +PLATE 41, Fig. 5.—Sudden rupture of the peritonaeum at the closed internal +serous ring, 1, though certainly not impossible, may yet be stated as the +exception to the rule in the formation of an external inguinal hernia. The +aphorism, “natura non facit saltus,” is here applicable. When the peritonaeum +suffers dilatation at the internal ring, 1, it advances <i>gradatim</i> and +<i>pari passu</i> with the progress of the protruding bowel, and assumes the +form, character, position, and dimensions of the inverted curved phases, marked +11, 11, till, from having at first been a very shallow pouch, lying external to +the epigastric artery, 9, it advances through the inguinal canal to the +external ring, 4, and ultimately traverses this aperture, taking the course of +the fibrous tube, 3, down to the testicle in the scrotum. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/094P41F5_25.jpg"> +<img src="images/094P41F5_25.jpg" width="381" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 41—Figure 5</p> +</div> + +<p> +PLATE 41, Fig. 6.—When the bowel dilates the peritonaeum opposite the internal +ring, and carries a production of this membrane before it as its sac, then the +hernia will occupy the inguinal canal, and become invested by all those +structures which form the canal. These structures are severally infundibuliform +processes, so fashioned by the original descent of the testicle; and, +therefore, as the bowel follows the track of the testicle, it becomes, of +course, invested by the selfsame parts in the selfsame manner. Thus, as the +infundibuliform fascia, 2, 3, contains the hernia and spermatic vessels, so +does the cremaster muscle, extending from the lower margins of the internal +oblique and transversalis, invest them also in an infundibuliform manner. +[Footnote] +</p> + +<p> +[Footnote: Much difference of opinion prevails as to the true relation which +the cord (and consequently the oblique hernia) bears to the lower margins of +the oblique and transverse muscles, and their cremasteric prolongation. Mr. +Guthrie (Inguinal and Femoral Hernia) has shown that the fibres of the +transversalis, as well as those of the internal oblique, are penetrated by the +cord. Albinus, Haller, Cloquet, Camper, and Scarpa, record opinions from which +it may be gathered that this disposition of the parts is (with some exceptions) +general. Sir Astley Cooper describes the lower edge of the transversalis as +curved all round the internal ring and cord. From my own observations, coupled +with these, I am inclined to the belief that, instead of viewing these facts as +isolated and meaningless particulars, we should now fuse them into the one idea +expressed by the philosophic Carus, and adopted by Cloquet, that the cremaster +is a production of the abdominal muscles, formed mechanically by the testicle, +which in its descent dilates, penetrates, and elongates their fibres.] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/094P41F6_25.jpg"> +<img src="images/094P41F6_25.jpg" width="365" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 41—Figure 6</p> +</div> + +<p> +PLATE 41. Fig. 7.—When an external inguinal hernia, 11, dilates and protrudes +the peritonaeum from the closed internal ring, 1, and descends the inguinal +canal and fibrous tube, 3, 3, it imitates, in most respects, the original +descent of the testicle. The difference between both descents attaches alone to +the mode in which they become covered by the serous membrane; for the testicle +passes through the internal ring <i>behind</i> the inguinal peritonaeum, at the +same time that it takes a duplicature of this membrane; whereas the bowel +encounters this part of the peritonaeum <i>from within</i>, and in this mode +becomes invested by it on all sides. This figure also represents the form and +relative position of a hernia, as occurring in Figs. 1 and 3, 5, and 6, Plate +41. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/094P41F7_25.jpg"> +<img src="images/094P41F7_25.jpg" width="347" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 41—Figure 7</p> +</div> + +<p> +PLATE 41, Fig. 8.—When the serous spermatic tube only closes at the internal +ring, as seen at 1, Fig. 4, Plate 41, if a hernia afterwards pouch the +peritonaeum at this part, and enter the inguinal canal, we shall then have the +form of hernia, Fig. 8, Plate 41, termed infantile. Two serous sacs will be +here found, one within the cord, 13, and communicating with the tunica +vaginalis, the other, 11, containing the bowel, and being received by inversion +into the upper extremity of the first. Thus the infantile serous canal, 13, +receives the hernial sac, 11. The inguinal canal and cord may become +multicapsular, as in Fig. 8, from various causes, each capsule being a distinct +serous membrane. First, independent of hernial formation, the original serous +tube may become interruptedly obliterated, as in Plate 40, Fig. 2. Secondly, +these sacs may persist to adult age, and have a hernial sac added to their +number, whatever this may be. Thirdly, the original serous tube, 13, Fig. 8, +may persist, and after having received the hernial sac, 11, the bowel may have +been reduced, leaving its sac behind it in the inguinal canal; the neck of this +sac may have been obliterated by the pressure of a truss, a second hernia may +protrude at the point 1, and this may be received into the first hernial sac in +the same manner as the first was received into the original serous infantile +tube. The possibility of these occurrences is self-evident, even if they were +never as yet experienced. [Footnote] +</p> + +<p> +[Footnote: According to Mr. Lawrence and M. Cloquet, most of the serous cysts +found around hernial tumours are ancient sacs obliterated at the neck, and +adhering to the new swelling (opera cit.)] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/094P41F8_25.jpg"> +<img src="images/094P41F8_25.jpg" width="335" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 41—Figure 8</p> +</div> + +<p> +PLATE 42, Fig. 1.—The epigastric artery, 9, being covered by the fascia +transversalis, can lend no support to the internal ring, 2, 2, nor to the tube +prolonged from it. The herniary bowel may, therefore, dilate the peritonaeum +immediately on the inner side of the artery, and enter the inguinal canal. In +this way the hernia, 11, although situated internal to the epigastric artery, +assumes an oblique course through the canal, and thus closely simulates the +external variety of inguinal hernia, Fig. 7, Plate 41. If the hernia enter the +canal, as represented in Fig. 1, Plate 42, it becomes invested by the same +structures, and assumes the same position in respect to the spermatic vessels, +as the external hernia. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/094P42F1_25.jpg"> +<img src="images/094P42F1_25.jpg" width="288" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 42—Figure 1</p> +</div> + +<p> +PLATE 42, Fig. 2.—The hernial sac, 11, which entered the ring of the fibrous +tube, 2, 2, at a point immediately internal to the epigastric artery, 9, may, +from having been at first oblique, as in Fig. 1, Plate 42, assume a direct +position. In this case, the ring of the fibrous tube, 2, 2, will be much +widened; but the artery and spermatic vessels will remain in their normal +position, being in no wise affected by the gravitating hernia. If the conjoined +tendon, 6, be so weak as not to resist the gravitating force of the hernia, the +tendon will become bent upon itself. If the umbilical cord, 10, be side by side +with the epigastric artery at the time that the hernia enters the mouth of the +fibrous tube, then, of course, the cord will be found external. If the cord lie +towards the pubes, apart from the vessel, the hernia may enter the fibrous tube +between the cord, 10, and artery, 9. [Footnote:] It is impossible for any +internal hernia to assume the congenital form, because the neck of the original +serous spermatic tube, 11, Fig. 2, Plate 41, being external to the epigastric +artery, 9, cannot be entered by the hernia, which originates internally to this +vessel. +</p> + +<p> +[Footnote: M. Cloquet states that the umbilical cord is always found on the +inner side of the external hernia. Its position varies in respect to the +internal hernia, (op. cit. prop. 52.)] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/094P42F2_25.jpg"> +<img src="images/094P42F2_25.jpg" width="283" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 42—Figure 2</p> +</div> + +<p> +PLATE 42, Fig. 3.—Every internal hernia, which does not rupture the +peritonaeum, carries forward a sac produced anew from this membrane, whether +the hernia enter the inguinal canal or not. But this is not the case with +respect to the fibrous membrane which forms the fascia propria. If the hernia +enter the inguinal wall immediately on the inner side of the epigastric artery, +Fig. 1, Plate 42, it passes direct into the ring of the fibrous tube, 2, 2, +already prepared to receive it. But when the hernia, 11, Fig. 3, Plate 42, +cleaves the conjoined tendon, 6, 6, then the artery, 9, and the tube, 2, 2, +remain in their usual position, while the bowel carries forward a new +investment from the transversalis fascia, 5, 5. That part of the conjoined +tendon which stands external to the hernia keeps the tube, 2, 2, in its proper +place, and separates it from the fold of the fascia which invests the hernial +sac. This is the only form in which an internal hernia can be said to be +absolutely distinct from the inguinal canal and spermatic vessels. This hernia, +when passing the external ring, 4, has the spermatic cord on its outer side. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/094P42F3_25.jpg"> +<img src="images/094P42F3_25.jpg" width="296" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 42—Figure 3</p> +</div> + +<p> +PLATE 42, Fig. 4.—The external hernia, from having been originally oblique, may +assume the position of a hernia originally internal and direct. The change of +place exhibited by this form of hernia does not imply a change either in its +original investments or in its position with respect to the epigastric artery +and spermatic vessels. The change is merely caused by the weight and +gravitation of the hernial mass, which bends the epigastric artery, 9*, from +its first position on the inner margin of the internal ring, 1, till it assumes +the place 9. In consequence of this, the internal ring of the fascia +transversalis, 2, 2, is considerably widened, as it is also in Fig. 2, Plate +42. It is the inner margin of the fibrous ring which has suffered the pressure; +and thus the hernia now projects directly from behind forwards, through, 4, the +external ring. The conjoined tendon, 6, when weak, becomes bent upon itself. +The change of place performed by the gravitating hernia may disturb the order +and relative position of the spermatic vessels; but these, as well as the +hernia, still occupy the inguinal canal, and are invested by the spermatic +fascia, 3, 3. When an internal hernia, Fig. 1, Plate 42, enters the inguinal +canal, it also may descend the cord as far as the testicle, and assume in +respect to this gland the same position as the external hernia. [Footnote] +</p> + +<p> +[Footnote: As the external hernia, Fig. 4, Plate 42, may displace the +epigastric artery inwards, so may the internal hernia, Fig. 1, Plate 42, +displace the artery outwards. Mr. Lawrence, Sir Astley Cooper, Scarpa, +Hesselbach, and Langenbeck, state, however, that the internal hernia does not +disturb the artery from its usual position three-fourths of an inch from the +external ring.] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/094P42F4_25.jpg"> +<img src="images/094P42F4_25.jpg" width="287" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 42—Figure 4</p> +</div> + +<p> +PLATE 42, Figs. 5, 6, 7.—The form and position of the inguinal canal varies +according to the sex and age of the individual. In early life, Fig. 6, the +internal ring is situated nearly opposite to the external ring, 4. As the +pelvis widens gradually in the advance to adult age, Fig. 5, the canal becomes +oblique as to position. This obliquity is caused by a change of place, +performed rather by the internal than the external ring. [Footnote] The greater +width of the female pelvis than of the male, renders the canal more oblique in +the former; and this, combined with the circumstance that the female inguinal +canal, Fig. 7, merely transmits the round ligament, 14, accounts anatomically +for the fact, that this sex is less liable to the occurrence of rupture in this +situation. +</p> + +<p> +[Footnote: M. Velpeau (Nouveaux Elemens de med. Operat.) states the length of +the inguinal canal in a well-formed adult, measured from the internal to the +external ring, to be 1-1/2 or 2 inches, and 3 inches including the rings; but +that in some individuals the rings are placed nearly opposite; whilst in young +subjects the two rings nearly always correspond. When, in company with these +facts, we recollect how much the parts are liable to be disturbed in ruptures, +it must be evident that their relative position cannot be exactly ascertained +by measurement, from any given point whatever. The judgment alone must fix the +general average.] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/094P42F5_25.jpg"> +<img src="images/094P42F5_25.jpg" width="431" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 42—Figure 5</p> +</div> + +<div class="fig" style="width:100%;"> +<a href="images/094P42F6_25.jpg"> +<img src="images/094P42F6_25.jpg" width="309" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 42—Figure 6</p> +</div> + +<div class="fig" style="width:100%;"> +<a href="images/094P42F7_25.jpg"> +<img src="images/094P42F7_25.jpg" width="396" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 42—Figure 7</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap23"></a>COMMENTARY ON PLATES 43 & 44.</h2> + +<p> +THE DISSECTION OF FEMORAL HERNIA, AND THE SEAT OF STRICTURE. +</p> + +<p> +Whilst all forms of inguinal herniae escape from the abdomen at places situated +immediately above Poupart’s ligament, the femoral hernia, G, Fig. 1, Plate 43, +is found to pass from the abdomen immediately below this structure, A I, and +between it and the horizontal branch of the pubic bone. The inguinal canal and +external abdominal ring are parts concerned in the passage of inguinal herniae, +whether oblique or direct, external or internal; whilst the femoral canal and +saphenous opening are the parts through which the femoral hernia passes. Both +these orders of parts, and of the herniae connected with them respectively, +are, however, in reality situated so closely to each other in the +inguino-femoral region, that, in order to understand either, we should, examine +both at the same time comparatively. +</p> + +<p> +The structure which is named Poupart’s ligament in connexion with inguinal +herniae, is named the femoral or crural arch (Gimbernat) in relation to femoral +hernia. The simple line, therefore, described by this ligament explains the +narrow interval which separates both varieties of the complaint. So small is +the line of separation described between these herniae by the ligament, that +this (so to express the idea) stands in the character of an arch, which, at the +same time, supports an aqueduct (the inguinal canal) and spans a road (the +femoral sheath.) The femoral arch, A I, Fig. 1, Plate 43, extends between the +anterior superior iliac spinous process and the pubic spine. It connects the +aponeurosis of the external oblique muscle, D <i>d</i>, Fig. 2, Plate 44, with +F, the fascia lata. Immediately above and below its pubic extremity appear the +external ring and the saphenous opening. On cutting through the falciform +process, F, Fig. 1, Plate 44, we find Gimbernat’s ligament, R, a structure well +known in connexion with femoral hernia. Gimbernat’s ligament consists of +tendinous fibres which connect the inner end of the femoral arch with the +pectineal ridge of the os pubis. The shape of the ligament is acutely +triangular, corresponding to the form of the space which it occupies. Its apex +is internal, and close to the pubic spine; its base is external, sharp and +concave, and in apposition with the sheath of the femoral vessels. It measures +an inch, more or less, in width, and it is broader in the male than in the +female—a fact which is said to account for the greater frequency of femoral +hernia in the latter sex than in the former, (Monro.) Its strength and density +also vary in different individuals. It is covered anteriorly by, P, Fig. 1, +Plate 44, the upper cornu of the falciform process; and behind, it is in +connexion with, <i>k</i>, the conjoined tendon. This tendon is inserted with +the ligament into the pectineal ridge. The falciform process also blends with +the ligament; and thus it is that the femoral hernia, when constricted by +either of these three structures, may well be supposed to suffer pressure from +the three together. +</p> + +<p> +A second or deep femoral arch is occasionally met with. This structure consists +of tendinous fibres, lying deeper than, but parallel with, those of the +superficial arch. The deep arch spans the femoral sheath more closely than the +superficial arch, and occupies the interval left between the latter and the +sheath of the vessels. When the deep arch exists, its inner end blends with the +conjoined tendon and Gimbernat’s ligament, and with these may also constrict +the femoral hernia. +</p> + +<p> +The sheath, <i>e f, </i>of the femoral vessels, E F, Fig. 1, Plate 43, passes +from beneath the middle of the femoral arch. In this situation, the iliac part +of the fascia lata, F G, Fig. 2, Plate 44, covers the sheath. Its inner side is +bounded by Gimbernat’s ligament, R, Fig. 1, Plate 44, and F, the falciform edge +of the saphenous opening. On its outer side are situated the anterior crural +nerve, and the femoral parts of the psoas and iliacus muscles. Of the three +compartments into which the sheath is divided by two septa in its interior, the +external one, E, Fig. 1, Plate 43, is occupied by the femoral artery; the +middle one, F, by the femoral vein; whilst the inner one, G, gives passage to +the femoral lymphatic vessels; and occasionally, also, a lymphatic body is +found in it. The inner compartment, G, is the femoral canal, and through it the +femoral hernia descends from the abdomen to the upper and forepart of the +thigh. As the canal is the innermost of the three spaces inclosed by the +sheath, it is that which lies in the immediate neighbourhood of the saphenous +opening, Gimbernat’s ligament, and the conjoined tendon, and between these +structures and the femoral vein. +</p> + +<p> +The sheath of the femoral vessels, like that of the spermatic cord, is +infundibuliform. Both are broader at their abdominal ends than elsewhere. The +femoral sheath being broader above than below, whilst the vessels are of a +uniform diameter, presents, as it were, a surplus space to receive a hernia +into its upper end. This space is the femoral or crural canal. Its abdominal +entrance is the femoral or crural ring. +</p> + +<p> +The femoral ring, H, Fig. 2, Plate 43, is, in the natural state of the parts, +closed over by the peritonaeum, in the same manner as this membrane shuts the +internal inguinal ring. There is, however, corresponding to each ring, a +depression in the peritonaeal covering; and here it is that the bowel first +forces the membrane and forms of this part its sac. +</p> + +<p> +On removing the peritonaeum from the inguinal wall on the inner side of the +iliac vessels, K L, we find the horizontal branch of the os pubis, and the +parts connected with it above and below, to be still covered by what is called +the subserous tissue. The femoral ring is not as yet discernible on the inner +side of the iliac vein, K; for the subserous tissue being stretched across this +aperture masks it. The portion of the tissue which closes the ring is named the +crural septum, (Cloquet.) When we remove this part, we open the femoral ring +leading to the corresponding canal. The ring is the point of union between the +fibrous membrane of the canal and the general fibrous membrane which lines the +abdominal walls external to the peritonaeum. This account of the continuity +between the canal and abdominal fibrous membrane equally applies to the +connexion existing between the general sheath of the vessels and the abdominal +membrane. The difference exists in the fact, that the two outer compartments of +the sheath are occupied by the vessels, whilst the inner one is vacant. The +neck or inlet of the hernial sac, H, Fig. 2, Plate 43, exactly represents the +natural form of the crural ring, as formed in the fibrous membrane external to, +or (as seen in this view) beneath the peritonaeum. +</p> + +<p> +The femoral ring, H, is girt round on all sides by a dense fibrous circle, the +upper arc being formed by the two femoral arches; the outer arc is represented +by the septum of the femoral sheath, which separates the femoral vein from the +canal; the inner arc is formed by the united dense fibrous bands of the +conjoined tendon and Gimbernat’s ligament; and the inferior arc is formed by +the pelvic fascia where this passes over the pubic bone to unite with the under +part of the femoral canal and sheath. The ring thus bound by dense resisting +fibrous structure, is rendered sharp on its pubic and upper sides by the +salient edges of the conjoined tendon and Gimbernat’s ligament, &c. From +the femoral ring the canal extends down the thigh for an inch and a-half or two +inches in a tapering form, supported by the pectineus muscle, and covered by +the iliac part of the fascia lata. It lies side by side with the saphenous +opening, but does not communicate with this place. On a level with the lower +cornu of the saphenous opening, the walls of the canal become closely applied +to the femoral vessels, and here it may be said to terminate. +</p> + +<p> +The bloodvessels which pass in the neighbourhood of the femoral canal are, 1st. +the femoral vein, F, Fig. 1, Plate 43, which enclosed in its proper sheath lies +parallel with and close to the outer side of the passage. 2nd, Within the +inguinal canal above are the spermatic vessels, resting on the upper surface of +the femoral arch, which alone separates them from the upper part or entrance of +the femoral canal. 3rd, The epigastric artery, F, Fig. 2, Plate 43, which +passes close to the outer and upper border of, H, the femoral ring. This vessel +occasionally gives off the obturator artery, which, when thus derived, will be +found to pass towards the obturator foramen, in close connexion with the ring; +that is, either descending by its outer border, G*, between this point and the +iliac vein, K; or arching the ring, G, so as to pass down close to its inner or +pubic border. In some instances, the vessel crosses the ring; a vein generally +accompanies the artery. These peculiarities in the origin and course of the +obturator artery, especially that of passing on the pubic side of the ring, +behind Gimbernat’s ligament and the conjoined tendon, E H, are fortunately very +rare. +</p> + +<p> +As the course to be taken by the bowel, when a femoral hernia is being formed, +is through the crural ring and canal, the structures which have just now been +enumerated as bounding this passage, will, of course, hold the like relation to +the hernia. The manner in which a femoral hernia is formed, and the way in +which it becomes invested in its descent, may be briefly stated thus: The bowel +first dilates the peritonaeum opposite the femoral ring, H, Fig. 2, Plate 43, +and pushes this membrane before it into the canal. This covering is the hernial +sac. The crural septum has, at the same time, entered the canal as a second +investment of the bowel. The hernia is now enclosed by the sheath, G, Fig. 1, +Plate 43, of the canal itself. [Footnote 1] Its further progress through the +saphenous opening, B F, Fig. 1, Plate 44, must be made either by rupturing the +weak inner wall of the canal, or by dilating this part; in one or other of +these modes, the herniary sac emerges from the canal through the saphenous +opening. In general, it dilates the side of the canal, and this becomes the +fascia propria, B G. If it have ruptured the canal, the hernial sac appears +devoid of this covering. In either case, the hernia, increasing in size, turns +up over the margin of F, the falciform process, [Footnote 2] and ultimately +rests upon the iliac fascia lata, below the pubic third of Poupart’s ligament. +Sometimes the hernia rests upon this ligament, and simulates, to all outward +appearance, an oblique inguinal hernia. In this course, the femoral hernia will +have its three parts—neck, body, and fundus—forming nearly right angles with +each other: its neck [Footnote 3] descends the crural canal, its body is +directed to the pubis through the saphenous opening, and its fundus is turned +upwards to the femoral arch. +</p> + +<p> +[Footnote 1: The sheath of the canal, together with the crural septum, +constitutes the “fascia propria” of the hernia (Sir Astley Cooper). Mr. +Lawrence denies the existence of the crural septum.] +</p> + +<p> +[Footnote 2: The “upper cornu of the saphenous opening,” the “falciform +process” (Burns), and the “femoral ligament” (Hey), are names applied to the +same part. With what difficulty and perplexity does this impenetrable fog of +surgical nomenclature beset the progress of the learner!] +</p> + +<p> +[Footnote 3: The neck of the sac at the femoral ring lies very deep, in the +undissected state of the parts (Lawrence).] +</p> + +<p> +The crural hernia is much more liable to suffer constriction than the inguinal +hernia. The peculiar sinuous course which the former takes from its point of +origin, at the crural ring, to its place on Poupart’s ligament, and the +unyielding fibrous structures which form the canal through which it passes, +fully account for the more frequent occurrence of this casualty. The neck of +the sac may, indeed, be supposed always to suffer more or less constriction at +the crural ring. The part which occupies the canal is also very much +compressed; and again, where the hernia turns over the falciform process, this +structure likewise must cause considerable compression on the bowel in the sac. +[Footnote] This hernia suffers stricture of the passive kind always; for the +dense fibrous bands in its neighbourhood compress it rather by withstanding the +force of the herniary mass than by reacting upon it. There are no muscular +fibres crossing the course of this hernia; neither are the parts which +constrict it likely to change their original position, however long it may +exist. In the inguinal hernia, the weight of the mass may in process of time +widen the canal by gravitating; but the crural hernia, resting on the pubic +bone, cannot be supposed to dilate the crural ring, however greatly the +protrusion may increase in size and weight. +</p> + +<p> +[Footnote: Sir A. Cooper (Crural Hernia) is of opinion that the stricture is +generally in the neck of the sheath. Mr. Lawrence remarks, “My own observations +of the subject have led me to refer the cause of stricture to the thin +posterior border (Gimbernat’s ligament) of the crural arch, at the part where +it is connected to the falciform process.” (Op. cit.) This statement agrees +also with the experience of Hey, (Practical Obs.)] +</p> + +<h4>DESCRIPTION OF THE FIGURES OF PLATES 43 & 44.</h4> + +<p> +PLATE 43. +</p> + +<p> +FIGURE 1. +</p> + +<p> +A. Anterior superior iliac spine. +</p> + +<p> +B. Iliacus muscle, cut. +</p> + +<p> +C. Anterior crural nerve, cut. +</p> + +<p> +D. Psoas muscle, cut. +</p> + +<p> +E. Femoral artery enclosed in <i>e</i>, its compartment of the femoral sheath. +</p> + +<p> +F. Femoral vein in its compartment, <i>f</i>, of the femoral sheath. +</p> + +<p> +G. The fascia propria of the hernia; <i>g</i>, the contained sac. +</p> + +<p> +H. Gimbernat’s ligament. +</p> + +<p> +I. Round ligament of the uterus. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/100P43F1_25.jpg"> +<img src="images/100P43F1_25.jpg" width="502" height="600" alt="Illustration:" /></a> +<p class="caption">Plate 43.—Figure 1.</p> +</div> + +<p> +FIGURE 2. +</p> + +<p> +A. Anterior superior iliac spine. +</p> + +<p> +B. Symphysis pubis. +</p> + +<p> +C. Rectus abdominis muscle. +</p> + +<p> +D. Peritonaeum. +</p> + +<p> +E. Conjoined tendon. +</p> + +<p> +F. Epigastric artery. +</p> + +<p> +G* G. Positions of the obturator artery when given off from the epigastric. +</p> + +<p> +H. Neck of the sac of the crural hernia. +</p> + +<p> +I. Round ligament of the uterus. +</p> + +<p> +K. External iliac vein. +</p> + +<p> +L. External iliac artery. +</p> + +<p> +M. Tendon of the psoas parvus muscle, resting on the psoas magnus. +</p> + +<p> +N. Iliacus muscle. +</p> + +<p> +O. Transversalis fascia. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/100P43F2_25.jpg"> +<img src="images/100P43F2_25.jpg" width="579" height="600" alt="Illustration:" /></a> +<p class="caption">Plate 43.—Figure 2.</p> +</div> + +<p> +PLATE 44. +</p> + +<p> +FIGURE 1. +</p> + +<p> +A. Anterior superior iliac spine. +</p> + +<p> +B. The crural hernia. +</p> + +<p> +C. Round ligament of the uterus. +</p> + +<p> +D. External oblique muscle;<i> d</i>, Fig. 2, its aponeurosis. +</p> + +<p> +E. Saphaena vein. +</p> + +<p> +F. Falciform process of the saphenous opening. +</p> + +<p> +G. Femoral artery in its sheath. +</p> + +<p> +H. Femoral vein in its sheath. +</p> + +<p> +I. Sartorius muscle. +</p> + +<p> +K. Internal oblique muscle; <i>k</i>, conjoined tendon. +</p> + +<p> +L L. Transversalis fascia. +</p> + +<p> +M. Epigastric artery. +</p> + +<p> +N. Peritonaeum. +</p> + +<p> +O. Anterior crural nerve. +</p> + +<p> +P. The hernia within the crural canal. +</p> + +<p> +Q Q. Femoral sheath. +</p> + +<p> +R. Gimbernat’s ligament. +</p> + +<p> +FIGURE 2. +</p> + +<p> +The other letters refer to the same parts as seen in Fig. 1. +</p> + +<p> +G. Glands in the neighbourhood of Poupart’s ligament. +</p> + +<p> +H. Glands in the neighbourhood of the saphenous opening. +</p> + +<p> +I. The sartorius muscle seen through its fascia. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/100P44_25.jpg"> +<img src="images/100P44_25.jpg" width="700" height="493" alt="Illustration:" /></a> +<p class="caption">Plate 44.—Figure 1, 2.</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap24"></a>COMMENTARY ON PLATES 45 & 46.</h2> + +<p> +DEMONSTRATIONS OF THE ORIGIN AND PROGRESS OF FEMORAL HERNIA— ITS DIAGNOSIS, THE +TAXIS, AND THE OPERATION. +</p> + +<p> +PLATE 45, Fig. 1.—The point, 3, from which an external inguinal hernia first +progresses, and the part, 5, within which the femoral hernia begins to be +formed, are very close to each other. The inguinal hernia, 3, arising above, 5, +the crural arch, descends the canal, 3, 3, under cover of the aponeurosis of +the external oblique muscle, obliquely downwards and inwards till it gains the +external abdominal ring formed in the aponeurosis, and thence descends to the +scrotum. The femoral hernia, commencing on a level with, 5, the femoral arch, +descends the femoral canal, under cover of the fascia lata, and appears on the +upper and forepart of the thigh at the saphenous opening, 6, 7, formed in the +fascia lata; and thence, instead of descending to the scrotum, like the +inguinal hernia, turns, on the contrary, up over the falciform process, 6, till +its fundus rests near, 5, the very place beneath which it originated. Such are +the peculiarities in the courses of these two hernial; and they are readily +accounted for by the anatomical relations of the parts concerned. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/104P45F1_25.jpg"> +<img src="images/104P45F1_25.jpg" width="350" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 45.—Figure 1</p> +</div> + +<p> +PLATE 45, Fig. 2.—There exists a very evident analogy between the canals +through which both herniae pass. The infundibuliform fascia, 3, 3, of the +spermatic vessels is like the infundibuliform sheath, 9, 9, of the femoral +vessels. Both sheaths are productions of the general fibrous membrane of the +abdomen. They originate from nearly the same locality. The ring of the femoral +canal, 12, is situated immediately below, but to the inner side of the internal +inguinal ring, 3. The epigastric artery, 1, marks the width of the interval +which separates the two rings. Poupart’s ligament, 5, being the line of union +between the oblique aponeurosis of the abdominal muscle and the fascia lata, +merely overarches the femoral sheath, and does not separate it absolutely from +the spermatic sheath. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/104P45F2_25.jpg"> +<img src="images/104P45F2_25.jpg" width="429" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 45.—Figure 2</p> +</div> + +<p> +PLATE 45, Fig. 3.—The peritonaeum, 2, 3, closes the femoral canal, 12, at the +femoral ring, in the same way as this membrane closes the inguinal canal at the +internal inguinal ring, 3, Fig. 2, Plate 45. The epigastric artery always holds +an intermediate position between both rings. The spermatic vessels in the +inguinal tube, 3, 3, Fig. 2, Plate 45, are represented by the round ligament in +the female inguinal canal, Fig. 3, Plate 45. When the bowel is about to +protrude at either of the rings, it first dilates the peritonaeum, which covers +these openings. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/104P45F3_25.jpg"> +<img src="images/104P45F3_25.jpg" width="351" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 45.—Figure 3</p> +</div> + +<p> +PLATE 45, Fig. 4.—The place of election for the formation of any hernia is that +which is structurally the weakest. As the space which the femoral arch spans +external to the vessels is fully occupied by the psoas and iliacus muscles, +and, moreover, as the abdominal fibrous membrane and its prolongation, the +femoral sheath, closely embrace the vessels on their outer anterior and +posterior sides, whilst on their inner side the membrane and sheath are removed +at a considerable interval from the vessels, it is through this interval (the +canal) that the hernia may more readily pass. The peritonaeum, 2, and crural +septum, 13, form at this place the only barrier against the protrusion of the +bowel into the canal. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/104P45F4_25.jpg"> +<img src="images/104P45F4_25.jpg" width="389" height="435" alt="Illustration:" /></a> +<p class="caption">Plate 45.—Figure 4</p> +</div> + +<p> +PLATE 45, Fig. 5.—The hernia cannot freely enter the compartment, 10, occupied +by the artery, neither can it enter the place 11, occupied as it is by the +vein. It cannot readily pass through the inguinal wall at a point internal to, +9, the crural sheath, for here it is opposed by, 4, the conjoined tendon, and +by, 8, Gimbernat’s ligament. Neither will the hernia force a way at a point +external to the femoral vessels in preference to that of the crural canal, +which is already prepared to admit it. [Footnote] The bowel, therefore, enters +the femoral canal, 9, and herein it lies covered by its peritonaeal sac, +derived from that part of the membrane which once masked the crural ring. The +septum crurale itself, having been dilated before the sac, of course invests it +also. The femoral canal forms now the third covering of the bowel. If in this +stage of the hernia it should suffer constriction, Gimbernat’s ligament, 8, is +the cause of it. An incipient femoral hernia of the size of 2, 12, cannot, in +the undissected state of the parts, be detected by manual operation; for, being +bound down by the dense fibrous structures which gird the canal, it forms no +apparent tumour in the groin. +</p> + +<p> +[Footnote: The mode in which the femoral sheath, continued from the abdominal +membrane, becomes simply applied to the sides of the vessels, renders it of +course not impossible for a hernia to protrude into the sheath at any point of +its abdominal entrance. Mr. Stanley and M. Cloquet have observed a femoral +hernia external to the vessels. Hesselbach has also met with this variety. A +hernia of this nature has come under my own observation. Cloquet has seen the +hernia descend the sheath <i>once </i>in front of the vessels, and <i>once</i> +behind them. These varieties, however, must be very rare. The external form has +never been met with by Hey, Cooper, or Scarpa; whilst no less than six +instances of it have come under the notice of Mr. Macilwain, (on Hernia, p. +293.)] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/104P45F5_25.jpg"> +<img src="images/104P45F5_25.jpg" width="394" height="440" alt="Illustration:" /></a> +<p class="caption">Plate 45.—Figure 5</p> +</div> + +<p> +PLATE 45, Fig. 6.—The hernia, 2, 12, increasing gradually in size, becomes +tightly impacted in the crural canal, and being unable to dilate this tube +uniformly to a size corresponding with its own volume, it at length bends +towards the saphenous opening, 6, 7, this being the more easy point of egress. +Still, the neck of the sac, 2, remains constricted at the ring, whilst the part +which occupies the canal is also very much narrowed. The fundus of the sac, 9*, +12, alone expands, as being free of the canal; and covering this part of the +hernia may be seen the fascia propria, 9*. This fascia is a production of the +inner wall of the canal; and if we trace its sides, we shall find its lower +part to be continuous with the femoral sheath, whilst its upper part is still +continuous with the fascia transversalis. When the hernia ruptures the +saphenous side of the canal, the fascia propria is, of course, absent. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/104P45F6_25.jpg"> +<img src="images/104P45F6_25.jpg" width="385" height="418" alt="Illustration:" /></a> +<p class="caption">Plate 45.—Figure 6</p> +</div> + +<p> +PLATE 46, Fig. 1.—The anatomical circumstances which serve for the diagnosis of +a femoral from an inguinal hernia may be best explained by viewing in contrast +the respective positions assumed by both complaints. The direct hernia, 13, +traverses the inguinal wall from behind, at a situation corresponding with the +external ring; and from this latter point it descends the scrotum. An oblique +external inguinal hernia enters the internal ring, 3, which exists further +apart from the general median line, and, in order to gain the external ring, +has to take an oblique course from without inwards through the inguinal canal. +A femoral hernia enters the crural ring, 2, immediately below, but on the inner +side of, the internal inguinal ring, and descends the femoral canal, 12, +vertically to where it emerges through, 6, 7, the saphenous opening. The direct +inguinal hernia, 13, owing to its form and position, can scarcely ever be +mistaken for a femoral hernia. But in consequence of the close relationship +between the internal inguinal ring, 3, and the femoral ring, 2, through which +their respective herniae pass, some difficulty in distinguishing between these +complaints may occur. An incipient femoral hernia, occupying the crural canal +between the points, 2, 12, presents no apparent tumour in the undissected state +of the parts; and a bubonocele, or incipient inguinal hernia, occupying the +inguinal canal, 3, 3, where it is braced down by the external oblique +aponeurosis, will thereby be also obscured in some degree. But, in most +instances, the bubonocele distends the inguinal canal somewhat; and the impulse +which on coughing is felt at a place above the femoral arch, will serve to +indicate, by negative evidence, that it is not a femoral hernia. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/104P46F1_25.jpg"> +<img src="images/104P46F1_25.jpg" width="438" height="438" alt="Illustration:" /></a> +<p class="caption">Plate 46.—Figure 1</p> +</div> + +<p> +PLATE 46, Fig. 2.—When the inguinal and femoral herniae are fully produced, +they best explain their distinctive nature. The inguinal hernia, 13, descends +the scrotum, whilst the femoral hernia, 9*, turns over the falciform process, +6, and rests upon the fascia lata and femoral arch. Though in this position the +fundus of a femoral hernia lies in the neighbourhood of the inguinal canal, 3, +yet the swelling can scarcely be mistaken for an inguinal rupture, since, in +addition to its being superficial to the aponeurosis which covers the inguinal +canal, and also to the femoral arch, it may be withdrawn readily from this +place, and its body, 12, traced to where it sinks into the saphenous opening, +6, 7, on the upper part of the thigh. An inguinal hernia manifests its proper +character more and more plainly as it advances from its point of origin to its +termination in the scrotum. A femoral hernia, on the contrary, masks its proper +nature, as well at its point of origin as at its termination. But when a +femoral hernia stands midway between these two, points—viz. in the saphenous +opening, 6, 7, it best exhibits its special character; for here it exists below +the femoral arch, and considerably apart from the external abdominal ring. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/104P46F2_25.jpg"> +<img src="images/104P46F2_25.jpg" width="442" height="433" alt="Illustration:" /></a> +<p class="caption">Plate 46.—Figure 2</p> +</div> + +<p> +PLATE 46, Fig. 3.—The neck of the sac of a femoral hernia, 2, lies always close +to, 3, the epigastric artery. When the obturator artery is derived from the +epigastric, if the former pass internal to the neck behind, 8, Gimbernat’s +ligament, it can scarcely escape being wounded when this structure is being +severed by the operator’s knife. If, on the other hand, the obturator artery +descend external to the neck of the sac, the vessel will be comparatively +remote from danger while the ligament is being divided. In addition to the fact +that the cause of stricture is always on the pubic side, 8, of the neck of the +sac, 12, thereby requiring the incision to correspond with this situation only, +other circumstances, such as the constant presence of the femoral vein, 11, and +the epigastric artery, 1, determine the avoidance of ever incising the canal on +its outer or upper side. And if the obturator artery, [Footnote] by rare +occurrence, happen to loop round the inner side of the neck of the sac, +supposing this to be the seat of stricture, what amount of anatomical +knowledge, at the call of the most dexterous operator, can render the vessel +safe from danger? +</p> + +<p> +[Footnote: M. Velpeau (Medecine Operatoire), in reference to the relative +frequency of cases in which the obturator artery is derived from the +epigastric, remarks, “L’examen que j’ai pu en faire sur plusieurs milliers de +cadavres, ne me permet pas de dire qu’elle se rencontre un fois sur trois, ni +sur cinq, ni meme sur dix, mais bien seulement sur quinze a vingt.” Monro (Obs. +on Crural Hernia) states this condition of the obturator artery to be as 1 in +20-30. Mr. Quain (Anatomy of the Arteries) gives, as the result of his +observations, the proportion to be as 1 in 3-1/2, and in this estimate he +agrees to a great extent with the observations of Cloquet and Hesselbach. +Numerical tables have also been drawn up to show the relative frequency in +which the obturator descends on the outer and inner borders of the crural ring +and neck of the sac. Sir A. Cooper never met with an example where the vessel +passed on the inner side of the sac, and from this alone it may be inferred +that such a position of the vessel is very rare. It is generally admitted that +the obturator artery, when derived from the epigastric, passes down much more +frequently between the iliac vein and outer border of the ring. The researches +of anatomists (Monro and others) in reference to this point have given rise to +the question, “What determines the position of the obturator artery with +respect to the femoral ring?” It appears to me to be one of those questions +which do not admit of a precise answer by any mode of mathematical computation; +and even if it did, where then is the practical inference?] +</p> + +<p> +The taxis, in a case of crural hernia, should be conducted in accordance with +anatomical principles. The fascia lata, Poupart’s ligament, and the abdominal +aponeurosis, are to be relaxed by bending the thigh inwards to the +hypogastrium. By this measure, the falciform process, 6, is also relaxed; but I +doubt whether the situation occupied by Gimbernat’s ligament allows this part +to be influenced by any position of the limb or abdomen. The hernia is then to +be drawn from its place above Poupart’s ligament, (if it have advanced so far,) +and when brought opposite the saphenous opening, gentle pressure made outwards, +upwards, and backwards, so as to slip it beneath the margin of the falciform +process, will best serve for its reduction. When this cannot be effected by the +taxis, and the stricture still remains, the cutting operation is required. +</p> + +<p> +The precise seat of the stricture cannot be known except during the operation. +But it is to be presumed that the sac and contained intestine suffer +constriction throughout the whole length of the canal. [Footnote] Previously to +the commencement of the operation, the urinary bladder should be emptied; for +this organ, in its distended state, rises above the level of the pubic bone, +and may thus be endangered by the incision through the stricture—especially if +Gimbernat’s ligament be the structure which causes it. +</p> + +<p> +[Footnote: “The seat of the stricture is not the same in all cases, though, in +by far the greater number of instances, the constriction is relieved by the +division upwards and inwards of the falciform process of the fascia lata, and +the lunated edge of Gimbernat’s ligament, where they join with each other. In +some instances, it will be the fibres of the deep crescentic (femoral) arch; in +others, again, the neck of the sac itself, and produced by a thickening and +contraction of the subserous and peritonaeal membranes where they lie within +the circumference of the crural ring.”—<i>Morton </i>(Surgical Anatomy of the +Groin p. 148).] +</p> + +<p> +An incision commencing a little way above Poupart’s ligament, is to be carried +vertically over the hernia, parallel with, but to the inner side of its median +line. This incision divides the skin and subcutaneous adipose membrane, which +latter varies considerably in quantity in several individuals. One or two small +arteries (superficial pubic, &c.) may be divided, and some lymphatic bodies +exposed. On cautiously turning aside the incised adipose membrane contained +between the two layers of the superficial fascia, the fascia propria, 9, Figs. +4, 5, Plate 46, of the hernia is exposed. This envelope, besides varying in +thickness in two or more cases, may be absent altogether. The fascia closely +invests the sac, 12; but sometimes a layer of fatty substance interposes +between the two coverings, and resembles the omentum so much, that the operator +may be led to doubt whether or not the sac has been already opened. The fascia +is to be cautiously slit open on a director; and now the sac comes in view. The +hernia having been drawn outwards, so as to separate it from the inner wall of +the crural canal, a director [Footnote] is next to be passed along the interval +thus left, the groove of the instrument being turned to the pubic side. The +position of the director is now between the neck of the sac and the inner wall +of the canal. The extent to which the director passes up in the canal will vary +according to the suspected level of the stricture. A probe-pointed bistoury is +now to be slid along the director, and with its edge turned upwards and +inwards, according to the seat of stricture, the following mentioned parts are +to be divided—viz., the falciform process, 6; the inner wall of the canal, +which is continuous with the fascia propria, 9; Gimbernat’s ligament, 8; and +the conjoined tendon, 4; where this is inserted with the ligament into the +pectineal ridge. By this mode of incision, which seems to be all-sufficient for +the liberation of the stricture external to the neck of the sac, we avoid +Poupart’s ligament; and thereby the spermatic cord, 3, and epigastric artery, +1, are not endangered. The crural canal being thus laid open on its inner side, +and the constricting fibrous bands being severed, the sac may now be gently +manipulated, so as to restore it and its contents to the cavity of the abdomen; +but if any impediment to the reduction still remain, the cause, in all +probability, arises either from the neck of the sac having become strongly +adherent to the crural ring, or from the bowel being bound by bands of false +membrane to the sac. In either case, it will be necessary to open the sac, and +examine its contents. The neck of the sac is then to be exposed by an incision +carried through the integument across the upper end of the first incision, and +parallel with Poupart’s ligament. The neck is then to be divided on its inner +side, and the exposed intestine may now be restored to the abdomen. +</p> + +<p> +[Footnote: The finger is the safest director; for at the same time that it +guides the knife it feels the stricture and protects the bowel. As all the +structures which are liable to become the seat of stricture—viz., the falciform +process, Gimbernat’s ligament, and the conjoined tendon, lie in very close +apposition, a very short incision made upwards and inwards is all that is +required.] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/104P46F3_25.jpg"> +<img src="images/104P46F3_25.jpg" width="413" height="416" alt="Illustration:" /></a> +<p class="caption">Plate 46—Figure 3</p> +</div> + +<div class="fig" style="width:100%;"> +<a href="images/104P46F4_25.jpg"> +<img src="images/104P46F4_25.jpg" width="416" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 46—Figure 4</p> +</div> + +<div class="fig" style="width:100%;"> +<a href="images/104P46F5_25.jpg"> +<img src="images/104P46F5_25.jpg" width="412" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 46—Figure 5</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap25"></a>COMMENTARY ON PLATE 47.</h2> + +<p> +THE SURGICAL DISSECTION OF THE PRINCIPAL BLOODVESSELS AND NERVES OF THE ILIAC +AND FEMORAL REGIONS. +</p> + +<p> +Through the groin, as through the axilla, the principal blood vessels and +nerves are transmitted to, the corresponding limb. The main artery of the lower +limb frequently becomes the subject of a surgical operation. The vessel is +usually described as divisible into parts, according to the regions which it +traverses. But, as in examining any one of those parts irrespective of the +others, many facts of chief surgical importance are thereby obscured and +overlooked, I propose to consider the vessel <i>as a whole</i>, continuous from +the aorta to where it enters the popliteal space. The general course and +position of the main artery may be described as follows:—The abdominal aorta, +A, bifurcates on the body of the fourth lumbar vertebra. The level of the +aortic bifurcation corresponds with the situation of the navel in front, and +the crista ilii laterally. The aorta is in this situation borne so far forwards +by the lumbar spine as to occupy an almost central position in the cavity of +the abdomen. If the abdomen were pierced by two lines, one extending from a +little to the left side of the navel, horizontally backwards to the fourth +lumbar vertebra, and the other from immediately over the middle of one crista +ilii, transversely to a corresponding point in the opposite side, these lines +would intersect at the aortic bifurcation. The two arteries, G G,* into which +the aorta divides symmetrically at the median line, diverge from one another in +their descent towards the two groins. As both vessels correspond in form and +relative position, the description of one will serve for the other. +</p> + +<p> +While the thigh is abducted and rotated outwards, if a line be drawn from the +navel to a point, D, of the inguinal fold, midway between B, the anterior iliac +spine, and C, the symphysis pubis, and continued thence to the inner condyle of +the femur, it would indicate the general course of the artery, G I W. In this +course, the vessel may be regarded as a main trunk, giving off at intervals +large branches for the supply of the pelvic organs, the abdominal parietes, and +the thigh. From the point where the vessel leaves the aorta, A, down to the +inguinal fold, D, it lies within the abdomen, and here, therefore, all +operations affecting the vessel are attended with more difficulty and danger +than elsewhere, in its course. +</p> + +<p> +The artery of the lower limb, arising at the bifurcation of the aorta on the +fourth lumbar vertebra, descends obliquely outwards to the sacra-iliac +junction, and here it gives off its first branch, G, (internal iliac,) to the +pelvic organs. The main vessel is named <i>common iliac</i>, at the interval +between its origin from the aorta and the point where it gives off the internal +iliac branch. This interval is very variable as to its length, but it is stated +to be usually two inches. The artery, I, continuing to diverge in its first +direction from its fellow of the opposite side, descends along the margin of +the true pelvis as far as Poupart’s ligament, D, where it gives off its next +principal branches,—viz., the epigastric and circumflex iliac. At the interval +between the internal iliac and epigastric branches, the main artery, I, is +named <i>external iliac</i>; and the surgical length of this part is also +liable to vary, in consequence of the epigastric or circumflex iliac branches +arising higher up or lower down than usual. The main vessel, after passing +beneath the middle of Poupart’s ligament, D, next gives off the profundus +branch, N, to supply the thigh. This branch generally arises at a point an inch +and half or two inches below the fold of the groin; and between it and the +epigastric above, the main artery is named <i>common femoral.</i> From the +point where the profundus branch arises, down to the popliteal space, the +vessel remains as an undivided trunk, being destined to supply the leg and +foot. In this course, the artery is accompanied by the vein, H K O, which, +according to the region in which it lies, assumes different names, +corresponding to those applied to the artery. Both vessels may now be viewed in +relation to each other, and to the several structures which lie in connexion +with them. +</p> + +<p> +The two vessels above Poupart’s ligament lie behind the intestines, and are +closely invested by the serous membrane. The origin of the vena cava, F, lies +close to the right side of the bifurcation of the aorta, A; and here both +vessels are supported by the lumbar spine. Each of the two arteries, G G,* into +which the aorta divides, has its accompanying vein, H, on its inner side, but +the common iliac part of the right artery is seen to lie upon the upper +portions of both the veins, as these joining beneath it form the commencement +of the vena cava. The external iliac part, I, of each artery has its vein, K, +on its inner side. At the point, G, where the artery gives off its internal +iliac branch, the ureter, <i>g</i>, crosses it, and thence descends to the +bladder. The internal iliac branch subdivides in general so soon after its +origin, that it may be regarded as for the most part an unsafe proceeding to +place a ligature upon it. +</p> + +<p> +The iliac vessels, A G I, in approaching Poupart’s ligament along the border of +the true pelvis, are supported by the psoas muscle, and invested and bound to +their place by the peritonaeum, and a thin process of the iliac fascia. Some +lymphatic glands are here found to lie over the course of the vessels. The +spermatic artery and vein, together with the genito-crural nerve, descend along +the outer border of the iliac artery. When arrived at Poupart’s ligament, the +iliac vessels, I K, become complicated by their own branches, and also by the +spermatic vessels, as these are about to pass from the abdomen through the +internal inguinal ring. While passing beneath the middle of Poupart’s ligament, +D, the iliac artery, I, having its vein, K, close to its inner side, rests upon +the inner border of the psoas muscle, and in this place it may be effectually +compressed against the os pubis. The anterior crural nerve, P, which in the +iliac region lies concealed by the psoas muscle, and separated by this from the +vessels, now comes into view, lying on the outer side of the artery. When the +vessels have passed from beneath Poupart’s ligament, the serous membrane no +longer covers them, but the fibrous membrane is seen to invest them in the form +of a sheath, divided into two compartments, one of which (internal) receives +the vein, the other the artery. The iliac vessels, in passing to the thigh, +assume the name of femoral. +</p> + +<p> +The femoral vessels, O N W, in the upper third of the thigh traverse a +triangular space, the base of which is formed by Poupart’s ligament, D, whilst +the sides and apex are formed by the sartorius, Q, and adductor longus muscles, +T, approaching each other. In the undissected state of the part, the structures +which bound this space can in general be easily recognised. A central +depression extends from the middle of its base, D, to its apex, V, and marks +the course of the vessels. Near the middle of Poupart’s ligament, the vessels +are comparatively superficial, and here the artery may be felt pulsating; but +lower down, as they approach the apex of the triangle, the vessels become +gradually deeper, till the sartorius muscle inclining from its origin obliquely +inwards to the centre of the thigh, w, at length overlaps them. The inner +border of the sartorius muscle at the lower part of the upper third of the +thigh, W, guides to the position of the artery. Whilst traversing the femoral +triangle, the vessels enclosed in their proper sheath are covered by the fascia +lata, adipose membrane, and integument. In this place they lie imbedded in +loose cellular and adipose tissue. The femoral vein, O, is on the same plane +with the artery near Poupart’s ligament; but from this place downwards through +the thigh, the vein gradually winds from the inner to the back part of the +artery; and when both vessels pass under cover of the sartorius, they enter a +strong fibrous sheath, V, derived from the tendons of the adductor muscles upon +which they lie. The artery approaches the shaft of the femur near its middle; +and in this place it may be readily compressed against the bone by the hand. +The anterior crural nerve, P, dividing on the outer side of the artery, sends +some of its branches coursing over the femoral sheath; and one of these—the +long saphenous nerve—enters the sheath and follows the artery as far as the +opening in the great adductor tendon. The femoral artery, before it passes +through this opening into the popliteal space, gives off its anastomatic +branch. The profundus branch, N, springs from the outer side of the femoral +artery usually at a distance of from one to two inches (seldom more) below +Poupart’s ligament, and soon subdivides. [Footnote] The femoral artery in a few +instances has been found double. +</p> + +<p> +[Footnote: The ordinary length of each part of the main artery is stated on the +authority of Mr. Quain. See “Anatomy of the Arteries,” &c. ] +</p> + +<p> +The main artery of the lower limb may be exposed and tied in any part of its +course from the aorta to the popliteal space. But the situation most eligible +for performing such an operation depends of course upon circumstances, both +anatomical and pathological. If an aneurism affect the popliteal part of the +vessel, or if, from whatever cause arising, it be found expedient to tie the +femoral above this part, the place best suited for the operation is that where +the artery, W, first passes under cover of the sartorius muscle. [Footnote] +For, considering that the vessel gives off no important branch destined to +supply any part of the thigh or leg between the profundus branch and those into +which it divides below the popliteal space, the arrest to circulation will be +the same in amount at whichever part of the vessel between these two points the +ligature be applied. But since the vessel in the situation specified can be +reached with greater facility here than elsewhere lower down; and since, +moreover, a ligature applied to it here will be sufficiently removed from the +profundus branch above, and the seat of disease below, to produce the desired +result, the choice of the operator is determined accordingly. The steps of the +operation performed at the situation W, where the artery is about to pass +beneath the sartorius, are these: an incision of sufficient length—from two to +three inches—is to be made over the course of the vessel, so as to divide the +skin and adipose membrane, and expose the fascia lata, through which the inner +edge of the sartorius muscle becomes now readily discernible. A vein (anterior +saphena) may be found to cross in this situation, but the saphena vein proper +is not met with, as this lies nearer the inner side of the thigh. The fascia +having been next divided, the edge of the sartorius is to be turned aside, and +now the pulsation of the artery in its sheath will indicate its exact position. +The sheath is next to be opened, for an extent sufficient only to carry the +point of the ligature-needle safely around the artery, care being taken not to +injure the femoral vein, which lies close behind it, and also to exclude any +nerve which may lie in contact with the vessel. +</p> + +<p> +[Footnote: This is the situation chosen by Scarpa for arresting by ligature the +circulation through the femoral artery in cases of popliteal aneurism. The +reasons stated in the text are those which determine the surgeon to perform the +operation in this place in preference to that (the lower third of the thigh) +where Mr. Hunter first proposed to tie the vessel.] +</p> + +<p> +If an aneurism affect the common femoral portion of the artery, the external +iliac part would require to be tied, because, between the seat of the tumour +and the epigastric and circumflex ilii branches above, there would not be +sufficient space to allow the ligature to rest undisturbed; and even if the +aneurism arose from the femoral below the profundus branch in the upper third +of the thigh, or if, after amputation of the thigh, a secondary haemorrhage +took place from the femoral and the profunda arteries, a ligature would with +more safety be applied to the external iliac part than to the common femoral; +because of this latter, even when of its clear normal length, presenting so +small an interval between the epigastric and profundus branches. In addition to +this, it must be noticed, that occasionally the profundus itself, or some one +of its branches, (external and internal circumflex, &c.), arises as high up +as Poupart’s ligament, close to the origin of the epigastric and circumflex +iliac. [Footnote] +</p> + +<p> +[Footnote: The main artery (Plate 47) has been exposed in the iliac and femoral +regions with the object of showing the relation which its parts bear to each +other and to the whole; all the other dissections have been made upon the same +plan, the practical tendency of which will be illustrated when considering the +subject of arterial anastomosis.] +</p> + +<p> +The external iliac part of the artery, G I, when requiring to be tied, may be +reached in the following way: an incision, commencing above the anterior iliac +spine, B, is to be carried inwards parallel to, and above, Poupart’s ligament, +D, as far as the outer margin of the internal abdominal ring. This incision is +the one best calculated for avoiding the epigastric artery, and for not +disturbing the peritonaeum more than is necessary. The skin and the three +abdominal muscles having been successively incised, the fibrous transversalis +fascia is next to be carefully divided, so as to expose the peritonaeum. This +membrane is then to be gently raised by the fingers, from off the iliacus and +psoas muscles as far inwards as the margin of the true pelvis where the artery +lies. On raising the peritonaeum the spermatic vessels will be found adhering +to it. The iliac artery itself is liable to be displaced by adhering to the +serous membrane, when this is being detached from the inner side of the psoas +muscle. [Footnote] The artery having been divested of its serous covering as +far up as a point midway between I G, the epigastric and internal iliac +branches, the ligature is to be passed around it in this place, as being +equidistant from these two sources of disturbance. As the vein, K, lies close +along the inner side of the artery, the point of the instrument should first be +inserted between them, and passed from within outwards, in order to avoid +wounding the vein. If an aneurism affect the upper end of the external iliac +artery, it is proposed to tie the common iliac; but this is an operation of so +serious a nature, that it can in this respect be exceeded only by tying the +aorta itself. The common iliac artery is so situated, that it can as easily be +reached from the groin upwards as from the side of the abdomen inwards, and in +both directions the peritonaeum would have to be disturbed to an equal extent. +</p> + +<p> +[Footnote: The student, in operating upon the dead subject, is often puzzled to +find that the iliac artery does not appear in its usual situation, unaware at +the time that he has lifted the vessel in connexion with the peritonaeum. I +have once seen a very distinguished surgeon, whilst performing this operation +on the living body, at fault owing to the same cause.] +</p> + +<h4>DESCRIPTION OF PLATE 47.</h4> + +<p> +A. The aorta at its point of bifurcation. +</p> + +<p> +B. The anterior superior iliac spine. +</p> + +<p> +C. The symphysis pubis. +</p> + +<p> +D. Poupart’s ligament, immediately above which are seen the circumflex ilii and +epigastric arteries, with the vas deferens and spermatic vessels. +</p> + +<p> +E E*. The right and left iliac muscles covered by the peritonaeum; the external +cutaneous nerve is seen through the membrane. +</p> + +<p> +F. The vena cava. +</p> + +<p> +G G*. The common iliac arteries giving off the internal iliac branches on the +sacro-iliac symphyses; <i>g g</i>, the right and left ureters. +</p> + +<p> +H H*. The right and left common iliac veins. +</p> + +<p> +I I*. The right and left external iliac arteries, each is crossed by the +circumflex ilii vein. +</p> + +<p> +K K *. The right and left external iliac veins. +</p> + +<p> +L. The urinary bladder covered by the peritonaeum. +</p> + +<p> +M. The rectum intestinum. +</p> + +<p> +N. The profundus branch of the femoral artery. +</p> + +<p> +O. The femoral vein; <i>O</i>, the saphena vein. +</p> + +<p> +P. The anterior crural nerve. +</p> + +<p> +Q. The sartorius muscle, cut. +</p> + +<p> +S. The pectinaeus muscle. +</p> + +<p> +T. The adductor longus muscle. +</p> + +<p> +U. The gracilis muscle. +</p> + +<p> +V. The tendinous sheath given off from the long adductor muscle, crossing the +vessels, and becoming adherent to the vastus internus muscle. +</p> + +<p> +W. The femoral artery. The letter is on the part where the vessel becomes first +covered by the sartorius muscle. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/108P47_25.jpg"> +<img src="images/108P47_25.jpg" width="497" height="700" alt="Illustration:" /></a> +<p class="caption">Plate 47.</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap26"></a>COMMENTARY ON PLATES 48 & 49.</h2> + +<p> +THE RELATIVE ANATOMY OF THE MALE PELVIC ORGANS. +</p> + +<p> +As the abdomen and pelvis form one general cavity, the organs contained in both +regions are thereby intimately related. The viscera of the abdomen completely +fill this region, and transmit to the pelvic organs all the impressions made +upon them by the diaphragm and abdominal walls. The expansion of the lungs, the +descent of the diaphragm, and the contraction of the abdominal muscles, cause +the abdominal viscera to descend and compress the pelvic organs; and at the +same time the muscles occupying the pelvic outlet, becoming relaxed or +contracted, allow the perinaeum to be protruded or sustained voluntarily +according to the requirements. Thus it is that the force originated in the +muscular parietes of the thorax and abdomen is, while opposed by the +counterforce of the perinæal muscles, brought so to bear upon the pelvic organs +as to become the principal means whereby the contents of these are evacuated. +The abdominal muscles are, during this act, the antagonists of the diaphragm, +while the muscles which guard the pelvic outlet become at the time the +antagonists of both. As the pelvic organs appear therefore to be little more +than passive recipients of their contents, the <i>voluntary</i> processes of +defecation and micturition may with more correctness be said to be performed +rather for them than by them. The relations which they bear to the abdomen and +its viscera, and their dependence upon these relations for the due performance +of the processes in which they serve, are sufficiently explained by +pathological facts. The same system of muscles comprising those of the thorax, +abdomen and perinaeum, performs consentaneously the acts of respiration, +vomiting, defecation and micturition. When the spinal cord suffers injury above +the origin of the phrenic nerve, immediate death supervenes, owing to a +cessation of the respiratory act. Considering, however, the effect of such an +injury upon the pelvic organs alone, these may be regarded as being absolutely +excluded from the pale of voluntary influence in consequence of the paralysis +of the diaphragm, the abdominal and perinæal muscles. The expulsory power over +the bladder and rectum being due to the opposing actions of these muscles above +and below, if the cord be injured in the neck below the origin of the phrenic +nerve, the inferior muscles becoming paralysed, the antagonism of muscular +forces is thereby interrupted, and the pelvic organs are, under such +circumstances, equally withdrawn from the sphere of volition. The antagonism of +the abdominal muscles to the diaphragm being necessary, in order that the +pelvic viscera may be acted upon, if the cord be injured in the lower dorsal +region, so as to paralyse the abdominal walls and the perinæal muscles, the +downward pressure of the diaphragm alone could not evacuate the pelvic organs +voluntarily, for the abdominal muscles are now incapable of deflecting the line +of force backwards and downwards through the pelvic axis; and the perinæal +muscles being also unable to act in agreement, the contents of the viscera pass +involuntarily. Again, as the muscular apparatus which occupies the pelvic +outlet acts antagonistic to the abdomen and thorax, when by an injury to the +cord in the sacral spine the perinæal apparatus alone becomes paralysed, its +relaxation allows the thoracic and abdominal force to evacuate the pelvic +organs involuntarily. It would appear, therefore, that the term “paralysis” of +the bladder or rectum, when following spinal injuries, &c. &c. means, +or should mean, only a paralytic state of the abdomino-pelvic muscular +apparatus, entirely or in part. For, in fact, neither the bladder nor rectum +ever acts voluntarily <i>per se</i> any more than the stomach does, and +therefore the name “detrusor” urinae, as applied to the muscular coat investing +the bladder, is as much a misnomer (if it be meant that the act of voiding the +organ at will be dependent upon it) as would be the name “detrusor” applied to +the muscular coat of the stomach, under the meaning that this were the agent in +the spasmodic effort of vomiting. +</p> + +<p> +The urinary bladder, G, Plate 49, (in the adult body,) occupies the true pelvic +region when the organ is collapsed, or only partly distended. It is situated +behind the pubic symphysis and in front of the rectum, C,—the latter lies +between it and the sacrum, A. In early infancy, when the pelvis is +comparatively small, the bladder is situated in the hypogastric region, with +its summit pointing towards the umbilicus; as the bladder varies in shape, +according to whether it be empty or full, its relations to neighbouring parts, +especially to those in connexion with its summit, vary also considerably. When +empty, the back and upper surface of the bladder collapse against its forepart, +and in this state the organ lies flattened against the pubic symphysis. Whether +the bladder be distended or not, the small intestines lie in contact with its +upper surface, and compress it in the manner of a soft elastic cushion. When +distended largely, its summit is raised above the pubic symphysis, the small +intestines having yielded place to it, and in this state it can be felt by the +hand laid upon the hypogastrium. +</p> + +<p> +The shape of the bladder varies in different individuals. In some it is +rounded, in others pyriform, in others peaked towards its summit. Its capacity +varies also considerably at different ages and in different sexes. When +distended, its long axis will be found to coincide with a line passing from a +point midway between the navel and pubes to the point of the coccyx, the +obliquity of this direction being greatest when the body is in the erect +posture, for the intestines now gravitate upon it. When the body is recumbent, +the bladder recedes somewhat from the pubes, and as the intestines do not now +press upon it from above, it allows of being distended to a much greater degree +without causing uneasiness, and a desire to void its contents. +</p> + +<p> +The manner in which the bladder is connected to neighbouring parts is such as +to admit of its full distension. Its summit, back, and upper sides are free and +covered by the elastic peritonaeum, whilst its front, lower sides, and base are +adherent to adjacent parts, and divested of the serous membrane. On tracing the +peritonaeum from the front wall of the abdomen to its point of reflexion over +the summit of the bladder, we find the membrane to be in this part so loosely +adherent, that the bladder when much distended, raises the peritonaeum above +the level of the upper margin of the pubic symphysis. In this state the organ +may be punctured immediately above the pubic symphysis without endangering the +serous sac. When the bladder is collapsed, the peritonaeum follows its summit +below the level of the pubes, and in this position of the organ such an +operation would be inadmissible, if indeed the necessity for it can now be +conceived. +</p> + +<p> +By removing the os innominatum, A D, Plate 48, together with the internal +obturator, and levator ani muscles, which arise from its inner side, we obtain +a lateral view, Plate 49, of the pelvic viscera, and of the vessels &c. +connected with them. Those parts of the bladder, G, and the rectum, C, which +are invested by the peritonaeum, are also now fully displayed. On tracing this +membrane from before backwards, over the summit of the bladder, G, we find it +descending deeply upon the posterior surface of the organ, before it becomes +reflected so as to ascend over the forepart of the rectum. This duplicature of +the serous membrane, H H, is named the recto-vesical pouch, and it is required +to ascertain with all the exactness possible the level to which it descends, so +as to avoid it in the operation of puncturing the bladder through the rectum. +The serous pouch descends lower in some bodies than in others; but in all there +exists a space, of greater or less dimensions, between it and the prostate, V, +whereat the base of the bladder is in direct apposition with the rectum, W, the +serous membrane not intervening. +</p> + +<p> +When the peritonaeum is traced from one iliac fossa to the other, we find it +sinking deeply into the hollow of the pelvis behind the bladder, so as to form +the sides of the recto-vesical pouch; but when traced over the summit of the +bladder, this organ is seen to have the membrane reflected upon it, almost +immediately below the pelvic brim. At the situations where the peritonaeum +becomes reflected in front, laterally, and behind, upon the sides of the +bladder, the membrane is thrown into folds, which are named “false ligaments.” +The pelvic fascia, in being reflected to the bladder from the front and sides +of the pelvis, at a lower level than that of the peritonaeum, forms the “true +ligaments.” In addition to these ligaments, which serve to keep the base and +front of the bladder fixed in the pelvis, other structures, such as the +ureters, K, the vasa deferentia, I, the hypogastric cords, the urachus, and the +bloodvessels, embrace the organ in various directions, and act as bridles, to +limit its expansion more or less in all directions, but least so towards its +summit, which is always comparatively free. +</p> + +<p> +The neck and outlet of the bladder, V, are situated at the anterior part of its +base, and point towards the subpubic space. The prostate gland, V, surrounds +its neck, and occupies a position behind and below the pubic arch, D, and in +front of the rectum, W. The gland, V, being of a rounded form and dense +structure, can be felt in this situation by the finger, passed upwards through +the bowel. The prostate is suspended from the back of the pubic arch by the +anterior true ligament of the bladder, and at its forepart, where the +membranous portion of the urethra commences, this passes through the deep +perinæal fascia, X. The anterior fibres of the levator ani muscle embrace the +prostate on both its sides. Behind the base of the prostate, the ureter, K, is +seen to enter the coats of the bladder obliquely, whilst the vas deferens, I, +joined by the vesicula seminalis, L, penetrates the substance of the prostate, +V, at its lower and back part, which lies in apposition with the rectum. +</p> + +<p> +The rectum, W C, at its middle and upper parts, occupies the hollow of the +sacrum, A Q, and is behind the bladder. The lower third of the rectum, W, not +being covered by the peritonaeum, is that part on which the various surgical +operations are performed. At its upper three-fifths, the rectum describes a +curve corresponding to that of the sacrum; and if the bladder be full, its +convex back part presses the bowel against the bone, causing its curve to be +greater than if the bladder were empty and collapsed. This fact requires to be +borne in mind, for, in order to introduce a bougie, or to allow a large +injection to pass with freedom into the bowel, the bladder should be first +evacuated. The coccygeal bones, Q, continuing in the curve of the sacrum, bear +the rectum, W, forwards against the base of the bladder, and give to this part +a degree of obliquity upwards and backwards, in respect to the perinaeum and +anus. From the point where the prostate, V, lies in contact with the rectum, W, +this latter curves downwards, and slightly backwards, to the anus, P. The +prostate is situated at a distance of about an inch and a half or two inches +from the anus—the distance varying according to whether the bladder and bowel +be distended or not. [Footnote] +</p> + +<p> +[Footnote: The distance between any two given parts is found to vary in +different cases. “In subjects of an advanced age,” Mr. Stanley remarks, “a deep +perinaeum, as it is termed, is frequently met with. This may be occasioned +either by an unusual quantity of fat in the perinaeum, or by an enlarged +prostate, or by the dilatation of that part of the rectum which is contiguous +to the prostate and bladder. Under either of these circumstances, the prostate +and bladder become situated higher in the pelvis than naturally, and +consequently at a greater distance from the perinaeum.”—<i>On the Lateral +Operation of Lithotomy</i>.] +</p> + +<p> +The arteries of the bladder are derived from the branches of the internal +iliac, S. The rectum receives its arteries from the inferior mesenteric and +pudic. The veins which course upwards from the rectum are large and numerous, +and devoid of valves. When these veins become varicose, owing to a stagnation +of their circulation, produced from whatever cause, the bowel is liable to be +affected with haemorrhoids or to assume a haemorrhagic tendency. +</p> + +<p> +The pudic artery, S <i>s,</i> is a branch of the internal iliac. It passes from +the pelvis by the great sciatic foramen, below the pyriformis muscle, and in +company with the sciatic artery. The pudic artery and vein wind around the +spine, E, of the ischium, where they are joined by the pudic nerve, derived +from, T, the sacral plexus. The artery, in company with the nerve and vein, +re-enters the pelvis by the small sciatic foramen, and gets under cover of a +dense fibrous membrane (obturator fascia), between which and the obturator +muscle, it courses obliquely downwards and forwards to the forepart of the +perinaeum. At the place where the vessel re-enters the pelvis, it lies removed +at an interval of an inch and a half from the perinaeum, but becomes more +superficial as it approaches the subpubic space, N. The levator ani muscle +separates the pudic vessels and nerves from the sides of the rectum and +bladder. The principal branches given off from the pudic artery of either side, +are (1st), the inferior hemorrhoidal, to supply the lower end of the rectum; +(2nd), the transverse and superficial perinæal; (3rd), the artery of the bulb; +(4th), that which enters the corpus cavernosum of the penis, N; and (5th), the +dorsal artery of the penis. [Footnote] The branches given off from the pudic +nerve correspond in number and place to those of the artery. Having now +considered the relations of the pelvic organs in a lateral view, we are better +prepared to understand these relations when seen at their perinæal aspect. +</p> + +<p> +[Footnote: The pudic artery, or some one of its branches, occasionally +undergoes marked deviations from the ordinary course. In Mr. Quain’s work, +(“Anatomy of the Arteries,”) a case is represented in which the artery of the +bulb arose from the pudic as far back as the tuber ischii, and crossed the line +of incision made in the lateral operation of lithotomy. In another figure is +seen a vessel (“accessory pudic”), which, passing between the base of the +bladder and the levator ani muscle, crosses in contact with the left lobe of +the prostate.] +</p> + +<h4>DESCRIPTION OF PLATES 48 & 49.</h4> + +<p> +PLATE 48. +</p> + +<p> +A. The anterior superior iliac spine. +</p> + +<p> +B. The anterior inferior iliac spine. +</p> + +<p> +C. The acetabulum; <i>c,</i> the ligamentum teres. +</p> + +<p> +D. The tuber ischii. +</p> + +<p> +E. The spine of the ischium. +</p> + +<p> +F. The pubic horizontal ramus. +</p> + +<p> +G. The summit of the bladder covered by the peritonaeum. +</p> + +<p> +H. The femoral artery. +</p> + +<p> +I. The femoral vein. +</p> + +<p> +K. The anterior crural nerve. +</p> + +<p> +L. The thyroid ligament. +</p> + +<p> +M. The spermatic cord. +</p> + +<p> +N. The corpus cavernosum penis; <i>n</i>, its artery. +</p> + +<p> +O. The urethra; <i>o</i>, the bulbus urethrae. +</p> + +<p> +P. The sphincter ani muscle. +</p> + +<p> +Q. The coccyx. +</p> + +<p> +R. The sacro-sciatic ligament. +</p> + +<p> +S. The pudic artery and nerve. +</p> + +<p> +T. The sacral nerves. +</p> + +<p> +U. The pyriformis muscle, cut. +</p> + +<p> +V. The gluteal artery. +</p> + +<p> +W. The small gluteus muscle. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/112P48_25.jpg"> +<img src="images/112P48_25.jpg" width="526" height="650" alt="Illustration:" /></a> +<p class="caption">Plate 48</p> +</div> + +<p> +PLATE 49. +</p> + +<p> +A. The part of the sacrum which joins the ilium. +</p> + +<p> +B. The external iliac artery, cut across. +</p> + +<p> +C. The upper part of the rectum. +</p> + +<p> +D. The ascending pubic ramus. +</p> + +<p> +E. The spine of the ischium, cut. +</p> + +<p> +F. The horizontal pubic ramus, cut. +</p> + +<p> +G. The summit of the bladder covered by the peritonaeum; G *, its side, not +covered by the membrane. +</p> + +<p> +H H. The recto-vesical peritonaeal pouch, +</p> + +<p> +I. The vas deferens. +</p> + +<p> +K. The ureter. +</p> + +<p> +L. The vesicula seminalis. +</p> + +<p> +M, N, O, P, Q, R, S, T, U, refer to the same parts as in Plate 48. +</p> + +<p> +V. The prostate. +</p> + +<p> +W. The lower part of the rectum. +</p> + +<p> +X. The deep perinæal fascia. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/112P49_25.jpg"> +<img src="images/112P49_25.jpg" width="518" height="650" alt="Illustration:" /></a> +<p class="caption">Plate 49</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap27"></a>COMMENTARY ON PLATES 50 & 51.</h2> + +<p> +THE SURGICAL DISSECTION OF THE SUPERFICIAL STRUCTURES OF THE MALE PERINAEUM. +</p> + +<p> +The median line of the body is marked as the situation where the opposite +halves unite and constitute a perfect symmetrical figure. Every +structure—superficial as well as deep—which occupies the median line is either +single, by the union of halves, or dual, by the cleavage and partition of +halves. The two sides of the body being absolutely similar, the median line at +which they unite is therefore common to both. Union along the median line is an +occlusion taking place by the junction of sides; and every hiatus or opening, +whether normal or abnormal, which happens at this line, signifies an omission +in the process of central union. The sexual peculiarities are the results of +the operation of this law, and all forms which are anomalous to either sex, may +be interpreted as gradations in the same process of development; a few of these +latter occasionally come under the notice of the surgeon. +</p> + +<p> +The region which extends from the umbilicus to the point of the coccyx is +marked upon the cutaneous surface by a central raphe dividing the hypogastrium, +the penis, the scrotum, and the perinaeum respectively into equal and similar +sides. The umbilicus is a cicatrix formed after the metamorphosis of a median +foetal structure—the placental cord, &c. In the normal form, the meatus +urinarius and the anus coincide with the line of the median raphe, and signify +omissions at stated intervals along the line of central union. When between +these intervals the process of union happens likewise to be arrested, +malformations are the result; and of these the following are +examples:—Extrusion of the bladder at the hypogastrium is caused by a +congenital hiatus at the lower part of the linea alba, which is in the median +line; Epispadias, which is an urethral opening on the dorsum of the penis; and +Hypospadias, which is a similar opening on its under surface, are of the same +nature—namely, omissions in median union. Hermaphrodism may be interpreted +simply as a structural defect, compared to the normal form of the male, and as +a structural excess compared to that of the female. Spina bifida is a +congenital malformation or hiatus in union along the median line of the sacrum +or loins. As the process of union along the median line may err by a defect or +omission, so may it, on the other hand, err by an excess of fulfilment, as, for +example, when the urethra, the vagina, or the anus are found to be imperforate. +As the median line of union thus seems to influence the form of the +hypogastrium, the genitals, and the perinaeum, the dissection of these parts +has been conducted accordingly. +</p> + +<p> +By removing the skin and subjacent adipose membrane from the hypogastrium, we +expose the superficial fascia. This membrane, E E E*, Fig. 1, Plate 50, is, in +the middle line, adherent to B, the linea alba, and thereby contributes to form +the central depression which extends from the navel to the pubes. The adipose +tissue, which in some subjects accumulates on either side of the linea alba, +renders this depression more marked in them. At the folds of the groin the +fascia is found adherent to Poupart’s ligament, and this also accounts for the +depressions in both these localities. From the central linea alba to which the +fascia adheres, outwards on either side to the folds of both groins, the +membrane forms two distinct sacs, which droop down in front, so as to invest +the testicles, E**, and penis in a manner similar to that of the skin covering +these parts. As the two sacs of the superficial fascia join each other at the +line B, coinciding with the linea alba, they form by that union the suspensory +ligament of the penis, which is a structure precisely median. +</p> + +<p> +The superficial fascia having invested the testicles each in a distinct sac, +the adjacent sides of both these sacs, by joining together, form the median +septum scroti, E, Fig. 2, Plate 50. In the perinaeum, Fig. 1, Plate 51, the +fascia, A, may be traced from the back of the scrotum to the anus. In this +region the membrane is found to adhere laterally to the rami of the ischium and +pubes; whilst along the median perinæal line the two sacs of which the membrane +is composed unite, as in the scrotum, and form an imperfect septum. In front of +the anus, beneath the sphincter ani, the fascia degenerates into cellular +membrane, one layer of which is spread over the adipose tissue in the +ischio-rectal space, whilst its deeper and stronger layer unites with the deep +perinæal fascia, and by this connexion separates the urethral from the anal +spaces. The superficial fascia of the hypogastrium, the scrotum, and the +perinaeum forming a continuous membrane, and being adherent to the several +parts above noticed, may be regarded as a general double sac, which isolates +the inguino-perinæal region from the femoral and anal regions, and hence it +happens that when the urethra becomes ruptured, the urine which is extravasated +in the perinaeum, is allowed to pass over the scrotum and the abdomen, +involving these parts in consequent inflammation, whilst the thighs and anal +space are exempt. The tunicae vaginales, which form the immediate coverings of +the testicles, cannot be entered by the urine, as they are distinct sacs +originally protruded from the abdomen. It is in consequence of the imperfect +state of the inguino-perinæal septum of the fascia, that urine effused into one +of the sacs is allowed to enter the other. +</p> + +<p> +Like all the other structures which join on either side of the median line, the +penis appears as a symmetrical organ, D D, Fig. 2, Plate 50. While viewed in +section, its two corpora cavernosa are seen to unite anteriorly, and by this +union to form a septum “pectiniforme;” posteriorly they remain distinct and +lateral, F F, Fig. 2, Plate 51, being attached to the ischio-pubic rami as the +crura penis. The urethra, B, Fig. 2, Plate 50, is also composed of two sides, +united along the median line, but forming between them a canal by the cleavage +and partition of the urethral septum. All the other structures of the perinaeum +will be seen to be either double and lateral, or single and median, according +as they stand apart from, or approach, or occupy the central line. +</p> + +<p> +The perinaeum, Figs. 1, 2, Plate 51, is that space which is bounded above by +the arch of the pubes, behind by C, the os coccygis, and the lower borders of, +I I, the glutaei muscles and sacro-sciatic ligaments, and laterally by D D, the +ischiatic tuberosities. The osseous boundaries can be felt through the +integuments. Between the back of the scrotum and the anus the perinaeum swells +on both sides of the raphe, A B, Fig. 3, Plate 50, and assumes a form +corresponding with the bag of the superficial fascia which encloses the +structures connected with the urethra. The anus is centrally situated in the +depression formed between D D, the ischiatic tuberosities, and the double folds +of the nates. +</p> + +<p> +The perinaeum, Fig. 3, Plate 50, is, for surgical purposes, described as +divisible into two spaces (anterior and posterior) by a transverse line drawn +from one tuber ischii, D, to the other, D, and crossing in front of the anus. +The anterior space, A D D, contains the urethra; the posterior space, D D C, +contains the rectum. The central raphe, A B C, traverses both these spaces. The +anterior or urethral space is (while viewed in reference to its osseous +boundaries) triangular in shape, the apex being formed by the pubic symphysis +beneath A, whilst two lines drawn from A to D D, would coincide with the +ischio-pubic rami which form its sides. The raphe in the anterior space +indicates the central position of the urethra, as may be ascertained by passing +a sound into the bladder, when the shaft of the instrument will be felt +prominently between the points A B. Behind the point B, the sound or staff +sinks deeper in the perinaeum as it follows the curve of the urethra towards +the bladder, and becomes overlaid by the bulb, &c. +</p> + +<p> +The ischiatic tuberosities, D D, Fig. 3, Plate 50, are, in all subjects, +sufficiently prominent to be felt through the integuments, &c.; and the +line which, when drawn from one to the other, serves to divide the two perinæal +spaces, forms the base of the anterior one. In well-formed subjects, the +anterior space is equiangular, the base being equal to each side; but according +as the tuberosities approach the median line, the base becomes narrowed, and +the triangle is thereby rendered acute. These circumstances influence the +direction in which the first incision in the lateral operation of lithotomy +should be made. When the tuberosity of the left ischium stands well apart from +the perinæal centre, the line of incision, B E, Fig. 3, Plate 50, is carried +obliquely from above downwards and outwards; but in cases where the tuberosity +approaches the centre, the incision must necessarily be made more vertical. The +posterior perinæal space may be described on the surface by two lines drawn +from D D, the ischiatic tuberosities, to C, the point of the coccyx, whilst the +transverse line between D and D bounds it above. +</p> + +<p> +By removing the integument and superficial fascia, we expose the superficial +vessels and nerves, together with the muscles in the neighbourhood of the +urethra and the anus. The accelerator urinae, E, Fig. 2, Plate 51, which +embraces the urethra, and the sphincter ani, B C, which surrounds the anus, H, +occupy the median line, and are divided each into halves by a central tendon, E +B C, which traverses the perinaeum from before backwards, to the point of the +coccyx. On either side of the anus, in the ischio-rectal space, D D, Fig. 1, +Plate 51, is found a considerable quantity of granular adipose tissue, +traversed by the inferior haemorrhoidal arteries and nerves-branches of the +pudic artery and nerve. +</p> + +<p> +In front of the anus are seen two small muscles (transversae perinaei), G G, +Fig. 2, Plate 51, each arising from the tuber ischii of its own side, and the +two becoming inserted into, B, the central tendon. These transverse muscles +serve to mark the boundary between the anterior and posterior perinæal spaces. +Behind each muscle is found a small artery, crossing to the median line. The +left transverse muscle and artery are always divided in the lateral operation +of lithotomy. On the outer sides of the anterior perinæal space are seen the +erectores penis muscles, F F, overlaying the crura penis. Between each muscle +and the accelerator urinae, the superficialis perinaei artery and nerve course +forwards to the scrotum, &c. +</p> + +<p> +The perinæal muscles having been brought fully into view, Plate 52, Fig. 1, +their symmetrical arrangement on both sides of the median line at once strikes +the attention. On either side of the anterior space appears a small angular +interval, L, formed between B, the accelerator urinae, D, the erector penis, +and E, the transverse muscle. Along the surface of this interval, the +superficial perinæal artery and nerve are seen to pass forwards; and deep in +it, beneath these, may also be observed, L, the artery of the bulb, arising +from the pudic, and crossing inwards, under cover of the anterior layer of the +membrane named the deep perinæal fascia. The first incision in the lateral +operation of lithotomy is commenced over the inferior inner angle of this +interval. +</p> + +<p> +The muscles occupying the anterior perinæal space require to be removed, Fig. +1, Plate 53, in order to expose the urethra, B M, the crus penis, D, and the +deep perinæal fascia. The fascia will be now seen stretched across the subpubic +triangular space, reaching from one ischio-pubic ramus to the other, whilst by +its lower border, corresponding with the line of the transversae perinaei +muscles, it becomes continuous with the superficial fascia, in the manner +before described. The deep perinæal fascia (triangular ligament) encloses +between its two layers, C E, on either side of the urethra, the pudic artery, +the artery of the bulb, Cowper’s glands, and some muscular fibres occasionally +to be met with, to which the name “Compressor urethrae” has been assigned. At +this stage of the dissection, as the principal vessels and parts composed of +erectile tissue are now in view, their relative situations should be well +noticed, so as to avoid wounding them in the several cutting operations +required to be performed in their vicinity. +</p> + +<p> +Along the median line (marked by the raphe) from the scrotum to the coccyx, and +close to this line on either side, the vessels are unimportant as to size. The +urethra lies along the middle line in the anterior perinæal space; the rectum +occupies the middle in the posterior space. When either of these parts +specially requires to be incised—the urethra for impassable stricture, &c., +and the lower part of the rectum for fistula in ano—the operation may be +performed without fear of inducing dangerous arterial haemorrhage. With the +object of preserving from injury these important parts, deep incisions at, or +approaching to, the middle line must be avoided. The outer (ischio-pubic) +boundary of the perinaeum is the line along which the pudic artery passes. The +anterior half of this boundary supports also the crus penis; hence, therefore, +in order to avoid these, all deep incisions should be made parallel to, but +removed to a proper distance from this situation. The structures placed at the +middle line, B M F, Fig. 2, Plate 52, and those in connexion with the left +perinæal boundary, D G L, require (in order to insure the safety of these +parts) that the line of incision necessary to gain access to the neck of the +bladder in lithotomy should be made through the left side of the perinaeum from +a point midway between M, the bulb, and D, crus penis above, to a point, K, +midway between the anus, F, and tuber ischii, G, below. As the upper end of +this incision is commenced over the situation of the superficial perinæal +artery and the artery of the bulb, the knife at this place should only divide +the skin and superficial fascia. The lower end, K, just clears the outer side +of the dilated lower part of the rectum. The middle of the incision is over the +left lobe of the prostate gland and neck of the bladder, which parts, together +with the membranous portion of the urethra, are still concealed by the deep +perinæal fascia, the structures between its layers, and the anterior fibres of +K, the levator ani muscle. The incision, if made in due reference to the +relative situation of the parts above noticed, will leave them untouched; but +when the pudic artery, or some one of its branches, deviates from its ordinary +course and crosses the line of incision, a serious haemorrhage will ensue, +despite the anatomical knowledge of the most experienced operator. When it is +requisite to divide the superficial and deep sphincter ani as in the operation +for complete fistula in ano, if the incision be made transversely in the +ischio-rectal fossa, the haemorrhoidal arteries and nerves converging towards +the anus will be the more likely to escape being wounded. +</p> + +<h4>DESCRIPTION OF THE FIGURES OF PLATES 50 & 51.</h4> + +<p> +PLATE 50. +</p> + +<p> +FIGURE 1. +</p> + +<p> +A. The umbilicus. +</p> + +<p> +B. The linea alba. +</p> + +<p> +C. The suspensory ligament of the penis. +</p> + +<p> +D D. The two corpora cavernosa penis. +</p> + +<p> +E E**. The hypogastric and scrotal superficial fascia. +</p> + +<p> +F F. The spermatic cords. +</p> + +<p> +FIGURE 2. +</p> + +<p> +A. The umbilicus. +</p> + +<p> +B. The urethra. +</p> + +<p> +C*. The tunica vaginalis; <i>c,</i> the testicle invested by the tunic. +</p> + +<p> +D D. The corpora cavernosa seen in section. +</p> + +<p> +E. The scrotal raphe and septum scroti. +</p> + +<p> +FIGURE 3. +</p> + +<p> +A B. The perinæal raphè. +</p> + +<p> +C. The place of the coccyx. +</p> + +<p> +D D. The projections of the ischiatic tuberosities. +</p> + +<p> +BE. The line of section in lithotomy. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/116P50_25.jpg"> +<img src="images/116P50_25.jpg" width="600" height="433" alt="Illustration:" /></a> +<p class="caption">Plate 50</p> +</div> + +<p> +PLATE 51. +</p> + +<p> +FIGURE 1. +</p> + +<p> +A. The superficial fascia covering the urethral space. +</p> + +<p> +B. The sphincter ani. +</p> + +<p> +C. The coccyx. +</p> + +<p> +D D. The right and left ischiatic tuberosities. +</p> + +<p> +H. The anus. +</p> + +<p> +I I. The glutei muscles. +</p> + +<p> +FIGURE 2. +</p> + +<p> +A, B, C, D, H, I. The same parts as in Fig. 1. +</p> + +<p> +E. The accelerator urinae muscle. +</p> + +<p> +F F. Right and left erector penis muscle. +</p> + +<p> +G G. Right and left transverse muscle. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/116P51_25.jpg"> +<img src="images/116P51_25.jpg" width="600" height="432" alt="Illustration:" /></a> +<p class="caption">Plate 51</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap28"></a>COMMENTARY ON PLATES 52 & 53.</h2> + +<p> +THE SURGICAL DISSECTION OF THE DEEP STRUCTURES OF THE MALE PERINAEUM. +</p> + +<p> +THE LATERAL OPERATION OF LITHOTOMY. +</p> + +<p> +The urethra, at its membranous part, M, Fig. 1, Plate 53, which commences +behind the bulb, perforates the centre of the deep perinaeal fascia, E E, at +about an inch and a half in front of F, the anus. The anterior layer of the +fascia is continued forwards over the bulb, whilst the posterior layer is +reflected backwards over the prostate gland. +</p> + +<p> +Behind the deep perinaeal fascia, the anterior fibres of K, the levator ani +muscle, arise from either side of the pubic symphysis posteriorly, and descend +obliquely down wards and forwards, to be inserted into the sides of N N, the +rectum above the anus. These fibres of the muscle, and the lower border of the +fascia which covers them, lie immediately in front of the prostate, C C, Fig. +2, Plate 53, and must necessarily be divided in the operation of lithotomy. +Previously to disturbing the lower end of the rectum from its natural position +in the perinaeum, its close relation to the prostate and base of the bladder +should be noticed. While the anus remains connected with the deep perinaeal +fascia in front, the fibres of the levator ani muscle of the left side may be +divided; and by now inserting the finger between them and the rectum, the left +lobe of the prostate can be felt in apposition with the forepart of the bowel, +an inch or two above the anus. It is owing to this connexion between these +parts that the lithotomist has to depress the bowel, lest it be wounded, while +the prostate is being incised. If either the bowel or the bladder, or both +together, be over-distended, they are brought into closer apposition, and the +rectum is consequently more exposed to danger during the latter stages of the +operation. The prostate being in contact with the rectum, the surgeon is +enabled to examine by the touch, <i>per anum</i>, the state of the gland. If +the prostate be diseased and irregularly enlarged, the urethra, which passes +through it, becomes, in general, so distorted, that the surgeon, after passing +the catheter along the urethra as far as the prostate, will find it necessary +to guide the point of the instrument into the bladder, by the finger introduced +into the bowel. The middle or third lobe of the prostate being enlarged, bends +the prostatic part of the urethra upwards. But when either of the lateral lobes +is enlarged, the urethra becomes bent towards the opposite side. +</p> + +<p> +By dividing the levator ani muscle on both sides of the rectum, F, Fig. 2, +Plate 53, and detaching and depressing this from the perinaeal centre, the +prostate, C C, and base of the bladder, P, are brought into view. The pelvic +fascia may be now felt reflected from the inner surface of the levator ani +muscle to the bladder at a level corresponding with the base of the prostate, +and the neck of the bladder in front, and the vesiculae seminales, N N, +laterally. In this manner the pelvic fascia serves to insulate the perinaeal +space from the pelvic cavity. The prostate occupies the centre of the +perinaeum. If the perinaeum were to be penetrated at a point midway between the +bulb of the urethra and the anus, and to the depth of two inches straight +backwards, the instrument would transfix the apex of the gland. Its left lobe +lies directly under the middle of the line of incision which the lithotomist +makes through the surface; a fibrous membrane forms a capsule for the gland, +and renders its surface tough and unyielding, but its proper substance is +friable, and may be lacerated or dilated with ease, after having partly incised +its fibrous envelope. The membranous part of the urethra, M, Fig. 2, Plate 53, +enters the apex of the prostate, and traverses this part in a line, nearer to +the upper than to the under surface; and that portion of the canal which the +gland surrounds, is named prostatic. The prostate is separated from the pudic +artery by the levator ani muscle, and from the artery of the bulb, by the deep +perinaeal fascia and the muscular fibres enclosed between its two layers. +</p> + +<p> +The prostate being a median structure, is formed of two lobes, united at the +median line. The bulbus urethrae being also a median structure, is occasionally +found notched in the centre, and presenting a bifid appearance. On the base of +the bladder, P, Fig. 2, Plate 53, the two vasa deferentia, Q Q, are seen to +converge from behind forwards, and enter the base of the gland; a triangular +interval is thus formed between the vasa, narrower before than behind, and at +the middle of this place the point of the trocar is to be passed (through the +rectum,) for the purpose of evacuating the contents of the bladder, when other +measures fail. When this operation is required to be performed, the situation +of the prostate is first to be ascertained through the bowel; and at a distance +of an inch behind the posterior border of the gland, precisely in the median +line, the distended base of the bladder may be safely punctured. If the trocar +pierce the bladder at this point, the seminal vessels converging to the +prostate from either side, and the recto-vesical serous pouch behind, will +escape being wounded. If the prostate happen to be much enlarged, the relative +position of the neighbouring parts will be found disturbed, and in such case +the bladder can be punctured above the pubes with greater ease and safety. In +cases of <i>impassable</i> stricture, when extravasation of urine is +threatened, or has already occurred, the urethra should be opened in the +perinaeum behind the place where the stricture is situated, and this (in the +present instance) certainly seems to be the more effectual measure, for at the +same time that the stricture is divided, the contents of the bladder may be +evacuated through the perinaeum. If the membranous part of the urethra be that +where the stricture exists, a staff with a central groove is to be passed as +far as the strictured part, and having ascertained the position of the +instrument by the finger in the bowel, the perinaeum should be incised, at the +middle line, between the bulb of the urethra and the anus. The urethra in this +situation will be found to curve backwards at the depth of an inch or more from +the surface. The point of the staff is now to be felt for, and the urethra is +to be incised upon it. The bistoury is next to be carried backwards through the +stricture till it enters that part of the urethra (usually dilated in such +cases) which intervenes between the seat of obstruction and the neck of the +bladder. +</p> + +<p> +The lateral operation of lithotomy is to be performed according to the above +described anatomical relations of the parts concerned. The bowel being empty +and the bladder moderately full, a staff with a groove in its left side is to +be passed by the urethra into the bladder. The position and size of the +prostate is next to be ascertained by the left fore-finger in the rectum. +Having now explored the surface of the perinaeum in order to determine the +situation of the left tuberosity and ischio-pubic ramus, in relation to the +perinaeal middle line, the staff being held steadily against the symphysis +pubis, the operator proceeds to divide the skin and superficial fascia on the +left side of the perinaeum, commencing the incision on the left of the raphe +about an inch in front of the anus, and carrying it downwards and outwards +midway between the anus and ischiatic tuberosity, to a point below these parts. +The left fore-finger is then to be passed along the incision for the purpose of +parting the loose cellular tissue; and any of the more resisting structures, +such as the transverse and levator ani muscles, are to be divided by the knife. +Deep in the forepart of the wound, the position of the staff is now to be felt +for, and the structures which cover the membranous portion of the urethra are +to be cautiously divided. Recollecting now that the artery of the bulb passes +anterior to the staff in the urethra on a level with the bulb, the vessel is to +be avoided by inserting the point of the knife in the groove of the staff as +far backwards—that is, as near the apex of the prostate—as possible. The point +of the knife having been inserted in the groove of the staff, the bowel is then +to be depressed by the left fore-finger; and now the knife, with its back to +the staff, and its edge lateralized (towards the lower part of the left tuber +ischii), is to be pushed steadily along the groove in the direction of the +staff, and made to divide the membranous part of the urethra and the anterior +two-thirds of the left lobe of the prostate. The gland must necessarily be +divided to this extent if the part of the urethra which it surrounds be +traversed by the knife. The extent to which the prostate is divided depends +upon the degree of the angle which the knife, passing along the urethra, makes +with the staff. The greater this angle is, the greater the extent to which the +gland will be incised. The knife being next withdrawn, the left fore-finger is +to be passed through the opening into the bladder, and the parts are to be +dilated by the finger as it proceeds, guided by the staff. The staff is now to +be removed while the point of the finger is in the neck of the bladder, and the +forceps is to be passed into the bladder along the finger as a guide. The +calculus, now in the grip of the forceps, is to be extracted by a slow +undulating motion. +</p> + +<p> +The general rules to be remembered and adopted in performing the operation of +lithotomy are as follow:—1st, The incision through the skin and sub-cutaneous +cellular membrane should be freely made, in order that the stone may be easily +extracted and the urine have ready egress. The incision which (judging from the +anatomical relations of the parts) appears to be best calculated to effect +these objects, is one which would extend from a point an inch above the anus to +a point in the posterior perinaeal space an inch or more below the anus. The +wound thus made would <i>depend in relation to the neck of the bladder;</i> the +important parts, vessels, &c., in the anterior perinaeal space would be +avoided where the incision, if extended upwards, would have no effect whatever +in facilitating the extraction of the stone or the egress of the urine; and +what is also of prime importance, the external opening would directly +correspond with the incision through the prostate and neck of the bladder. 2nd, +After the incision through the skin and superficial fascia is made, the +operator should separate as many of the deeper structures as will admit of it, +by the finger rather than by the knife; and especially use the knife cautiously +towards the extremities of the wound, so as to avoid the artery of the bulb, +and the bulb itself in the upper part, and the rectum below. The pudic artery +will not be endangered if the deeper parts be divided by the knife, with its +edge directed downwards and outwards, while its point slides securely along the +staff in the prostate. 3rd, The prostate should be incised sparingly, for, in +addition to the known fact that the gland when only partly cut admits of +dilatation to a degree sufficient to admit the passage of even a stone of large +size, it is also stated upon high authority that by incising the prostate and +neck of the bladder to a length equal to the diameter of the stone, such a +proceeding is more frequently followed with disastrous results, owing to the +circumstance that the pelvic fascia being divided at the place where it is +reflected upon the base of the gland and the side and neck of the bladder, +allows the urine to infiltrate the cellular tissue of the pelvis. [Footnote] +</p> + +<p> +[Footnote: “The object in following this method,” Mr. Liston observes, “is to +avoid all interference with the reflexion of the ilio-vesical fascia from the +sides of the pelvic cavity over the base of the gland and side of the bladder. +If this natural boundary betwixt the external and internal cellular tissue is +broken up, there is scarcely a possibility of preventing infiltration of the +urine, which must almost certainly prove fatal. The prostate and other parts +around the neck of the bladder are very elastic and yielding, so that without +much solution of their continuity, and without the least laceration, the +opening can be so dilated as to admit the fore-finger readily through the same +wound; the forceps can be introduced upon this as a guide, and they can also be +removed along with a stone of considerable dimensions, say from three to nearly +five inches in circumference, in one direction, and from four to six in the +largest.”—<i>Practical Surgery</i>, page 510. This doctrine (founded, no doubt, +on Mr. Liston’s own great experience) coincides with that first expressed by +Scarpa, Le Cat, and others. Sir Benjamin Brodie, Mr. Stanley, and Mr. Syme are +also advocates for limited incisions, extending no farther than a partial +division of the prostate, the rest being effected by dilatation. The +experience, however, of Cheselden, Martineau, and Mr. S. Cooper, inclined them +in favour of a rather free incision of the prostate and neck of the bladder +proportioned to the size of the calculus, so that this may be extracted freely, +without lacerating or contusing the parts, “and,” says the distinguished +lithotomist Klein, “upon this basis rests the success of my operations; and +hence I invariably make it a rule to let the incision be rather too large than +too small, and never to dilate it with any blunt instrument when it happens to +be too diminutive, but to enlarge it with a knife, introduced, if necessary, +several times.”—<i>Practische Ansichten der Bedeutendsten Chirurgische +Operationen</i>. Opinions of the highest authority being thus opposed, in +reference to the question whether free or limited incisions in the neck of the +bladder are followed respectively by the greater number of fatal or favourable +results, and these being thought mainly to depend upon whether the pelvic +fascia be opened or not, one need not hesitate to conclude, that since facts +seem to be noticed in support of both modes of practice equally, the issue of +the cases themselves must really be dependent upon other circumstances, such as +the state of the constitution, the state of the bladder, and the relative +position of the internal and external incisions. “Some individuals (observes +Sir B. Brodie) are good subjects for the operation, and recover perhaps without +a bad symptom, although the operation may have been very indifferently +performed. Others may be truly said to be bad subjects, and die, even though +the operation be performed in the most perfect manner. What is it that +constitutes the essential difference between these two classes of cases? It is, +according to my experience, the presence or absence of organic +disease.”—<i>Diseases of the Urinary Organs</i>.] +</p> + +<p> +The position in which the staff is held while the membranous urethra and +prostate are being divided should be regulated by the operator himself. If he +requires the perinaeum to be protruded and the urethra directed towards the +place of the incision, he can effect this by depressing the handle of the +instrument a little towards the right groin, taking care at the same time that +the point is kept beyond the prostate in the interior of the bladder. +</p> + +<h4>DESCRIPTION OF THE FIGURES OF PLATES 52 & 53.</h4> + +<p> +PLATE 52. +</p> + +<p> +FIGURE 1. +</p> + +<p> +A. The urethra. +</p> + +<p> +B. Accelerator urinae muscle. +</p> + +<p> +C. Central perinaeal tendon. +</p> + +<p> +D D. Right and left erector penis muscle. +</p> + +<p> +E E. The transverse muscles. +</p> + +<p> +F. The anus. +</p> + +<p> +G G. The ischiatic tuberosities. +</p> + +<p> +H. The coccyx. +</p> + +<p> +I I. The glutei muscles. +</p> + +<p> +K K. The levator ani muscle. +</p> + +<p> +L. The left artery of the bulb. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/120P52F1_25.jpg"> +<img src="images/120P52F1_25.jpg" width="565" height="600" alt="Illustration:" /></a> +<p class="caption">Plate 52.—Figure 1</p> +</div> + +<p> +FIGURE 2. +</p> + +<p> +A, D, F, G, H, I, K, L refer to the same parts as in Fig. 1, Plate 52. +</p> + +<p> +B. The urethra. +</p> + +<p> +C. Cowper’s glands between the two layers of— +</p> + +<p> +E. The deep perinaeal fascia. +</p> + +<p> +M. The bulb of the urethra. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/120P52F2_25.jpg"> +<img src="images/120P52F2_25.jpg" width="558" height="600" alt="Illustration:" /></a> +<p class="caption">Plate 52.—Figure 2</p> +</div> + +<p> +PLATE 53. +</p> + +<p> +FIGURE 1. +</p> + +<p> +A, B, C, E, F, G, H, I, K, L refer to the same parts as in Fig. 2, Plate 52. +</p> + +<p> +D D. The two crura penis. +</p> + +<p> +M. The urethra in section +</p> + +<p> +N N. The rectum. +</p> + +<p> +O. The sacro-sciatic ligament. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/120P53F1_25.jpg"> +<img src="images/120P53F1_25.jpg" width="529" height="600" alt="Illustration:" /></a> +<p class="caption">Plate 53.—Figure 1</p> +</div> + +<p> +FIGURE 2. +</p> + +<p> +A, B, D, G, H, I, K, L, O refer to the same parts as in Fig. 1, Plate 53. +</p> + +<p> +C C. The two lobes of the prostate. +</p> + +<p> +F. The rectum turned down. +</p> + +<p> +M. The membranous part of the urethra. +</p> + +<p> +N N. The vesiculae seminales. +</p> + +<p> +P. The base of the bladder. +</p> + +<p> +Q Q. The two vasa deferentia. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/120P53F2_25.jpg"> +<img src="images/120P53F2_25.jpg" width="538" height="600" alt="Illustration:" /></a> +<p class="caption">Plate 53.—Figure 2.</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap29"></a>COMMENTARY ON PLATES 54, 55, & 56.</h2> + +<p> +THE SURGICAL DISSECTION OF THE MALE BLADDER AND URETHRA.—LATERAL AND BILATERAL +LITHOTOMY COMPARED. +</p> + +<p> +Having examined the surgical relations of the bladder and adjacent structures, +in reference to the lateral operation of lithotomy, it remains to reconsider +these same parts as they are concerned in the bilateral operation and in +catheterism. +</p> + +<p> +Fig. 1, Plate 54, represents the normal relations of the more important parts +concerned in lithotomy as performed at the perinaeal region. The median line, +AA, drawn from the symphysis pubis above, to the point of the coccyx below, is +seen to traverse vertically the centres of the urethra, the prostate, the base +of the bladder, the anus, and the rectum. These several parts are situated at +different depths from the perinaeal surface. The bulb of the urethra and the +lower end of the bowel are on the same plane comparatively superficial. The +prostate lies between these two parts, and on a plane deeper than they. The +base of the bladder is still more deeply situated than the prostate; and hence +it is that the end of the bowel is allowed to advance so near the pendent bulb, +that those parts are in a great measure concealed by these. As the apex of the +prostate lies an inch (more or less) deeper than the bulb, so the direction of +the membranous urethra, which intervenes between the two, is according to the +axis of the pelvic outlet; the prostatic end of the membranous urethra being +deeper than the part near the bulb. The scalpel of the lithotomist, guided by +the staff in this part of the urethra, is made to enter the neck of the bladder +<i>deeply</i> in the same direction. On comparing the course of the pudic +arteries with the median line, A A, we find that they are removed from it at a +wider interval below than above; and also that where the vessels first enter +the perinaeal space, winding around the spines of the ischia, they are much +deeper in this situation (on a level with the base of the bladder) than they +are when arrived opposite the bulb of the urethra. The transverse line B B, +drawn in front of the anus from one tuber ischii to the other, is seen to +divide the perinaeum into the anterior and posterior spaces, and to intersect +at right angles the median line A A. In the same way the line B B divides +transversely both pudic arteries, the front of the bowel, the base of the +prostate, and the sides of the neck of the bladder. Lateral lithotomy is +performed in reference to the line A A; the bilateral operation in regard to +the line B B. In order to avoid the bulb and rectum at the median line, and the +pudic artery at the outer side of the perinaeum, the lateral incisions are made +obliquely in the direction of the lines CD. In the bilateral operation the +incision necessary to avoid the bulb of the urethra in front, the rectum +behind, and the pudic arteries laterally, is required to be made of a +semicircular form, corresponding with the forepart of the bowel; the cornua of +the incision being directed behind. In the lateral operation, the incision C +through the integument, crosses at an acute angle the deeper incision D, which +divides the neck of the bladder, the prostate, &c. The left lobe of the +prostate is divided obliquely in the lateral operation; both lobes transversely +in the bilateral. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/124P54F1_25.jpg"> +<img src="images/124P54F1_25.jpg" width="488" height="500" alt="Illustration:" /></a> +<p class="caption">Plate 54, Figure 1.</p> +</div> + +<p> +Fig. 2, Plate 54.—If the artery of the bulb happen to arise from the pudic +opposite the tuber ischii, or if the inferior hemorrhoidal arteries be larger +than usual, these vessels crossing the lines of incision in both operations +will be divided. If the superficial lateral incision C, Fig. 1, be made too +deeply at its forepart, the artery of the bulb, even when in its usual place, +will be wounded; and if the deep lateral incision D be carried too far +outwards, the trunk of the pudic artery will be severed. These accidents are +incidental in the bilateral operation also, in performing which it should be +remembered that the bulb is in some instances so large and pendulous, as to lie +in contact with the front of the rectum. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/124P54F2_25.jpg"> +<img src="images/124P54F2_25.jpg" width="536" height="500" alt="Illustration:" /></a> +<p class="caption">Plate 54, Figure 2.</p> +</div> + +<p> +Fig. 1, Plate 55.—When the pudic artery crosses in contact with the prostate, +F, it must inevitably be divided in either mode of operation. Judging from the +shape of the prostate, I am of opinion that this part, whether incised +transversely in the line B B, or laterally in the line D, will exhibit a wound +in the neck of the bladder of equal dimensions. When the calculus is large, it +is recommended to divide the neck of the bladder by an incision, combined of +the transverse and the lateral. The advantages gained by such a combination +are, that while the surface of the section made in the line D is increased by +“notching” the right lobe of the prostate in the direction of the line B, the +sides of both sections are thereby rendered more readily separable, so as to +suit with the rounded form of the calculus to be extracted. These remarks are +equally applicable as to the mode in which the superficial perinaeal incision +should be made under the like necessity. If the prostate be <i>wholly</i> +divided in either line of section, the pelvic fascia adhering to the base of +this body will be equally subject to danger. By incising the prostate +transversely, B B, the seminal ducts, G H, which enter the base of this body, +are likewise divided; but by the simple lateral incision D being made through +the forepart of the left lobe, F, these ducts will escape injury. [Footnote] On +the whole, therefore, the lateral operation appears preferable to the bilateral +one. +</p> + +<p> +[Footnote: As to the mode in which the superficial and deep incisions in +lateral lithotomy should be made, a very eminent operating surgeon remarks—“a +free incision of the skin I consider a most important feature in the operation; +but beyond this the application of the knife should, in my opinion, be +extremely limited. In so far as I can perceive, there should be no hesitation +in cutting any part of the gland which seems to offer resistance, with the +exception, perhaps, of its under surface, where the position of the seminal +ducts, and other circumstances, should deter the surgeon from using a cutting +instrument.”—Wm. Fergusson, <i>Practical Surgery</i>, 3d Am. Ed., p. 610.] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/124P55F1_25.jpg"> +<img src="images/124P55F1_25.jpg" width="303" height="500" alt="Illustration:" /></a> +<p class="caption">Plate 55—Figure 1.</p> +</div> + +<p> +Fig. 2, Plate 55.—The muscular structures surrounding the membranous urethra +and the neck of the bladder, and which are divided in lithotomy, have been +examined from time to time by anatomists with more than ordinary painstaking, +owing to the circumstance that they are found occasionally to offer, by +spasmodic contraction, an obstacle to the passage of the catheter along the +urethral canal. These muscles do not appear to exist in all subjects alike. In +some, they are altogether wanting; in others, a few of them only appear; in +others, they seem to be not naturally separable from the larger muscles which +are always present. Hence it is that the opinions of anatomists respecting +their form, character, and even their actual existence, are so conflicting, not +only against each other, but against nature. In Fig. 2, Plate 55, I have summed +together all the facts recorded concerning them, [Footnote] and on comparing +these facts with what I have myself observed, the muscles seem to me to assume +originally the form and relative position of the parts B C D E F viewed in +their totality. Each of these parts of muscular structure arises from the +ischio-pubic ramus, and is inserted at the median line A A. They appear to me, +therefore, to be muscles of the same category, which, if all were present, +would assume the serial order of B C D E F. When one or more of them are +omitted from the series, there occurs anatomical variety, which of course +occasions variety in opinion, fruitless though never ending. By that +interpretation of the parts which I here venture to offer, and to which I am +guided by considerations of a higher law of formation, I encompass and bind +together, as with a belt, all the dismembered parts of variety, and of these I +construct a uniform whole. Forms become, when not viewed under comparison, as +meaningless hieroglyphics, as the algebraic symbols <i>a + c - d </i>= 11 are +when the mind is devoid of the power of calculation. +</p> + +<p> +[Footnote: The part C is that alone described by Santorini, who named it +“elevator urethrae,” as passing beneath the urethra. The part B is that first +observed and described by Mr. Guthrie as passing above the urethra. The part F +represents the well-known “transversalis perinaei,” between which and the part +C there occasionally appears the part E, supposed to be the “transversalis +alter” of Albinus, and also the part D, which is the “ischio bulbosus” of +Cruveilhier. It is possible that I may not have given one or other of these +parts its proper name, but this will not affect their anatomy.] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/124P55F2_25.jpg"> +<img src="images/124P55F2_25.jpg" width="344" height="500" alt="Illustration:" /></a> +<p class="caption">Plate 55—Figure 2</p> +</div> + +<p> +Fig. 3, Plate 55.—The membranous urethra A is also in some instances embraced +by two symmetrical fasciculi of muscular fibres B B, which arising from the +posterior and lower part of the symphysis pubis, descend on either side of the +canal and join beneath it. The muscles B C, Fig. 2, Plate 55, are between the +two layers of the deep perinaeal fascia, while the muscle B B, Fig. 3, Plate +55, lies like the forepart of the levator ani, C C, behind this structure and +between it and the anterior ligaments of the bladder. [Footnote] As to the +interpretation of the muscle, I, myself, am inclined to believe that it is +simply a part of the levator ani, and for these reasons—1st, it arises from the +pubic symphysis, and is inserted into the perinaeal median line with the +levator ani; 2nd, the fibres of both muscles overlie the forepart of the +prostate, and present the same arrangement in parallel order; 3rd, the one is +not naturally separable from the other. +</p> + +<p> +[Footnote: This is the muscle, B B, which is described by Santorini as the +“levator prostatae;” by Winslow as “le prostatique superieur;” by Wilson as the +“pubo-urethrales;” by Muller as not existing; by Mr. Guthrie as forming (when +existing), with the parts B C, Fig. 2, Plate 55, his “compressor isthmi +urethrae;” and by M. Cruveilhier as being <i>part of the levator ani +muscle</i>. “As in one case,” (observes Mr. Quain,) “I myself saw a few +vertical muscular fibres connected with the transverse compressor, it has been +thought best to retain the muscle in the text.”—Dr. Quain’s <i>Anat.</i>, Am. +Ed. vol. ii. p. 539.] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/124P55F3_25.jpg"> +<img src="images/124P55F3_25.jpg" width="335" height="500" alt="Illustration:" /></a> +<p class="caption">Plate 55—Figure 3</p> +</div> + +<p> +Fig. 1, Plate 56, represents by section the natural forms of the urethra and +bladder. The general direction of the urethra measured during its relaxed state +from the vesical orifice to the glans is usually described as having the form +of the letter S laid procumbent to the right side [capital S rotated 90 degrees +right] or to the left [capital S rotated 90 degrees left]. But as the anterior +half of the canal is moveable, and liable thereby to obliterate the general +form, while the posterior half is fixed, I shall direct attention to the latter +half chiefly, since upon its peculiar form and relative position depends most +of the difficulty in the performance of catheterism. The portion of the urethra +which intervenes between the neck of the bladder, K, and the point E, where the +penis is suspended from the front of the symphysis pubis by the suspensory +ligament, assumes very nearly the form of a semicircle, whose anterior half +looks towards the forepart, and whose posterior half is turned to the back of +the pubis. The pubic arch, A, spans crossways, the middle of this part of the +urethra, G, opposite the bulb H. The two extremes, F K, of this curve, and the +lower part of the symphysis pubis, occupy in the adult the same +antero-posterior level; and it follows, therefore, that the distance to which +the urethra near its bulb, H, is removed from the pubic symphysis above must +equal the depth of its own curve, which measures about an inch perpendicularly. +The urethral aperture of the triangular ligament appears removed at this +distance below the pubic symphysis, and that portion of the canal which lies +behind the ligament, and ascends obliquely backwards and upwards to the vesical +orifice on a level with the symphysis pubis in the adult should be remembered, +as varying both in direction and length in individuals of the extremes of age. +In the young, this variation is owing to the usual high position of the bladder +in the pelvis, whilst in the old it may be caused by an enlarged state of the +prostate. The curve of the urethra now described is permanent in all positions +of the body, while that portion of the canal anterior to the point F, which is +free, relaxed, and moveable, can by traction towards the umbilicus be made to +continue in the direction of the fixed curve F K, and this is the general form +which the urethra assumes when a bent catheter of ordinary shape is passed +along the canal into the bladder. The length of the urethra varies at different +ages and in different individuals, and its structure in the relaxed state is so +very dilatable that it is not possible to estimate the width of its canal with +fixed accuracy. As a general rule, the urethra is much more dilatable, and +capable consequently of receiving an instrument of much larger bore in the aged +than in the adult. +</p> + +<p> +The three portions into which the urethra is described as being divisible, are +the spongy, the membranous, and the prostatic. These names indicate the +difference in the structure of each part. The spongy portion is the longest of +the three, and extending from the glans to the bulb may be said on a rough, but +for practical purposes, a sufficiently accurate estimate to comprise seven +parts of the whole urethra, which measures nine. The membranous and prostatic +portions measure respectively one part of the whole. These relative proportions +of the three parts are maintained in different individuals of the same age, and +in the same individual at different ages. The spongy part occupies the inferior +groove formed between the two united corpora cavernosa of the penis, and is +subcutaneous as far back as the scrotum under the pubes, between which point +and the bulb it becomes embraced by the accelerator urinae muscle. The bulb and +glans are expansions or enlargements of the spongy texture, and do not affect +the calibre of the canal. When the spongy texture becomes injected with blood, +the canal is rendered much narrower than otherwise. The canal of the urethra is +uniform-cylindrical. The meatus is the narrowest part of it, and the prostatic +part is the widest. At the point of junction between the membranous and spongy +portions behind the bulb, the canal is described as being naturally +constricted. Behind the meatus exists a dilatation (fossa navicularis), and +opposite the bulb another (sinus of the bulb). Muscular fibres are said to +enter into the structure of the urethra, but whether such be the case or not, +it is at least very certain that they never prove an obstacle to the passage of +instruments, or form the variety of stricture known as spasmodic. The urethra +is lined by a delicate mucous membrane presenting longitudinal folds, which +become obliterated by distention; and its entire surface is numerously studded +with the orifices of mucous cells (lacunae), one of which, larger than the +rest, appears on the upper side of the canal near the meatus. Some of these +lacunae are nearly an inch long, and all of them open in an oblique direction +forwards. Instruments having very narrow apices are liable to enter these ducts +and to make false passages. The ducts of Cowper’s glands open by very minute +orifices on the sides of the spongy urethra anterior to and near the bulb. On +the floor of the prostatic urethra appears the crest of the veru montanum, upon +which the two seminal ducts open by orifices directed forwards. On either side +of the veru montanum the floor of the prostate may be seen perforated by the +“excretory ducts” of this so-called <i>gland.</i> The part K, which is here +represented as projecting from the floor of the bladder, near its neck, is +named the “uvula vesicae,” (Lieutaud.) It is the same as that which is named +the “third lobe of the prostate,” (Home.) The part does not appear as proper to +the bladder in the healthy condition, Fig. 2, Plate 56. On either side of the +point K may be seen the orifices, M M, of the ureters, opening upon two ridges +of fibrous substance directed towards the uvula. These are the fibres which +have been named by Sir Charles Bell as “the muscles of the ureters;” but as +they do not appear in the bladder when in a state of health, I do not believe +that nature ever intended them to perform the function assigned to them by this +anatomist. And the same may be said of the fibres, which surrounding the +vesical orifice, are supposed to act as the “sphincter vesicae.” The form of +that portion of the base of the bladder which is named “trigone vesical” +constitutes an equilateral triangle, and may be described by two lines drawn +from the vesical orifice to both openings of the ureters, and another line +reaching transversely between the latter. Behind the trigone a depression +called “bas fond” is formed in the base of the bladder. Fig. 2, Plate 56, +represents the prostate of a boy nine years of age. Fig. 3, Plate 56, +represents that of a man aged forty years. A difference as to form and size, +&c., is observable between both. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/124P56_25.jpg"> +<img src="images/124P56_25.jpg" width="461" height="650" alt="Illustration:" /></a> +<p class="caption">Plate 56—Figure 1, 2, 3</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap30"></a>COMMENTARY ON PLATES 57 & 58.</h2> + +<p> +CONGENITAL AND PATHOLOGICAL DEFORMITIES OF THE PREPUCE AND URETHRA.—STRICTURE +AND MECHANICAL OBSTRUCTIONS OF THE URETHRA. +</p> + +<p> +When any of the central organs of the body presents in a form differing from +that which we term natural, or structurally perfect and efficient, if the +deformity be one which results as a malformation, ascribable to an error in the +law of development, it is always characterized as an excess or defect of the +substance of the organ at, and in reference to, the median line. And when any +of the canals which naturally open upon the external surface at the median line +happens to deviate from its proper position, such deviation, if it be the +result of an error in the law of development, always occurs, by an actual +necessity, at the median line. On the contrary, though deformities which are +the results of diseased action in a central organ may and do, in some +instances, simulate those which occur by an error in the process of +development, the former cannot bear a like interpretation with the latter, for +those are the effects of ever-varying circumstances, whereas these are the +effects of certain deviations in a natural process—a law, whose course is +serial, gradational, and in the sequent order of a continuous chain of cause +and effect. +</p> + +<p> +Fig. 1, Plate 57, represents the prepuce in a state of congenital phymosis. The +part hypertrophied and pendent projects nearly an inch in front of the meatus, +and forms a canal, continued forwards from this orifice. As the prepuce in such +a state becomes devoid of its proper function, and hence must be regarded, not +only as a mere superfluity, but as a cause of impediment to the generative +function of the whole organ, it should be removed by an operation. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P57F1_25.jpg"> +<img src="images/128P57F1_25.jpg" width="209" height="312" alt="Illustration:" /></a> +<p class="caption">Plate 57.—Figure 1.</p> +</div> + +<p> +Fig. 2, Plate 57, represents the prepuce in the condition of paraphymosis +following gonorrhoeal inflammation. The part appears constricting the penis and +urethra behind the corona glandis. This state of the organ is produced in the +following-mentioned way:—the prepuce, naturally very extensible, becomes, while +covering the glans, inflamed, thickened, and its orifice contracted. It is +during this state withdrawn forcibly backwards over the glans, and in this +situation, while being itself the first cause of constriction, it induces +another—namely, an arrest to the venous circulation, which is followed by a +turgescence of the glans. In the treatment of such a case, the indication is, +first, to reduce by gradual pressure the size of the glans, so that the prepuce +may be replaced over it; secondly, to lessen the inflammation by the ordinary +means. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P57F2_25.jpg"> +<img src="images/128P57F2_25.jpg" width="208" height="345" alt="Illustration:" /></a> +<p class="caption">Plate 57.—Figure 2.</p> +</div> + +<p> +Fig. 3, Plate 57, exhibits the form of a gonorrhoeal phymosis. The orifice of +the prepuce is contracted, and the tissue of it infiltrated. If in this state +of the part, consequent upon diseased action, or in that of Fig. 1, which is +congenital, the foreskin be retracted over the glans, a paraphymosis, like Fig. +2, will be produced. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P57F3_25.jpg"> +<img src="images/128P57F3_25.jpg" width="214" height="355" alt="Illustration:" /></a> +<p class="caption">Plate 57.—Figure 3.</p> +</div> + +<p> +Fig. 4, Plate 57, shows a form of phymosis in which the prepuce during +inflammation has become adherent to the whole surface of the glans. The orifice +of the prepuce being directly opposite the meatus, and the parts offering no +obstruction to the flow of urine, an operation for separating the prepuce from +the glans would not be required. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P57F4_25.jpg"> +<img src="images/128P57F4_25.jpg" width="197" height="343" alt="Illustration:" /></a> +<p class="caption">Plate 57.—Figure 4.</p> +</div> + +<p> +Fig. 5, Plate 57.—In this figure is represented the form of the penis of an +adult, in whom the prepuce was removed by circumcision at an early age. The +membrane covering the glans and the part which is cicatrised becomes in these +cases dry, indurated, and deprived of its special sense. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P57F5_25.jpg"> +<img src="images/128P57F5_25.jpg" width="215" height="345" alt="Illustration:" /></a> +<p class="caption">Plate 57.—Figure 5.</p> +</div> + +<p> +Fig. 6, Plate 57.—In this figure the glans appears protruding through the upper +surface of the prepuce, which is thickened and corrugated. This state of the +parts was caused by a venereal ulceration of the upper part of the prepuce, +sufficient to allow the glans to press through the aperture. The prepuce in +this condition being superfluous, and acting as an impediment, should be +removed by operation. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P57F6_25.jpg"> +<img src="images/128P57F6_25.jpg" width="222" height="348" alt="Illustration:" /></a> +<p class="caption">Plate 57.—Figure 6.</p> +</div> + +<p> +Fig. 7, Plate 57.—In this figure is shown a condition of the glans and prepuce +resembling that last mentioned, and the effect of a similar cause. By the +removal of the prepuce when in the position here represented, or in that of +Fig. 6, the organ may be made to assume the appearance of Fig. 5. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P57F7_25.jpg"> +<img src="images/128P57F7_25.jpg" width="286" height="317" alt="Illustration:" /></a> +<p class="caption">Plate 57.—Figure 7.</p> +</div> + +<p> +Fig. 8, Plate 57, represents the form of a congenital hypospadias. The corpus +spongiosum does not continue the canal of the urethra as far forwards as the +usual position of the meatus, but has become defective behind the fraenum +praeputii, leaving the canal open at this place. In a case of this kind an +operation on the taliacotian principle might be tried in order to close the +urethra where it presents abnormally patent. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P57F8_25.jpg"> +<img src="images/128P57F8_25.jpg" width="241" height="332" alt="Illustration:" /></a> +<p class="caption">Plate 57.—Figure 8.</p> +</div> + +<p> +Fig. 9, Plate 57, represents a congenital hypospadias, in which the canal of +the urethra opens by two distinct apertures along the under surface of the +corpus spongiosum at the middle line. A probe traverses both apertures. In such +a case, if the canal of the urethra were perforate as far forwards as the +meatus, and this latter in its normal position, the two false openings should +be closed by an operation. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P57F9_25.jpg"> +<img src="images/128P57F9_25.jpg" width="299" height="334" alt="Illustration:" /></a> +<p class="caption">Plate 57.—Figure 9.</p> +</div> + +<p> +Fig. 10, Plate 57.—The urethra is here represented as having a false opening on +its under surface behind the fraenum. The perforation was caused by a venereal +ulcer. The meatus and urethra anterior to the false aperture remained +perforate. Part of a bougie appears traversing the false opening and the +meatus. In this state of the organ an attempt should be made to close the false +aperture permanently. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P57F10_25.jpg"> +<img src="images/128P57F10_25.jpg" width="229" height="321" alt="Illustration:" /></a> +<p class="caption">Plate 57.—Figure 10.</p> +</div> + +<p> +Fig. 11, Plate 57, shows a state of the urethra similar to that of Fig. 10, and +the effect of the same cause. Part of a bougie is seen traversing the false +aperture from the meatus before to the urethra behind. In this case, as the +whole substance of the corpus spongiosum was destroyed for half an inch in +extent, the taliacotian operation, by which lost quantity is supplied, is the +measure most likely to succeed in closing the canal. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P57F11_25.jpg"> +<img src="images/128P57F11_25.jpg" width="249" height="424" alt="Illustration:" /></a> +<p class="caption">Plate 57.—Figure 11</p> +</div> + +<p> +Fig. 12, Plate 57.—Behind the meatus, and on the right of the fraenum, is +represented a perforation in the urethra, caused by a venereal ulcer. The +meatus and the false opening have approached by the contraction of the +cicatrix; in consequence of which, also, the apex of the glans is distorted +towards the urethra; a bougie introduced by the meatus occupies the urethral +canal. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P57F12_25.jpg"> +<img src="images/128P57F12_25.jpg" width="176" height="384" alt="Illustration:" /></a> +<p class="caption">Plate 57.—Figure 12.</p> +</div> + +<p> +Fig. 13, Plate 57.—In this figure the canal of the urethra appears turning +upwards and opening at the median line behind the corona glandis. This state of +the urethra was caused by a venereal ulcer penetrating the canal from the +dorsum of the penis. The proper direction of the canal might be restored by +obliterating the false passage, provided the urethra remained perforate in the +direction of the meatus. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P57F13_25.jpg"> +<img src="images/128P57F13_25.jpg" width="253" height="353" alt="Illustration:" /></a> +<p class="caption">Plate 57.—Figure 13.</p> +</div> + +<p> +Fig. 14, Plate 57, exhibits the form of a congenital epispadias, in which the +urethra is seen to open on the dorsal surface of the prepuce at the median +line. The glans appears cleft and deformed. The meatus is deficient at its +usual place. The prepuce at the dorsum is in part deficient, and bound to the +glans around the abnormal orifice. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P57F14_25.jpg"> +<img src="images/128P57F14_25.jpg" width="242" height="324" alt="Illustration:" /></a> +<p class="caption">Plate 57.—Figure 14.</p> +</div> + +<p> +Fig. 15, Plate 57, represents in section a state of the parts in which the +urethra opened externally by one fistulous aperture, <i>a,</i> behind the +scrotum; and by another, <i>b,</i> in front of the scrotum. At the latter place +the canal beneath the penis became imperforate for an inch in extent. Parts of +catheters are seen to enter the urethra through the fistulous openings<i> a +b;</i> and another instrument, <i>c,</i> is seen to pass by the proper meatus +into the urethra as far as the point where this portion of the canal fails to +communicate with the other. The under part of the scrotum presents a cleft +corresponding with the situation of the scrotal septum. This state of the +urinary passage may be the effect either of congenital deficiency or of +disease. When caused by disease, the chief features in its history, taking +these in the order of their occurrence, are, 1st, a stricture in the anterior +part of the urethra; 2ndly, a rupture of this canal behind the stricture; +3rdly, the formation (on an abscess opening externally) of a fistulous +communication between the canal and the surface of some part of the perinaeum; +4thly, the habitual escape of the urine by the false aperture; 5thly, the +obliteration of the canal to a greater or less extent anterior to the +stricture; 6thly, the parts situated near the urethral fistula become so +consolidated and confused that it is difficult in some and impossible in many +cases to find the situation of the urethra, either by external examination or +by means of the catheter passed into the canal. The original seat of the +stricture becomes so masked by the surrounding disease, and the stricture +itself, even if found by any chance, is generally of so impassable a kind, that +it must be confessed there are few operations in surgery more irksome to a +looker-on than is the fruitless effort made, in such a state of the parts, by a +hand without a guide, to pass perforce a blunt pointed instrument like a +catheter into the bladder. In some instances the stricture is slightly +pervious, the urine passing in small quantity by the meatus. In others, the +stricture is rendered wholly imperforate, and the canal either contracted or +nearly obliterated anteriorly through disuse. Of these two conditions, the +first is that in which catheterism may be tried with any reasonable hope of +passing the instrument into the bladder. In the latter state, catheterism is +useless, and the only means whereby the urethra may be rendered pervious in the +proper direction is that of incising the stricture from the perinaeum, and +after passing a catheter across the divided part into the bladder, to retain +the instrument in this situation till the wound and the fistulae heal and close +under the treatment proper for this end. (Mr. Syme.) +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P57F15_25.jpg"> +<img src="images/128P57F15_25.jpg" width="600" height="393" alt="Illustration:" /></a> +<p class="caption">Plate 57.—Figure 15.</p> +</div> + +<p> +Fig. 1, Plate 58.—In this figure the urethra appears communicating with a sac +like a scrotum. A bougie is represented entering by the meatus, traversing the +upper part of the sac, and passing into the membranous part of the urethra +beyond. This case which was owing to a congenital malformation of the urethra, +exhibits a dilatation of the canal such as might be produced behind a stricture +wherever situated. The urine impelled forcibly by the whole action of the +abdominal muscles against the obstructing part dilates the urethra behind the +stricture, and by a repetition of such force the part gradually yields more and +more, till it attains a very large size, and protrudes at the perinaeum as a +distinct fluctuating tumour, every time that an effort is made to void the +bladder. If the stricture in such a case happen to cause a complete retention +of urine, and that a catheter cannot be passed into the bladder, the tumour +should be punctured prior to taking measures for the removal of the stricture. +(Sir B. Brodie.) +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P58F1_25.jpg"> +<img src="images/128P58F1_25.jpg" width="521" height="321" alt="Illustration:" /></a> +<p class="caption">Plate 58.—Figure 1.</p> +</div> + +<p> +Fig. 2, Plate 58, represents two close strictures of the urethra, one of which +is situated at the bulb, and the other at the adjoining membranous part. These +are the two situations in which strictures of the organic kind are said most +frequently to occur, (Hunter, Home, Cooper, Brodie, Phillips, Velpeau.) False +passages likewise are mentioned as more liable to be made in these places than +elsewhere in the urethral canal. These occurrences—the disease and the +accident—would seem to follow each other closely, like cause and consequence. +The frequency with which false passages occur in this situation appears to me +to be chiefly owing to the anatomical fact, that the urethra at and close to +the bulb is the most dependent part of the curve, F K, Fig. 1, Plate 56; and +hence, that instruments descending to this part from before push forcibly +against the urethra, and are more apt to protrude through it than to have their +points turned so as to ascend the curve towards the neck of the bladder. If it +be also true that strictures happen here more frequently than elsewhere, this +circumstance will of course favour the accident. An additional cause why the +catheter happens to be frequently arrested at this situation and to perforate +the canal, is owing to the fact, that the triangular ligament is liable to +oppose it, the urethral opening in this structure not happening to coincide +with the direction of the point of the instrument. In the figure, part of a +bougie traverses the urethra through both strictures and lodges upon the +enlarged prostate. Another instrument, after entering the first stricture, +occupies a false passage which was made in the canal between the two +constricted parts. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P58F2_25.jpg"> +<img src="images/128P58F2_25.jpg" width="234" height="500" alt="Illustration:" /></a> +<p class="caption">Plate 58.—Figure 2.</p> +</div> + +<p> +Fig. 3, Plate 58.—A calculus is here represented lodging in the urethra at the +bulb. The walls of the urethra around the calculus appear thickened. Behind the +obstructing body the canal has become dilated, and, in front of it, contracted. +In some instances the calculus presents a perforation through its centre, by +which the urine escapes. In others, the urine makes its exit between the +calculus and the side of the urethra, which it dilates. In this latter way the +foreign body becomes loosened in the canal and gradually pushed forwards as far +as the meatus, within which, owing to the narrowness of this aperture, it +lodges permanently. If the calculus forms a complete obstruction to the passage +of the urine, and its removal cannot be effected by other means, an incision +should be made to effect this object. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P58F3_25.jpg"> +<img src="images/128P58F3_25.jpg" width="213" height="500" alt="Illustration:" /></a> +<p class="caption">Plate 58.—Figure 3.</p> +</div> + +<p> +Fig. 4, Plate 58, represents the neck of the bladder and neighbouring part of +the urethra of an ox, in which a polypous growth is seen attached by a long +pedicle to the veru montanum and blocking up the neck of the bladder. Small +irregular tubercles of organized lymph, and tumours formed by the lacunae +distended by their own secretion, their orifices being closed by inflammation, +are also found to obstruct the urethral canal. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P58F4_25.jpg"> +<img src="images/128P58F4_25.jpg" width="253" height="490" alt="Illustration:" /></a> +<p class="caption">Plate 58.—Figure 4.</p> +</div> + +<p> +Fig. 5, Plate 58.—In this figure is represented a small calculus impacted in +and dilating the membranous part of the urethra. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P58F5_25.jpg"> +<img src="images/128P58F5_25.jpg" width="234" height="459" alt="Illustration:" /></a> +<p class="caption">Plate 58.—Figure 5.</p> +</div> + +<p> +Fig. 6, Plate 58.—Two strictures are here shown to exist in the urethra, one of +which is situated immediately in front of the bulb, and the other at a point +midway between the bulb and the meatus. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P58F6_25.jpg"> +<img src="images/128P58F6_25.jpg" width="500" height="185" alt="Illustration:" /></a> +<p class="caption">Plate 58.—Figure 6.</p> +</div> + +<p> +Fig. 7, Plate 58.—A stricture is here shown situated at the bulb. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P58F7_25.jpg"> +<img src="images/128P58F7_25.jpg" width="321" height="177" alt="Illustration:" /></a> +<p class="caption">Plate 58.—Figure 7.</p> +</div> + +<p> +Fig. 8, Plate 58, represents a stricture of the canal in front of the bulb. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P58F8_25.jpg"> +<img src="images/128P58F8_25.jpg" width="244" height="138" alt="Illustration:" /></a> +<p class="caption">Plate 58.—Figure 8.</p> +</div> + +<p> +Fig. 9, Plate 58, represents the form of an old callous stricture half an inch +long, situated midway between the bulb and the meatus. This is perhaps the most +common site in which a stricture of this kind is found to exist. In some +instances of old neglected cases the corpus spongiosum appears converted into a +thick gristly cartilaginous mass, <i>several inches in extent</i>, the passage +here being very much contracted, and chiefly so at the middle of the stricture. +When it becomes impossible to dilate or pass the canal of such a stricture by +the ordinary means, it is recommended to divide the part by the lancetted +stilette. (Stafford.) Division of the stricture, by any means, is no doubt the +readiest and most effectual measure that can be adopted, provided we know +clearly that the cutting instrument engages fairly the part to be divided. But +this is a knowledge less likely to be attained if the stricture be situated +behind than in front of the triangular ligament. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P58F9_25.jpg"> +<img src="images/128P58F9_25.jpg" width="156" height="500" alt="Illustration:" /></a> +<p class="caption">Plate 58.—Figure 9.</p> +</div> + +<p> +Fig. 10, Plate 58, exhibits a lateral view of the muscular parts which surround +the membranous portion of the urethra and the prostate; <i>a</i>, the +membranous urethra embraced by the compressor urethrae muscle; <i>b</i>, the +levator prostatae muscle; <i>c</i>, the prostate; <i>d</i>, the anterior +ligament of the bladder. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P58F10_25.jpg"> +<img src="images/128P58F10_25.jpg" width="455" height="422" alt="Illustration:" /></a> +<p class="caption">Plate 58.—Figure 10.</p> +</div> + +<p> +Fig. 11, Plate 58.—A posterior view of the parts seen in Fig. 10; <i>a,</i> the +urethra divided in front of the prostate; <i>b b</i>, the levator prostatae +muscle; <i>c c,</i> the compressor urethrae; <i>d d</i>, parts of the obturator +muscles; <i>e e</i>, the anterior fibres of the levator ani muscle;<i> f g</i>, +the triangular ligament enclosing between its layers the artery of the bulb, +Cowper’s glands, the membranous urethra, and the muscular parts surrounding +this portion of the canal. The fact that the flow of urine through the urethra +happens occasionally to be <i>suddenly</i> arrested, and this circumstance +contrasted with the opposite fact that the organic stricture is of <i>slow +formation,</i> originated the idea that the former occurrence arose from a +spasmodic muscular contraction. By many this spasm was <i>supposed</i> to be +due to the urethra being itself muscular. By others, it was <i>demonstrated</i> +as being dependent upon the muscles which surround the membranous part of the +urethra, and which act upon this part and constrict it. From my own +observations I have formed the settled opinion that the urethra itself is not +muscular. And though, on the one hand, I believe that this canal, <i>per +se,</i> never causes by active contraction the spasmodic form of stricture, I +am far from supposing, on the other, that <i>all</i> sudden arrests to the +passage of urine through the urethra are solely attributable to spasm of the +muscles which embrace this canal. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/128P58F11_25.jpg"> +<img src="images/128P58F11_25.jpg" width="455" height="446" alt="Illustration:" /></a> +<p class="caption">Plate 58.—Figure 11.</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap31"></a>COMMENTARY ON PLATES 59 & 60.</h2> + +<p> +THE VARIOUS FORMS AND POSITIONS OF STRICTURES AND OTHER OBSTRUCTIONS OF THE +URETHRA.—FALSE PASSAGES.—ENLARGEMENTS AND DEFORMITIES OF THE PROSTATE. +</p> + +<p> +Impediments to the passage of the urine through the urethra may arise from +different causes, such as the impaction of a small calculus in the canal, or +any morbid growth (a polypus, &c.) being situated therein, or from an +abscess which, though forming externally to the urethra, may press upon this +tube so as either to obstruct it partially, by bending one of its sides towards +the other, or completely, by surrounding the canal on all sides. These causes +of obstruction may happen in any part of the urethra, but there are two others +(the prostatic and the spasmodic) which are, owing to anatomical circumstances, +necessarily confined to the posterior two-thirds of the urethra. The portion of +the urethra surrounded by the prostate can alone be obstructed by this body +when it has become irregularly enlarged, while the spasmodic stricture can only +happen to the membranous portion of the urethra, and to an inch or two of the +canal anterior to the bulb, these being the parts which are embraced by +muscular structures. The urethra itself not being muscular, cannot give rise to +the spasmodic form of stricture. But that kind of obstruction which is common +to all parts of the urethra, and which is dependent, as well upon the +structures of which the canal is uniformly composed, as upon the circumstance +that inflammation may attack these in any situation and produce the same +effect, is the permanent or organic stricture. Of this disease the forms are as +various as the situations are, for as certainly as it may reasonably be +supposed that the plastic lymph, effused in an inflamed state of the urethra +from any cause, does not give rise to stricture of any special or particular +form, exclusive of all others; so as certainly may it be inferred that, in a +structurally uniform canal, inflammation points to no one particular place of +it, whereat by preference to establish the organic stricture. The membranous +part of the canal is, however, mentioned as being the situation most prone to +the disease; but I have little doubt, nevertheless, that owing to general rules +of this kind being taken for granted, upon imposing authority, many more +serious evils (false passages, &c.) have been effected by catheterism than +existed previous to the performance of this operation.[Footnote] +</p> + +<p> +[Footnote: Home describes “a natural constriction of the urethra, directly +behind the bulb, which is probably formed with a power of contraction to +prevent,” &c. This is the part which he says is “most liable to the disease +of stricture.” (<i>Strictures of the Urethra</i>.) Now, if anyone, even among +the acute observing microscopists, can discern the structure to which Home +alludes, he will certainly prove this anatomist to be a marked exception +amongst those who, for the enforcement of any doctrine, can see any thing or +phenomenon they wish to see. And, if Hunter were as the mirror from which +Home’s mind was reflected, then the observation must be imputed to the Great +Original. Upon the question, however, as to which is the most frequent seat of +stricture, I find that both these anatomists do not agree, Hunter stating that +its usual seat is just in front of the bulb, while Home regrets, as it were, to +be obliged to differ from “his immortal friend,” and avers its seat to be an +infinitesimal degree behind the bulb. Sir A. Cooper again, though arguing that +the most usual situation of stricture is that mentioned by Hunter, names, as +next in order of frequency, strictures of the membranous and prostatic parts of +the urethra. Does it not appear strange now, how questions of this import +should have occupied so much of the serious attention of our great +predecessors, and of those, too, who at the present time form the vanguard of +the ranks of science? Upon what circumstance, either anatomical or +pathological, can one part of the urethra be more liable to the organic +stricture than another?] +</p> + +<p> +Figs. 1 and 2, Plate 59.—In these figures are presented seven forms of organic +stricture occurring, in different parts of the urethra. In <i>a</i>, Fig. 1, +the mucous membrane is thrown into a sharp circular fold, in the centre of +which the canal, appears much contracted; a section of this stricture appears +in <i>b,</i> Fig. 2. In <i>b</i>, Fig. 1, the canal is contracted laterally by +a prominent fold of the mucous membrane at the opposite side. In c, Fig. 1, an +organized band of lymph is stretched across the canal; this stricture is seen +in section in c, Fig. 2. In <i>e</i>, Fig. 1, a stellate band of organized +lymph, attached by pedicles to three sides of the urethra, divides the canal +into three passages. In <i>d</i>, Fig. 1, the canal is seen to be much +contracted towards the left side by a crescentic fold of the lining membrane +projecting from the right. In <i>f,</i> the canal appears contracted by a +circular membrane, perforated in the centre; a section of which is seen at +<i>a</i>, Fig. 2. The form of the organic stricture varies therefore according +to the three following circumstances:—1st. When lymph becomes effused within +the canal upon the surface of the lining mucous membrane, and contracts +adhesions across the canal. 2ndly. When lymph is effused external to the lining +membrane, and projects this inwards, thereby narrowing the diameter of the +canal. 3rdly. When the outer and inner walls of a part of the urethra are +involved in the effused organizable matter, and on contracting towards each +other, encroach at the same time upon the area of the canal. This latter state +presents the form, which is known as the old callous tough stricture, extending +in many instances for an inch or more along the canal. In cases where the +urethra becomes obstructed by tough bands of substance, <i>c e,</i> which cross +the canal directly, the points of flexible catheters, especially if these be of +slender shape, are apt to be bent upon the resisting part, and on pressure +being continued, the operator may be led to suppose that the instrument +traverses the stricture, while it is most probably perforating the wall of the +urethra. But in those cases where the diameter of the canal is circularly +contracted, the stricture generally presents a conical depression in front, +which, receiving the point of the instrument, allows this to enter the central +passage unerringly. A stricture formed by a crescentic septum, such as is seen +in <i>b d</i>, Fig. 1, offers a more effectual obstacle to the passage of a +catheter than the circular septum like <i>a f</i>. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P59F1_25.jpg"> +<img src="images/132P59F1_25.jpg" width="311" height="423" alt="Illustration:" /></a> +<p class="caption">Plate 59. Figure 1</p> +</div> + +<div class="fig" style="width:100%;"> +<a href="images/132P59F2_25.jpg"> +<img src="images/132P59F2_25.jpg" width="250" height="397" alt="Illustration:" /></a> +<p class="caption">Plate 59. Figure 2</p> +</div> + +<p> +Fig. 3, Plate 59.—In this there are seen three separate strictures, <i>a, b, +c</i>, situated in the urethra, anterior to the bulb. In some cases there are +many more strictures (even to the number of six or seven) situated in various +parts of the urethra; and it is observed that when one stricture exists, other +slight tightnesses in different parts of the canal frequently attend it. +(Hunter.) When several strictures occur in various parts of the urethra, they +may occasion as much difficulty in passing an instrument as if the whole canal +between the extreme constrictions were uniformly narrowed. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P59F3_25.jpg"> +<img src="images/132P59F3_25.jpg" width="512" height="116" alt="Illustration:" /></a> +<p class="caption">Plate 59.—Figure 3.</p> +</div> + +<p> +Fig. 4, Plate 59.—In this the canal is constricted at the point <i>a,</i> +midway between the bulb and glans. A false passage has been made under the +urethra by an instrument which passed out of the canal at the point <i>f</i>, +anterior to the stricture <i>a</i>, and re-entered the canal at the point +<i>c,</i> anterior to the bulb. When a false passage of this kind happens to be +made, it will become a permanent outlet for the urine, so long as the stricture +remains. For it can be of no avail that we avoid re-opening the anterior +perforation by the catheter, so long as the urine prevented from flowing by the +natural canal enters the posterior perforation. Measures should be at once +taken to remove the stricture. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P59F4_25.jpg"> +<img src="images/132P59F4_25.jpg" width="503" height="172" alt="Illustration:" /></a> +<p class="caption">Plate 59.—Figure 4.</p> +</div> + +<p> +Fig. 5, Plate 59.—The stricture <i>a</i> appears midway between the bulb and +glans, the area of the passage through the stricture being sufficient only to +admit a bristle to pass. It would seem almost impossible to pass a catheter +through a stricture so close as this, unless by a laceration of the part, +combined with dilatation. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P59F5_25.jpg"> +<img src="images/132P59F5_25.jpg" width="400" height="152" alt="Illustration:" /></a> +<p class="caption">Plate 59.—Figure 5.</p> +</div> + +<p> +Fig. 6, Plate 59.—Two instruments, <i>a, b,</i> have made false passages +beneath the mucous membrane, in a case where no stricture at all existed. The +resistance which the instruments encountered in passing out of the canal having +been mistaken, no doubt, for that of passing through a close stricture. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P59F6_25.jpg"> +<img src="images/132P59F6_25.jpg" width="226" height="500" alt="Illustration:" /></a> +<p class="caption">Plate 59.—Figure 6.</p> +</div> + +<p> +Fig. 7, Plate 59.—A bougie, <i>b b,</i> is seen to perforate the urethra +anterior to the stricture <i>c,</i> situated an inch behind the glans, and +after traversing the substance of the right corpus cavernosum <i>d</i>, for its +whole length, re-enters the neck of the bladder through the body of the +prostate. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P59F7_25.jpg"> +<img src="images/132P59F7_25.jpg" width="143" height="500" alt="Illustration:" /></a> +<p class="caption">Plate 59.—Figure 7.</p> +</div> + +<p> +Fig. 8, Plate 59.—A bougie, <i>c c,</i> appears tearing and passing beneath the +lining membrane, <i>d d</i>, of the prostatic urethra. It is remarked that the +origin of a false passage is in general anterior to the stricture. It may, +however, occur at any part of the canal in which no stricture exists, if the +hand that impels the instrument be not guided by a true knowledge of the form +of the urethra; and perhaps the accident happening from this cause is the more +general rule of the two. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P59F8_25.jpg"> +<img src="images/132P59F8_25.jpg" width="311" height="500" alt="Illustration:" /></a> +<p class="caption">Plate 59.—Figure 8.</p> +</div> <p> +Fig. 9, Plate 59.—Two strictures are represented here, the one, <i>e</i>, close +to the bulb <i>d,</i> the other, <i>f</i>, an inch anterior to this part. In +the prostate, <i>a b</i>, are seen irregularly shaped abscess pits, +communicating with each other, and projecting upwards the floor of this body to +such a degree, that the prostatic canal appears nearly obliterated. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P59F9_25.jpg"> +<img src="images/132P59F9_25.jpg" width="500" height="237" alt="Illustration:" /></a> +<p class="caption">Plate 59.—Figure 9.</p> +</div> + +<p> +Fig. 10, Plate 59.—Two bougies, <i>d e,</i> are seen to enter the upper wall of +the urethra, <i>c</i>, anterior to the prostate, <i>a b.</i> This accident +happens when the handle of a rigid instrument is depressed too soon, with the +object of raising its point over the enlarged third lobe of the prostate. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P59F10_25.jpg"> +<img src="images/132P59F10_25.jpg" width="295" height="470" alt="Illustration:" /></a> +<p class="caption">Plate 59.—Figure 10.</p> +</div> + +<p> +Fig. 11, Plate 59.—Two instruments appear transfixing the prostate, of which +body the three lobes, <i>a, b, c</i>, are much enlarged. The instrument +<i>d</i> perforates the third lobe, <i>a</i>; while the instrument <i>e</i> +penetrates the right lobe, <i>c</i>, and the third lobe, <i>a.</i> This +accident occurs when instruments not possessing the proper prostatic bend are +forcibly pushed forwards against the resistance at the neck of the bladder. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P59F11_25.jpg"> +<img src="images/132P59F11_25.jpg" width="343" height="505" alt="Illustration:" /></a> +<p class="caption">Plate 59.—Figure 11.</p> +</div> + +<p> +Fig. 12, Plate 59.—In this case an instrument, <i>d d</i>, after passing +beneath part of the lining membrane, <i>e e,</i> anterior to the bulb, +penetrates <i>b,</i> the right lobe of the prostate. A second instrument, <i>c +c,</i> penetrates the left lobe. A third smaller instrument, <i>f f,</i> is +seen to pass out of the urethra anterior to the prostate, and after transfixing +the right vesicula seminalis external to the neck of the bladder, enters this +viscus at a point behind the prostate. The resistance which the two larger +instruments met with in penetrating the prostate, made it seem, perhaps, that a +tight stricture existed in this situation, to match which the smaller +instrument, <i>f f,</i> was afterwards passed in the course marked out. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P59F12_25.jpg"> +<img src="images/132P59F12_25.jpg" width="500" height="291" alt="Illustration:" /></a> +<p class="caption">Plate 59.—Figure 12.</p> +</div> + +<p> +Figs. 1 to 5, Plate 60, represent a series of prostates, in which the third +lobe gradually increases in size. In Fig. 1, which shows the healthy state of +the neck of the bladder, unmarked by the prominent lines which are said to +bound the space named “trigone vesical,” or by those which indicate the +position of the “muscles of the ureters,” the third lobe does not exist. In +Fig. 2 it appears as the uvula vesicae, <i>a</i>. In Fig. 3 the part <i>a</i> +is increased, and under the name now of third lobe is seen to contract and bend +upwards the prostatic canal. In Fig. 4 the effect which the growth of the lobe, +<i>a</i>, produces upon the form of the neck of the bladder becomes more +marked, and the part presenting perforations, <i>e e</i>, produced by +instruments, indicates that by its shape it became an obstacle to the egress of +the urine as well as to the entrance of instruments. A calculus of irregular +form is seen to lodge behind the third lobe, and to be out of the reach of the +point of a sound, supposing this to enter the bladder over the apex of the +lobe. In Fig. 5 the three lobes are enlarged, but the third is most so, and +while standing on a narrow pedicle attached to the floor of the prostate, +completely blocks up the neck of the bladder. [Footnote] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P60F1_25.jpg"> +<img src="images/132P60F1_25.jpg" width="317" height="242" alt="Illustration:" /></a> +<p class="caption">Plate 60.—Figure 1</p> +</div> + +<div class="fig" style="width:100%;"> +<a href="images/132P60F2_25.jpg"> +<img src="images/132P60F2_25.jpg" width="399" height="281" alt="Illustration:" /></a> +<p class="caption">Plate 60.—Figure 2</p> +</div> + +<div class="fig" style="width:100%;"> +<a href="images/132P60F3_25.jpg"> +<img src="images/132P60F3_25.jpg" width="312" height="260" alt="Illustration:" /></a> +<p class="caption">Plate 60.—Figure 3</p> +</div> + +<div class="fig" style="width:100%;"> +<a href="images/132P60F4_25.jpg"> +<img src="images/132P60F4_25.jpg" width="342" height="367" alt="Illustration:" /></a> +<p class="caption">Plate 60.—Figure 4</p> +</div> + +<div class="fig" style="width:100%;"> +<a href="images/132P60F5_25.jpg"> +<img src="images/132P60F5_25.jpg" width="358" height="366" alt="Illustration:" /></a> +<p class="caption">Plate 60.—Figure 5</p> +</div> + +<p> +[Footnote: On comparing this series of figures, it must appear that the third +lobe of the prostate is the product of diseased action, in so far at least as +an unnatural hypertrophy of a part may be so designated. It is not proper to +the bladder in the healthy state of this organ, and where it does manifest +itself by increase it performs no healthy function in the economy. When Home, +therefore, described this part as a new fact in anatomy, he had in reality as +little reason for so doing as he would have had in naming any other tumour, a +thing unknown to normal anatomy. Langenbeck (Neue Bibl. b. i. p. 360) denies +its existence in the healthy state. Cruveilhier (Anat. Pathog. liv. xxvii.) +deems it incorrect to reckon a third lobe as proper to the healthy bladder.] +</p> + +<p> +Fig. 6, Plate 60.—The prostatic canal is bent upwards by the enlarged third +lobe to such a degree as to form a right angle with the membranous part of the +canal. A bougie is seen to perforate the third lobe, and this is the most +frequent mode in which, under such circumstances, and with instruments of the +usual imperfect form, access may be gained to the bladder for the relief of +retention of urine. “The new passage may in every respect be as efficient as +one formed by puncture or incision in any other way.” (Fergusson.) +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P60F6_25.jpg"> +<img src="images/132P60F6_25.jpg" width="443" height="358" alt="Illustration:" /></a> +<p class="caption">Plate 60.—Figure 6</p> +</div> + +<p> +Fig. 7, Plate 60.—The three lobes of the prostate, <i>a, b, c,</i> are equally +enlarged. The prostatic canal is consequently much contracted and distorted, so +that an instrument on being passed into the bladder has made a false passage +through the third lobe. When a catheter is suspected to have entered the +bladder by perforating the prostate, the instrument should be retained in the +newly made passage till such time as this has assumed the cylindrical form of +the instrument. If this be done, the new passage will be the more likely to +become permanent. It is ascertained that all false passages and fistulae by +which the urine escapes, become after a time lined with a membrane similar to +that of the urethra. (Stafford.) +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P60F7_25.jpg"> +<img src="images/132P60F7_25.jpg" width="465" height="395" alt="Illustration:" /></a> +<p class="caption">Plate 60.—Figure 7</p> +</div> + +<p> +Fig. 8, Plate 60.—The three lobes, <i>a, b, c,</i> of the prostate are +irregularly enlarged. The third lobe, <i>a a</i>, projecting from below, +distorts the prostatic canal upwards and to the right side. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P60F8_25.jpg"> +<img src="images/132P60F8_25.jpg" width="500" height="395" alt="Illustration:" /></a> +<p class="caption">Plate 60.—Figure 8.</p> +</div> + +<p> +Fig. 9, Plate 60.—The right lobe, <i>a c c,</i> of the prostate appears +hollowed out so as to form the sac of an abscess which, by its projection +behind, pressed upon the forepart of the rectum, and by its projection in +front, contracted the area of the prostatic canal, and thereby caused an +obstruction in this part. Not unfrequently when a catheter is passed along the +urethra, for the relief of a retention of urine caused by the swell of an +abscess in this situation, the sac becomes penetrated by the instrument, and, +instead of urine, pus flows. The sac of a prostatic abscess frequently opens of +its own accord into the neighbouring part of the urethra, and when this occurs +it becomes necessary to retain a catheter in the neck of the bladder, so as to +prevent the urine entering the sac. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P60F9_25.jpg"> +<img src="images/132P60F9_25.jpg" width="354" height="377" alt="Illustration:" /></a> +<p class="caption">Plate 60.—Figure 9.</p> +</div> + +<p> +Fig. 10, Plate 60.—The prostate presents four lobes of equal size, and all +projecting largely around the neck of the bladder. The prostatic canal is +almost completely obstructed, and an instrument has made a false passage +through the lobe <i>a</i>. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P60F10_25.jpg"> +<img src="images/132P60F10_25.jpg" width="388" height="403" alt="Illustration:" /></a> +<p class="caption">Plate 60.—Figure 10.</p> +</div> + +<p> +Fig. 11, Plate 60.—The third lobe of the prostate is viewed in section, and +shows the track of the false passage made by the catheter, <i>d</i>, through +it, from its apex to its base. The proper canal is bent upwards from its usual +position, which is that at present marked by the instrument in the false +passage. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P60F11_25.jpg"> +<img src="images/132P60F11_25.jpg" width="500" height="402" alt="Illustration:" /></a> +<p class="caption">Plate 60.—Figure 11.</p> +</div> + +<p> +Fig. 12, Plate 60.—The prostatic lobes are uniformly enlarged, and cause the +corresponding part of the urethra to be uniformly contracted, so as closely to +embrace the catheter, <i>d d</i>, occupying it, and to offer considerable +resistance to the passage of the instrument. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P60F12_25.jpg"> +<img src="images/132P60F12_25.jpg" width="471" height="435" alt="Illustration:" /></a> +<p class="caption">Plate 60.—Figure 12.</p> +</div> + +<p> +Fig. 13, Plate 60.—The prostate, <i>bc</i>, is considerably enlarged +anteriorly, <i>b</i>, in consequence of which the prostatic canal appears more +horizontal even than natural. The catheter, <i>d</i>, occupying the canal lies +nearly straight. The lower wall, <i>c</i>, of the prostate is much diminished +in thickness. A nipple-shaped process, <i>a</i>, is seen to be attached by a +pedicle to the back of the upper part, <i>b</i>, of the prostate, and to act +like a stopper to the neck of the bladder. The body <i>a</i> being moveable, it +will be perceived how, while the bladder is distended with urine, the pressure +from above may block up the neck of the organ with this part, and thus cause +complete retention, which, on the introduction of a catheter, becomes readily +relieved by the instrument pushing the obstructing body aside. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/132P60F13_25.jpg"> +<img src="images/132P60F13_25.jpg" width="457" height="340" alt="Illustration:" /></a> +<p class="caption">Plate 60.—Figure 13.</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap32"></a>COMMENTARY ON PLATES 61 & 62.</h2> + +<p> +DEFORMITIES OF THE PROSTATE.—DISTORTIONS AND OBSTRUCTIONS OF THE PROSTATIC +URETHRA. +</p> + +<p> +The prostate is liable to such frequent and varied deformities, the consequence +of diseased action, whilst, at the same time, its healthy function (if it have +any) in the male body is unknown, that it admits at least of one interpretation +which may, according to fact, be given of it—namely, that of playing a +principal part in effecting some of the most distressing of “the thousand +natural ills that flesh is heir to.” But heedless of such a singular +explanation of a final cause, the practical surgeon will readily confess the +fitting application of the interpretation, such as it is, and rest contented +with the proximate facts and proofs. As physiologists, however, it behooves us +to look further into nature, and search for the <i>ultimate fact</i> in her +prime moving law. The prostate is peculiar to the male body, the uterus to the +female. With the exception of these two organs there is not another which +appears in the one sex but has its analogue in the opposite sex; and thus these +two organs, the prostate and the uterus, appear by exclusion of the rest to +approach the test of comparison, by which their analogy becomes as fully +manifested as that between the two quantities, <i>a-b</i>, and <i>a+b</i> the +only difference which exists depends upon the subtraction or the addition of +the quantity, <i>b</i>. The difference between a prostate and a uterus is +simply one of quantity, such as we see existing between the male and the female +breast. The prostate is to the uterus absolutely what a rudimentary organ is to +its fully developed analogue. The one, as being superfluous, is in accordance +with nature’s law of <i>nihil supervacaneum nihil frutra</i>, arrested in its +development, and in such a character appears the prostate. This body <i>is not +a gland</i> any more than is the uterus, but both organs being quantitatively, +and hence functionally different, I here once more venture to call down an +interpretation of the part from the unfrequented bourne of comparative anatomy, +and turning it to lend an interest to the accompanying figures even with a +surgical bearing, I remark that the prostatic or rudimentary uterus, like a +germ not wholly blighted, is prone to an occasional sprouting or increase +beyond its prescribed dimensions—a hypertrophy in barren imitation, as it were, +of gestation. [Footnote] +</p> + +<p> +[Footnote: This expression of the fact to which I allude will not, I trust, be +extended beyond the limits I assign to it. Though I have every reason to +believe, that between the prostate of the male and the uterus of the female, +the same amount of analogy exists, as between a coccygeal ossicle and the +complete vertebral form elsewhere situated in the spinal series, I am as far +from regarding the two former to be in all respects structurally or +functionally alike, as I am from entertaining the like idea in respect to the +two latter. But still I maintain that between a prostate and a uterus, as +between a coccygeal bone and a vertebra, the only difference which exists is +one of quantity, and that hence arises the functional difference. A prostate is +part of a uterus, just as a coccygeal bone is part (the centrum) of a vertebra. +That this is the absolute signification of the prostate I firmly believe, and +were this the proper place, I could prove it in detail, by the infallible rule +of analogical reasoning. John Hunter has observed that the use of the prostate +was not sufficiently known to enable us to form a judgment of the bad +consequences of its diseased state. When the part becomes morbidly enlarged, it +acts as a mechanical impediment to the passage of urine from the bladder, but +from this circumstance we cannot reasonably infer, that while of its normal +healthy proportions, its special function is to facilitate the egress of the +urine, for the female bladder, though wholly devoid of the prostate, performs +its own function perfectly. It appears to me, therefore, that the real question +should be, not what is the use of the prostate? but has it any proper function? +If the former question puzzled even the philosophy of Hunter, it was because +the latter question must be answered in the negative. The prostate has no +function proper to itself <i>per se</i>. It is a thing distinct from the +urinary apparatus, and distinct likewise from the generative organs. It may be +hypertrophied or atrophied, or changed in texture, or wholly destroyed by +abscess, and yet neither of the functions of these two systems of organs will +be impaired, if the part while diseased act not as an obstruction to them. In +texture the prostate is similar to an unimpregnated uterus. In form it is, like +the uterus, symmetrical. In position it corresponds to the uterus. The prostate +has no ducts proper to itself. Those ducts which are said to belong to it +(prostatic ducts) are merely mucous cells, similar to those in other parts of +the urethral lining membrane. The seminal ducts evidently do not belong to it. +The texture of the prostate is not such as appears in glandular bodies +generally. In short, the facts which prove what it is not, prove what it +actually is—namely, a uterus arrested in its development, and as a sign of that +all-encompassing law in nature, which science expresses by the term “unity in +variety.” This interpretation of the prostate, which I believe to be true to +nature, will last perhaps till such time as the microscopists shall discover in +its “<i>secretion</i>” some species of mannikins, such as may pair with those +which they term spermatozoa.] +</p> + +<p> +Fig. 1, Plate 61.—The prostate,<i> a b</i>, is here represented thinned in its +walls above and below. The lower wall is dilated into a pouch caused by the +points of misdirected instruments in catheterism having been rashly forced +against it. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P61F1_25.jpg"> +<img src="images/136P61F1_25.jpg" width="355" height="344" alt="Illustration:" /></a> +<p class="caption">Plate 61.—Figure 1.</p> +</div> + +<p> +Fig. 2, Plate 61.—The prostate, <i>a b,</i> is here seen to be somewhat more +enlarged than is natural. A tubercle, <i>b</i>, surmounts the lower part, +<i>c,</i> of the prostate, and blocks up the vesical orifice. Catheters +introduced by the urethra for retention of urine which existed in this case, +have had their points arrested at the bulb, and on being pushed forwards in +this direction, have dilated the bulb into the form of a pouch, seen at +<i>d.</i> The sinus of the bulb, being the lowest part of the urethral canal, +is very liable to be distorted or perforated by the points of instruments +descending upon it from above and before. [Footnote] +</p> + +<p> +[Footnote: When a stricture exists immediately behind the bulb, this +circumstance will, of course, favour the occurrence of the accident. “False +passages (observes Mr. Benjamin Phillips) are less frequent here (in the +membranous part of the urethra) than in the bulbous portion of the canal. The +reason of this must be immediately evident: false passages are ordinarily made +in consequence of the difficulty experienced in the endeavour to pass an +instrument through the strictured portion of the tube. Stricture is most +frequently seated at the point of junction between the bulbous and membranous +portions of the canal; consequently, the false passage will be usually anterior +to this latter point.”—(On the Urethra, its Diseases. &c., p. 15.) ] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P61F2_25.jpg"> +<img src="images/136P61F2_25.jpg" width="304" height="298" alt="Illustration:" /></a> +<p class="caption">Plate 61.—Figure 2</p> +</div> + +<p> +Fig. 3, Plate 61.—A cyst, <i>c</i>, is seen to grow from the left side of the +base of the prostate, <i>a b</i>, and to form an obstruction at the vesical +orifice. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P61F3_25.jpg"> +<img src="images/136P61F3_25.jpg" width="321" height="357" alt="Illustration:" /></a> +<p class="caption">Plate 61.—Figure 3.</p> +</div> + +<p> +Fig. 4, Plate 61.—A globular excrescence, <i>a</i>, appears blocking up the +vesical orifice, and giving to this the appearance of a crescentic slit, +corresponding to the shape of the obstructing body. The prostate, <i>b b,</i> +is enlarged in both its lateral lobes. A small bougie, <i>c,</i> is placed in +the prostatic canal and vesical opening. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P61F4_25.jpg"> +<img src="images/136P61F4_25.jpg" width="287" height="353" alt="Illustration:" /></a> +<p class="caption">Plate 61.—Figure 4</p> +</div> + +<p> +Fig. 5, Plate 61.—The prostate, <i>d</i>, is considerably enlarged, and the +vesical orifice is girt by a prominent ring, <i>b b</i>, from the right border +of which the nipple-shaped body, <i>a</i>, projects and occupies the outlet. +Owing to the retention of urine caused by this state of the prostate, the +ureters, <i>c c</i>, have become very much dilated. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P61F5_25.jpg"> +<img src="images/136P61F5_25.jpg" width="484" height="480" alt="Illustration:" /></a> +<p class="caption">Plate 61.—Figure 5.</p> +</div> + +<p> +Fig. 6, Plate 61.—The lateral lobes of the prostate, <i>c c,</i> are seen +enlarged, and from the inner side and base of each, irregularly shaped masses, +<i>a, b, d,</i> project, and bend the prostatic urethra first to the right +side, then to the left. The part, <i>a,</i> resting upon the part, <i>b</i>, +acts like a valve against the vesical outlet, which would become closed the +tighter according to the degree of superincumbent pressure. A flexible catheter +would, in such a case as this, be more likely, perhaps, to follow the sinuous +course of the prostatic passage than a rigid instrument of metal. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P61F6_25.jpg"> +<img src="images/136P61F6_25.jpg" width="414" height="395" alt="Illustration:" /></a> +<p class="caption">Plate 61.—Figure 6.</p> +</div> + +<p> +Fig. 7, Plate 61.—A globular mass, <i>a,</i> of large size, occupies the neck +of the bladder, and gives the vesical orifice, <i>c,</i> a crescentic shape, +convex towards the right side. The two lobes of the prostate, <i>b,</i> are +much enlarged. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P61F7_25.jpg"> +<img src="images/136P61F7_25.jpg" width="422" height="514" alt="Illustration:" /></a> +<p class="caption">Plate 61.—Figure 7.</p> +</div> + +<p> +Fig. 8, Plate 61.—The lateral lobes, <i>b b,</i> of the prostate are +irregularly enlarged, and the urinary passage is bent towards the right side, +<i>c</i>, from the membranous portion, which is central. Surmounting the +vesical orifice, <i>c</i>, is seen the tuberculated mass, <i>a</i>, which being +moveable, can be forced against the vesical orifice and thus produce complete +retention of urine. In this case, also, a flexible catheter would be more +suitable than a metallic one. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P61F8_25.jpg"> +<img src="images/136P61F8_25.jpg" width="396" height="425" alt="Illustration:" /></a> +<p class="caption">Plate 61.—Figure 8.</p> +</div> + +<p> +Fig. 9, Plate 61.—The lateral lobes, <i>b b</i>, of the prostate are enlarged. +The third lobe, <i>a</i>, projects at the neck of the bladder, distorting the +vesical outlet. A small calculus occupies the prostatic urethra, and being +closely impacted in this part of the canal, would arrest the progress of a +catheter, and probably lead to the supposition that the instrument grated +against a stone in the interior of the bladder, in which case it would be +inferred that since the urine did not flow through the catheter no retention +existed. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P61F9_25.jpg"> +<img src="images/136P61F9_25.jpg" width="326" height="367" alt="Illustration:" /></a> +<p class="caption">Plate 61.—Figure 9.</p> +</div> + +<div class="fig" style="width:100%;"> +<a href="images/136P61F10_25.jpg"> +<img src="images/136P61F10_25.jpg" width="389" height="438" alt="Illustration:" /></a> +<p class="caption">Plate 61.—Figure 10.</p> +</div> + +<p> +Fig. 10, Plate 61.—Both lateral lobes, <i>b c,</i> of the prostate appear much +increased in size. A large irregular shaped mass, <i>a,</i> grows from the base +of the right lobe, and distorts the prostatic canal and vesical orifice. When +the lobes of the prostate increase in size in this direction, the prostatic +canal becomes much more elongated than natural, and hence the instrument which +is to be passed for relieving the existing retention of urine should have a +wide and long curve to correspond with the form of this part of the urethra. +[Footnote] +</p> + +<p> +[Footnote: Both lobes of the prostate are equally liable to chronic +enlargement. Home believed the left lobe to be oftener increased in size than +the right. Wilson (on the Male Urinary and Genital Organs) mentions several +instances of the enlargement of the right lobe. No reason can be assigned why +one lobe should be more prone to hypertrophy than the other, even supposing it +to be matter of fact, which it is not. But the observations made by Cruveilhier +(Anat. Pathol.), that the lobulated projections of the prostate always take +place internally at its vesical aspect, is as true as the manner in which he +accounts for the fact is plausible. The dense fibrous envelope of the prostate +is sufficient to repress its irregular growth externally.] +</p> + +<p> +Fig. 11, Plate 61.—Both lobes of the prostate are enlarged, and from the base +of each a mass projects prominently around the vesical orifice, <i>a b</i>. The +prostatic urethra has been moulded to the shape of the instrument, which was +retained in it for a considerable time. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P61F11_25.jpg"> +<img src="images/136P61F11_25.jpg" width="301" height="400" alt="Illustration:" /></a> +<p class="caption">Plate 61.—Figure 11.</p> +</div> + +<p> +Fig. 12, Plate 61.—The prostate, <i>c b</i>, is enlarged and dilated, like a +sac. Across the neck, <i>a,</i> of the bladder the prostate projects in an +arched form, and is transfixed by the instrument, <i>d</i>. The prostate may +assume this appearance, as well from instruments having been forced against it, +as from an abscess cavity formed in its substance having received, from time to +time, a certain amount of the urine, and retained this fluid under the pressure +of strong efforts, made to void the bladder while the vesical orifice was +closed above. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P61F12_25.jpg"> +<img src="images/136P61F12_25.jpg" width="421" height="414" alt="Illustration:" /></a> +<p class="caption">Plate 61.—Figure 12.</p> +</div> + +<p> +Fig. 13, Plate 61.—The lateral lobes, <i>d e</i>, of the prostate are enlarged; +and, occupying the position of the third lobe, appear as three masses, <i>a b +c,</i> plicated upon each other, and directed towards the vesical orifice, +which they close like valves. The prostatic urethra branches upwards into three +canals, formed by the relative position of the parts, <i>e, c, b, a, d,</i> at +the neck of the bladder. The ureters are dilated, in consequence of the +regurgitation of the contents of the bladder during the retention which existed +.. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P61F13_25.jpg"> +<img src="images/136P61F13_25.jpg" width="452" height="416" alt="Illustration:" /></a> +<p class="caption">Plate 61.—Figure 13.</p> +</div> + +<p> +Fig. 1, Plate 62, exhibits the lobes of the prostate greatly increased in size. +The part, <i>a b,</i> girds irregularly, and obstructs the vesical outlet, +while the lateral lobes, <i>c d,</i> encroach upon the space of the prostatic +canal. The walls of the bladder are much thickened. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P62F1_25.jpg"> +<img src="images/136P62F1_25.jpg" width="349" height="500" alt="Illustration:" /></a> +<p class="caption">Plate 62.—Figure 1.</p> +</div> + +<p> +Fig. 2, Plate 62.—The three lobes, <i>a, d, c,</i> of the prostate are enlarged +and of equal size, moulded against each other in such a way that the prostatic +canal and vesical orifice appear as mere clefts between them. The three lobes +are encrusted on their vesical surfaces with a thick calcareous deposit. The +surface of the third lobe, <i>a,</i> which has been half denuded of the +calcareous crust, <i>b</i>, in order to show its real character, appeared at +first to be a stone impacted in the neck of the bladder, and of such a nature +it certainly would seem to the touch, on striking it with the point of a sound +or other instrument. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P62F2_25.jpg"> +<img src="images/136P62F2_25.jpg" width="256" height="500" alt="Illustration:" /></a> +<p class="caption">Plate 62.—Figure 2.</p> +</div> + +<p> +Fig. 3, Plate 62, represents the prostate with its three lobes enlarged, and +the prostatic canal and vesical orifice narrowed. The walls of the bladder are +thickened, fasciculated, and sacculated; the two former appearances being +caused by a hypertrophy of the vesical fibres, while the latter is in general +owing to a protrusion of the mucous membrane between the fasciculi. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P62F3_25.jpg"> +<img src="images/136P62F3_25.jpg" width="357" height="500" alt="Illustration:" /></a> +<p class="caption">Plate 62.—Figure 3.</p> +</div> + +<p> +Fig. 4, Plate 62.—The prostate presents four lobes, <i>a, b, c, d,</i> each +being of large size, and projecting far into the interior of the bladder, from +around the vesical orifice which they obstruct. The bladder is thickened, and +the prostatic canal is elongated. The urethra and the lobes of the prostate +have been perforated by instruments, passed for the retention of urine which +existed. A stricturing band, <i>e,</i> is seen to cross the membranous part of +the canal. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P62F4_25.jpg"> +<img src="images/136P62F4_25.jpg" width="369" height="500" alt="Illustration:" /></a> +<p class="caption">Plate 62.—Figure 4.</p> +</div> + +<p> +Fig. 5, Plate 62.—The prostate, <i>a a,</i> is greatly enlarged, and projects +high in the bladder, the walls of the latter, <i>b b,</i> being very much +thickened. The ureters, <i>c</i>, are dilated, and perforations made by +instruments are seen in the prostate. The prostatic canal being directed almost +vertically, and the neck of the bladder being raised nearly as high as the +upper border of the pubic symphysis, it must appear that if a stone rest in the +bas fond of the bladder, a sound or staff cannot reach the stone, unless by +perforating the prostate; and if, while the staff occupies this position, +lithotomy be performed, the incisions will not be required to be made of a +greater depth than if the prostate were of its ordinary proportions. On the +contrary, if the staff happen to have surmounted the prostate, the incision, in +order to divide the whole vertical thickness of this body, will require to be +made very deeply from the perinaeal surface, and this circumstance occasions +what is termed a “deep perinaeum.” +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P62F5_25.jpg"> +<img src="images/136P62F5_25.jpg" width="422" height="500" alt="Illustration:" /></a> +<p class="caption">Plate 62.—Figure 5.</p> +</div> + +<p> +Fig. 6, Plate 62.—The lower half, <i>c, b, f,</i> of the prostate, having +become the seat of abscess, appears hollowed out in the form of a sac. This sac +is separated from the bladder by a horizontal septum, <i>e e,</i> the proper +base of the bladder, <i>g g</i>. The prostatic urethra, between <i>a e</i>, has +become vertical in respect to the membranous part of the canal, in consequence +of the upward pressure of the abscess. The sac opens into the urethra, near the +apex of the prostate, at the point <i>c</i>; and a catheter passed along the +urethra has entered the orifice of the sac, the interior of which the +instrument traverses, and the posterior wall of which it perforates. The +bladder contains a large calculus, <i>i</i>. The bladder and sac do not +communicate, but the urethra is a canal common to both. In a case of this sort +it becomes evident that, although symptoms may strongly indicate either a +retention of urine, or the presence of a stone in the bladder, any instrument +taking the position and direction of <i>d d,</i> cannot relieve the one or +detect the other; and such is the direction in which the instrument must of +necessity pass, while the sac presents its orifice more in a line with the +membranous part of the urethra than the neck of the bladder is. The sac will +intervene between the rectum and the bladder; and on examination of the parts +through the bowel, an instrument in the sac will readily be mistaken for being +in the bladder, while neither a calculus in the bladder, nor this organ in a +state of even extreme distention, can be detected by the touch any more than by +the sound or catheter. If, while performing lithotomy in such a state of the +parts, the staff occupy the situation of <i>d d d</i>, then the knife, +following the staff, will open, not the bladder which contains the stone, but +the sac, which, moreover, if it happen to be filled with urine regurgigated +from the urethra, will render the deception more complete. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P62F6_25.jpg"> +<img src="images/136P62F6_25.jpg" width="494" height="500" alt="Illustration:" /></a> +<p class="caption">Plate 62.—Figure 6.</p> +</div> + +<p> +Fig. 7, Plate 62.—The walls, <i>a a</i>, of the bladder, appear greatly +thickened, and the ureters, <i>b,</i> dilated. The sides, <i>c c c,</i> of the +prostate are thinned; and in the prostatic canal are two calculi, <i>d d,</i> +closely impacted. In such a state of the parts it would be impossible to pass a +catheter into the bladder for the relief of a retention of urine, or to +introduce a staff as a guide to the knife in lithotomy. If, however, the staff +can be passed as far as the situation of the stone, the parts may be held with +a sufficient degree of steadiness to enable the operator to incise the prostate +upon the stone. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/136P62F7_25.jpg"> +<img src="images/136P62F7_25.jpg" width="509" height="500" alt="Illustration:" /></a> +<p class="caption">Plate 62.—Figure 7.</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap33"></a>COMMENTARY ON PLATES 63 & 64.</h2> + +<p> +DEFORMITIES OF THE URINARY BLADDER.—THE OPERATIONS OF SOUNDING FOR STONE, OF +CATHETERISM AND OF PUNCTURING THE BLADDER ABOVE THE PUBES. +</p> + +<p> +The urinary bladder presents two kinds of deformity—viz., congenital and +pathological. As examples of the former may be mentioned that in which the +organ is deficient in front, and has become everted and protruded like a +fungous mass through an opening at the median line of the hypogastrium; that in +which the rectum terminates in the bladder posteriorly; and that in which the +foetal urachus remains pervious as a uniform canal, or assumes a sacculated +shape between the summit of the bladder and the umbilicus. The pathological +deformities are, those in which vesical fistulae, opening either above the +pubes, at the perinaeum, or into the rectum, have followed abscesses or the +operation of puncturing the bladder in these situations, and those in which the +walls of the organ appear thickened and contracted, or thinned and expanded, or +sacculated externally, or ridged internally, in consequence of its having been +subjected to abdominal pressure while overdistended with its contents, and +while incapable of voiding these from some permanent obstruction in the +urethral canal.[Footnote] The bladder is liable to become sacculated from two +causes—from a hernial protrusion of its mucous membrane through the separated +fasciculi of its fibrous coat, or from the cyst of an abscess which has formed +a communication with the bladder, and received the contents of this organ. +Sacs, when produced in the former way, may be of any number, or size, or in any +situation; when caused by an abscess, the sac is single, is generally formed in +the prostate, or corresponds to the base of the bladder, and may attain to a +size equalling, or even exceeding, that of the bladder itself. The sac, however +formed, will be found lined by mucous membrane. The cyst of an abscess, when +become a recipient for the urine, assumes after a time a lining membrane +similar to that of the bladder. If the sac be situated at the summit or back of +the bladder, it will be found invested by peritonaeum; but, whatever be its +size, structure, or position, it may be always distinguished from the bladder +by being devoid of the fibrous tunic, and by having but an indirect relation to +the vesical orifice. +</p> + +<p> +[Footnote: On considering these cases of physical impediments to the passage of +urine from the vesical reservoir through the urethral conduit, it seems to me +as if these were sufficient to account for the formation of stone in the +bladder, or any other part of the urinary apparatus, without the necessity of +ascribing it to a constitutional disease, such as that named the <i>lithic +diathesis </i>by the humoral pathologists. +</p> + +<p> +The urinary apparatus (consisting of the kidneys, ureters, bladder, and +urethra) is known to be the principal emunctory for eliminating and voiding the +detritus formed by the continual decay of the parts comprising the animal +economy. The urine is this detritus in a state of solution. The components of +urine are chemically similar to those of calculi, and as the components of the +one vary according to the disintegration occurring at the time in the vital +alembic, so do those of the other. While, therefore, a calculus is only as +urine precipitated and solidified, and this fluid only as calculous matter +suspended in a menstruum, it must appear that the lithic diathesis is as +natural and universal as structural disintegration is constant and general in +operation. As every individual, therefore, may be said to void day by day a +dissolved calculus, it must follow that its form of precipitation within some +part of the urinary apparatus alone constitutes the disease, since in this form +it cannot be passed. On viewing the subject in this light, the question that +springs directly is, (while the lithic diathesis is common to individuals of +all ages and both sexes,) why the lithic sediment should present in the form of +concrement in some and not in others? The principal, if not the sole, cause of +this seems to me to be obstruction to the free egress of the urine along the +natural passage. Aged individuals of the male sex, in whom the prostate is +prone to enlargement, and the urethra to organic stricture, are hence more +subject to the formation of stone in the bladder, than youths, in whom these +causes of obstruction are less frequent, or than females of any age, in whom +the prostate is absent, and the urethra simple, short, readily dilatable, and +seldom or never strictured. When an obstruction exists, lithic concretions take +place in the urinary apparatus in the same manner as sedimentary particles +cohere or crystallize elsewhere. The urine becoming pent up and stagnant while +charged with saline matter, either deposits this around a nucleus introduced +into it, or as a surplus when the menstruum is insufficient to suspend it. The +most depending part of the bladder is that where lithic concretions take place; +and if a sacculus exist here, this, becoming a recipient for the matter, will +favour the formation of stone.] [End Footnote] +</p> + +<p> +FIG. 1, Plate 63.—The lateral lobes of the prostate, 3, 4, are enlarged, and +contract the prostatic canal. Behind them the third lobe of smaller size +occupies the vesical orifice, and completes the obstruction. The walls of the +bladder have hence become fasciculated and sacculated. One sac, 1, projects +from the summit of the bladder; another, 2, containing a stone, projects +laterally. When a stone occupies a sac, it does not give rise to the usual +symptoms as indicating its presence, nor can it be always detected by the +sound. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/140P63F1_25.jpg"> +<img src="images/140P63F1_25.jpg" width="329" height="400" alt="Illustration:" /></a> +<p class="caption">Plate 63,—Figure 1.</p> +</div> + +<p> +FIG. 2, Plate 63.—The prostate, 2, 3, is enlarged, and the middle lobe, 2, +appears bending the prostatic canal to an almost vertical position, and +obstructing the vesical orifice. The bladder, 1, 1, 1, is thickened; the +ureters, 7, are dilated; and a large sac, 6, 6, projects from the base of the +bladder backwards, and occupies the recto-vesical fossa. The sac, equal in size +to the bladder, communicates with this organ by a small circular opening, 8, +situated between the orifices of the ureters. The peritonaeum is reflected from +the summit of the bladder to that of the sac. A catheter, 4, appears +perforating the third lobe of the prostate, 2, and entering the sac, 5, through +the base of the bladder, below the opening, 8. In a case of this kind, a +catheter occupying the position 4, 5, would, while voiding the bladder through +the sac, make it seem as if it really traversed the vesical orifice. If a stone +occupied the bladder, the point of the instrument in the sac could not detect +it, whereas, if a stone lay within the sac, the instrument, on striking it +here, would give the impression as if it lay within the bladder. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/140P63F2_25.jpg"> +<img src="images/140P63F2_25.jpg" width="450" height="303" alt="Illustration:" /></a> +<p class="caption">Plate 63,—Figure 2.</p> +</div> + +<p> +FIG. 3, Plate 63.—The urethra being strictured, the bladder has become +sacculated. In the bas fond of the bladder appears a circular opening, 2, +leading to a sac of large dimensions, which rested against the rectum. In such +a case as this, the sac, occupying a lower position than the base of the +bladder, must first become the recipient of the urine, and retain this fluid +even after the bladder has been evacuated, either voluntarily or by means of +instruments. If, in such a state of the parts, retention of urine called for +puncturation, it is evident that this operation would be performed with greater +effect by opening the depending sac through the bowel, than by entering the +summit of the bladder above the pubes. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/140P63F3_25.jpg"> +<img src="images/140P63F3_25.jpg" width="352" height="400" alt="Illustration:" /></a> +<p class="caption">Plate 63,—Figure 3.</p> +</div> + +<p> +FIG. 4, Plate 63.—The vesical orifice is obstructed by two portions, 3, 4, of +the prostate, projecting upwards, one from each of its lateral lobes, 6, 6. The +bladder is thickened and fasciculated, and from its summit projects a double +sac, 1, 2, which is invested by the peritonaeum. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/140P63F4_25.jpg"> +<img src="images/140P63F4_25.jpg" width="221" height="400" alt="Illustration:" /></a> +<p class="caption">Plate 63,—Figure 4.</p> +</div> + +<p> +FIG. 5, Plate 63.—The prostatic canal is constricted and bent upwards by the +third lobe. The bladder is thickened, and its base is dilated in the form of a +sac, which is dependent, and upon which rests a calculus. An instrument enters +the bladder by perforating the third lobe, but does not come into contact with +the calculus, owing to the low position occupied by this body. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/140P63F5_25.jpg"> +<img src="images/140P63F5_25.jpg" width="367" height="400" alt="Illustration:" /></a> +<p class="caption">Plate 63,—Figure 5.</p> +</div> + +<p> +FIG. 6, Plate 63.—Two sacs appear projecting on either side of the base of the +bladder. The right one, 5, contains a calculus, 6; the left one, of larger +dimensions, is empty. The rectum lay in contact with the base of the bladder +between the two sacs. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/140P63F6_25.jpg"> +<img src="images/140P63F6_25.jpg" width="413" height="400" alt="Illustration:" /></a> +<p class="caption">Plate 63,—Figure 6.</p> +</div> + +<p> +FIG. 7, Plate 63.—Four calculi are contained in the bladder. This organ is +divided by two septa, 2, 4, into three compartments, each of which, 1, 3, 5, +gives lodgment to a calculus; and another, 6, of these bodies lies impacted in +the prostatic canal, and becomes a complete bar to the passage of a catheter. +Supposing lithotomy to be performed in an instance of this kind, it is probable +that, after the extraction of the calculi, 6, 5, the two upper ones, 3, 1, +would, owing to their being embedded in the walls of the bladder, escape the +forceps. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/140P63F7_25.jpg"> +<img src="images/140P63F7_25.jpg" width="375" height="400" alt="Illustration:" /></a> +<p class="caption">Plate 63,—Figure 7.</p> +</div> + +<p> +FIG. 8, Plate 63.-Two large polypi, and many smaller ones, appear growing from +the mucous membrane of the prostatic urethra and vesical orifice, and +obstructing these parts. In examining this case during life by the sound, the +two larger growths, 1, 2, were mistaken by the surgeon for calculi. Such a +mistake might well be excused if they happened to be encrusted with lithic +matter. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/140P63F8_25.jpg"> +<img src="images/140P63F8_25.jpg" width="282" height="400" alt="Illustration:" /></a> +<p class="caption">Plate 63,—Figure 8.</p> +</div> + +<p> +FIG. 9, Plate 63.—The base of the bladder, 8, 8, appears dilated into a large +uniform sac, and separated from the upper part of the organ by a circular +horizontal fold, 2, 2. The ureters are also dilated. The left ureter, 3, 4, +opens into the sac below this fold, while the right ureter opens above it into +the bladder. In all cases of retention of urine from permanent obstruction of +the urethra, the ureters are generally found more or less dilated. Two +circumstances combine to this effect—while the renal secretion continues to +pass into the ureters from above, the contents of the bladder under abdominal +pressure are forced regurgitating into them from below, through their orifices. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/140P63F9_25.jpg"> +<img src="images/140P63F9_25.jpg" width="421" height="400" alt="Illustration:" /></a> +<p class="caption">Plate 63,—Figure 9.</p> +</div> + +<p> +FIG. 1, Plate 64.—The bladder, 6, appears symmetrically sacculated. One sac, 1, +is formed at its summit, others, 3, 2, project laterally, and two more, 5, 4, +from its base. The ureters, 7, 7, are dilated, and enter the bladder between +the lateral and inferior sacs. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/140P64F1_25.jpg"> +<img src="images/140P64F1_25.jpg" width="347" height="398" alt="Illustration:" /></a> +<p class="caption">Plate 64,—Figure 1.</p> +</div> + +<p> +Fig. 2, Plate 64.—The prostate is greatly enlarged, and forms a narrow ring +around the vesical orifice. Through this an instrument, 12, enters the bladder. +The walls of the bladder are thickened and sacculated. On its left side appear +numerous sacs, 2, 3, 4, 5, 6, 7, 8, and on the inner surface of its right side +appear the orifices of as many more. On its summit another sac is formed. The +ureters, 9, are dilated. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/140P64F2_25.jpg"> +<img src="images/140P64F2_25.jpg" width="280" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 64,—Figure 2.</p> +</div> + +<p> +FIG. 3, Plate 64.—The prostate is enlarged, its canal is narrowed, and the +bladder is thickened and contracted. A calculus, 1, 2, appears occupying nearly +the whole vesical interior. The incision in the neck of the bladder in +lithotomy must necessarily be extensive, to admit of the extraction of a stone +of this size. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/140P64F3_25.jpg"> +<img src="images/140P64F3_25.jpg" width="295" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 64,—Figure 3.</p> +</div> + +<p> +FIG. 4, Plate 64.—The prostatic canal is contracted by the lateral lobes, 4, 5; +resting upon these, appear three calculi, 1, 2, 3, which nearly fill the +bladder. This organ is thickened and fasciculated. In cases of this kind, and +that last mentioned, the presence of stone is readily ascertainable by the +sound. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/140P64F4_25.jpg"> +<img src="images/140P64F4_25.jpg" width="354" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 64,—Figure 4.</p> +</div> + +<p> +FIG. 5, Plate 64.—The three prostatic lobes are enlarged, and appear +contracting the vesical orifice. In the walls of the bladder are embedded +several small calculi, 2, 2, 2, 2, which, on being struck with the convex side +of a sound, might give the impression as though a single stone of large size +existed. In performing lithotomy, these calculi would not be within reach of +the forceps. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/140P64F5_25.jpg"> +<img src="images/140P64F5_25.jpg" width="251" height="450" alt="Illustration:" /></a> +<p class="caption">Plate 64,—Figure 5.</p> +</div> + +<p> +FIG. 6, Plate 64.—Two sacculi, 4, 5, appear projecting at the middle line of +the base of the bladder, between the vasa deferentia, 7, 7, and behind the +prostate, in the situation where the operation of puncturing the bladder per +anum is recommended to be performed in retention of urine. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/140P64F6_25.jpg"> +<img src="images/140P64F6_25.jpg" width="391" height="418" alt="Illustration:" /></a> +<p class="caption">Plate 64,—Figure 6.</p> +</div> + +<p> +FIG. 7, Plate 64.—A sac, 4, is situated on the left side of the bladder, 3, 3, +immediately above the orifice of the ureter. In the sac was contained a mass of +phosphatic calculus. This substance is said to be secreted by the mucous lining +of the bladder, while in a state of chronic inflammation, but there seems +nevertheless very good reason for us to believe that it is, like all other +calculous matter, a deposit from the urine. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/140P64F7_25.jpg"> +<img src="images/140P64F7_25.jpg" width="311" height="294" alt="Illustration:" /></a> +<p class="caption">Plate 64,—Figure 7.</p> +</div> + +<p> +FIG. 8, Plate 64, represents, in section, the relative position of the parts +concerned in catheterism. [Footnote] In performing this operation, the patient +is to be laid supine; his loins are to be supported on a pillow; and his thighs +are to be flexed and drawn apart from each other. By this means the perinaeum +is brought fully into view, and its structures are made to assume a fixed +relative position. The operator, standing on the patient’s left side, is now to +raise the penis so as to render the urethra, 8, 8, 8, as straight as possible +between the meatus, <i>a</i>, and the bulb, 7. The instrument (the concavity of +its curve being turned to the left groin) is now to be inserted into the +meatus, and while being gently impelled through the canal, the urethra is to be +drawn forwards, by the left hand, over the instrument. By stretching the +urethra, we render its sides sufficiently tense for facilitating the passage of +the instrument, and the orifices of the lacunae become closed. While the +instrument is being passed along this part of the canal, its point should be +directed fairly towards the urethral opening, 6*, of the triangular ligament, +which is situated an inch or so below the pubic symphysis, 11. With this object +in view, we should avoid depressing its handle as yet, lest its point be +prematurely tilted up, and rupture the upper side of the urethra anterior to +the ligament. As soon as the instrument has arrived at the bulb, its further +progress is liable to be arrested, from these causes:—1st, This portion of the +canal is the lowest part of its perinaeal curve, 3, 6, 8, and is closely +embraced by the middle fibres of the accelerator urinae muscle. 2nd, It is +immediately succeeded by the commencement of the membranous urethra, which, +while being naturally narrower than other parts, is also the more usual seat of +organic stricture, and is subject to spasmodic constriction by the fibres of +the compressor urethrae. 3d, The triangular ligament is behind it, and if the +urethral opening of the ligament be not directly entered by the instrument, +this will bend the urethra against the front of that dense structure. On +ascertaining these to be the causes of resistance, the instrument is to be +withdrawn a little in the canal, so as to admit of its being readjusted for +engaging precisely the opening in the triangular ligament. As this structure, +6, is attached to the membranous urethra, 6*, which perforates it, both these +parts may be rendered tense, by drawing the penis forwards, and thereby the +instrument may be guided towards and through the aperture. The instrument +having passed the ligament, regard is now to be paid to the direction of the +pelvic portion of the canal, which is upwards and backwards to the vesical +orifice, 3, <i>d</i>, 3. In order that the point of the instrument may freely +traverse the urethra in this direction, its handle, <i>a</i>, requires to be +depressed,<i> b c</i>, slowly towards the perinaeum, and at the same time to be +impelled steadily back in the line <i>d, d,</i> through the pubic arch, 11. If +the third lobe of the prostate happen to be enlarged, the vesical orifice will +accordingly be more elevated than usual. In this case, it becomes necessary to +depress the instrument to a greater extent than is otherwise required, so that +its point may surmount the obstacle. But since the suspensory ligament of the +penis, 10, and the perinaeal structures prevent the handle being depressed +beyond a certain degree, which is insufficient for the object to be attained, +the instrument should possess the<i> prostatic curve, c c,</i> compared with +<i>c b</i>. +</p> + +<p> +[Footnote: It may be necessary for me to state that, with the exception of this +figure (which is obviously a plan, but sufficiently accurate for the purposes +it is intended to serve) all the others representing pathological conditions +and congenital deformities of the urethra, the prostate, and the bladder, have +been made by myself from <i>natural specimens</i> in the museums and hospitals +of London and Paris.] +</p> + +<div class="fig" style="width:100%;"> +<a href="images/140P64F8_25.jpg"> +<img src="images/140P64F8_25.jpg" width="600" height="458" alt="Illustration:" /></a> +<p class="caption">Plate 64,—Figure 8.</p> +</div> + +<p> +In the event of its being impossible to pass a catheter by the urethra, in +cases of retention of urine threatening rupture, the base or the summit of the +bladder, according as either part may be reached with the greater safety to the +peritonaeal sac, will require to be punctured. If the prostate be greatly and +irregularly enlarged, it will be safer to puncture the bladder above the pubes, +and here the position of the organ in regard to the peritonaeum, 1, becomes the +chief consideration. The shape of the bladder varies very considerably from its +state of collapse, 3, 3, 5, to those of mediate, 3, 3, 2, 1, and extreme +distention, 3, 3, 4. This change of form is chiefly effected by the expansive +elevation of its upper half, which is invested by the peritonaeum. As the +summit of the bladder falls below, and rises above the level of the upper +margin of the pubic symphysis, it carries the peritonaeum with it in either +direction. While the bladder is fully expanded, 4, there occurs an interval +between the margin of the symphysis pubis and the point of reflexion of the +peritonaeum, from the recti muscles, to the summit of the viscus. At this +interval, close to the pubes, and in the median line, the trocar may be safely +passed through the front wall of the bladder. The instrument should, in all +cases, be directed downwards and backwards, <i>h, h</i>, in a line pointing to +the hollow of the sacrum. +</p> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap34"></a>COMMENTARY ON PLATES 65 & 66.</h2> + +<p> +THE SURGICAL DISSECTION OF THE POPLITEAL SPACE AND THE POSTERIOR CRURAL REGION. +</p> + +<p> +On comparing the bend of the knee with the bend of the elbow, as evident a +correspondence can be discerned between these two regions, as exists between +the groin and the axilla. +</p> + +<p> +Behind the knee-joint, the muscles which connect the leg with the thigh enclose +the space named popliteal. When the integuments and subcutaneous substance are +removed from this place, the dense fascia lata may be seen binding these +muscles so closely together as to leave but a very narrow interval between them +at the mesial line. On removing this fascia, B B M M, Plate 65, the muscles +part asunder, and the popliteal space as usually described is thereby formed. +This region now presents of a lozenge-shaped form, B J D K, of which the widest +diameter, D J, is opposite the knee-joint. The flexor muscles, C D J, in +diverging from each other as they pass down from the sides of the thigh to +those of the upper part of the leg, form the upper angle of this space; whilst +its lower angle is described by the two heads of the gastrocnemius muscle, E E, +arising inside the flexors, from the condyles of the femur. The popliteal space +is filled with adipose substance, in which are embedded several lymphatic +bodies and through which pass the principal vessels and nerves to the leg. +</p> + +<p> +In the dissection of the popliteal space, the more important parts first met +with are the branches of the great sciatic nerve. In the upper angle of the +space, this nerve will be found dividing into the peronaeal, I, and posterior +tibial branches, H K. The peronaeal nerve descends close to the inner margin of +the tendon, J, of the biceps muscle; and, having reached the outer side of the +knee, I*, Plate 66, below the insertion of the tendon into the head of the +fibula, winds round the neck of this bone under cover of the peronaeus longus +muscle, S, to join the anterior tibial artery. The posterior tibial nerve, H K, +Plate 65, descends the popliteal space midway to the cleft between the heads of +the gastrocnemius; and, after passing beneath this muscle, to gain the inner +side of the vessels, H*, Plate 66, it then accompanies the posterior tibial +artery. On the same plane with and close to the posterior tibial nerve in the +popliteal space, will be seen the terminal branch of the lesser sciatic nerve, +together with a small artery and vein destined for distribution to the skin and +other superficial parts on the back of the knee. Opposite the heads of the +gastrocnemius, the peronaeal and posterior tibial nerves give off each a +branch, both of which descend along the mesial line of the calf, and joining +near the upper end of the tendo Achillis, the single nerve here, N, Plate 65, +becomes superficial to the fascia, and thence descends behind the outer ankle +to gain the external border of the foot, where it divides into cutaneous +branches and others to be distributed to the three or four outer toes. In +company with this nerve will be seen the posterior saphena vein, L, which, +commencing behind the outer ankle, ascends the mesial line of the calf to join +the popliteal vein, G, in the cleft between the heads of the gastrocnemius. +</p> + +<p> +On removing next the adipose substance and lymphatic glands, we expose the +popliteal vein and artery. The relative position of these vessels and the +posterior tibial nerve, may now be seen. Between the heads of the +gastrocnemius, the nerve, H, giving off large branches to this muscle, lies +upon the popliteal vein, G, where this is joined by the posterior saphena vein. +Beneath the veins lies the popliteal artery, F. On tracing the vessels and +nerve from this point upwards through the popliteal space, we find the nerve +occupying a comparatively superficial position at the mesial line, while the +vessels are directed upwards, forwards, and inwards, passing deeply, as they +become covered by the inner flexor muscles, C D, to the place where they +perforate the tendon of the adductor magnus on the inner side of the lower +third of the femur. +</p> + +<p> +The popliteal artery, F, Plate 66, being the continuation of the femoral, +extends from the opening in the great adductor tendon at the junction of the +middle and lower third of the thigh, to the point where it divides, in the +upper, and back part of the leg, at the lower border of the popliteus muscle, +L, into the anterior and posterior tibial branches. In order to expose the +vessel through this extent, we have to divide and reflect the heads of the +gastrocnemius muscle, E E, and to retract the inner flexors. The popliteal +artery will now be seen lying obliquely over the middle of the back of the +joint. It is deeply placed in its whole course. Its upper and lower thirds are +covered by large muscles; whilst the fascia and a quantity of adipose tissue +overlies its middle. The upper part of the artery rests upon the femur, its +middle part upon the posterior ligament of the joint, and its lower part upon +the popliteus muscle. The popliteal vein, G; adheres to the artery in its whole +course, being situated on its outer side above, and posterior to it below. The +vein is not unfrequently found to be double; one vein lying to either side of +the artery, and both having branches of communication with each other, which +cross behind the artery. In some instances the posterior saphena vein, instead +of joining the popliteal vein, ascends superficially to terminate in some of +the large veins of the thigh. Numerous lymphatic vessels accompany the +superficial and deep veins into the popliteal space, where they join the +lymphatic bodies, which here lie in the course of the artery. +</p> + +<p> +The branches derived from the popliteal artery are the muscular and the +articular. The former spring from the vessel opposite those parts of the +several muscles which lie in contact with it; the latter are generally five in +number—two superior, two inferior, and one median. The two superior articular +branches arise from either side of the artery, and pass, the one beneath the +outer, the other beneath the inner flexors, above the knee-joint; and the two +inferior pass off from it, the one internally, the other externally, beneath +the heads of the gastrocnemius below the joint; while the middle articular +enters the joint through the posterior ligament. The two superior and inferior +articular branches anastomose freely around the knee behind, laterally, and in +front, where they are joined by the terminal branches of the anastomotic, from +the femoral, and by those of the recurrent, from the anterior tibial. The main +vessel, having arrived at the lower border of the popliteus muscle, divides +into two branches, of which one passes through the interosseous ligament to +become the anterior tibial; while the other, after descending a short way +between the bones of the leg, separates into the peronaeal and posterior tibial +arteries. In some rare instances the popliteal artery is found to divide above +the popliteus muscle into the anterior, or the posterior tibial, or the +peronaeal. +</p> + +<p> +The two large muscles, (gastrocnemius and soleus,) forming the calf of the leg, +have to be removed together with the deep fascia in order to expose the +posterior tibial, and peronaeal vessels and nerves. The fascia forms a sheath +for the vessels, and binds them close to the deep layer of muscles in their +whole course down the back of the leg. The point at which the main artery, F, +Plate 66, gives off the anterior tibial, is at the lower border of the +popliteus muscle, on a level with N, the neck of the fibula; that at which the +artery again subdivides into the peronaeal, P, and posterior tibial branches, +O, is in the mesial line of the leg, and generally on a level with the junction +of its upper and middle thirds. From this place the two arteries diverge in +their descent; the peronaeal being directed along the inner border of the +fibula towards the back of the outer ankle; while the posterior tibial, +approaching the inner side of the tibia, courses towards the back of the inner +ankle. The gastrocnemius and soleus muscles overlie both arteries in their +upper two thirds; but as these muscles taper towards the mesial line where they +end in the tendo Achillis, V V, Plate 65, they leave the posterior tibial +artery, O, with its accompanying nerve and vein, uncovered in the lower part of +the leg, except by the skin and the superficial and deep layers of fasciae. The +peronaeal artery is deeply situated in its whole course. Soon after its origin, +it passes under cover of the flexor longus pollicis, R, a muscle of large size +arising from the lower three fourths of the fibula, N, and will be found +overlapped by this muscle on the outer border of the tendo Achillis, as low +down as the outer ankle. The two arteries are accompanied by venae comites, +which, with the short saphena vein, form the popliteal vein. The posterior +tibial artery is closely followed by the posterior tibial nerve. In the +popliteal space, this nerve crosses to the inner side of the posterior tibial +artery, where both are about to pass under the gastrocnemius muscle, to which +they give large branches. Near the middle of the leg, the nerve recrosses the +artery to its outer side and in this relative position both descend to a point +about midway between the inner ankle and calcaneum, where they appear having +the tendons of the tibialis posticus and flexor longus digitorum to their inner +side and the tendon of the flexor longus pollicis on their outer side. Numerous +branches are given off from the nerve and artery to the neighbouring parts in +their course. +</p> + +<p> +The varieties of the posterior crural arteries are these—the tibial vessel, in +some instances, is larger than usual, while the peronaeal is small, or absent; +and, in others, the peronaeal supplies the place of the posterior tibial, when +the latter is diminished in size. The peronaeal has been known to take the +position of the posterior tibial in the lower part of the leg, and to supply +the plantar arteries. In whatever condition the two vessels may be found, there +will always be seen ramifying around the ankle-joint, articular branches, which +anastomose freely with each other and with those of the anterior tibial. +</p> + +<p> +The popliteal artery is unfavourably circumstanced for the application of a +ligature. It is very deeply situated, and the vein adheres closely to its +posterior surface. Numerous branches (articular and muscular) arise from it at +short intervals; and these, besides being a source of disturbance to a +ligature, are liable to be injured in the operation, in which case the +collateral circulation cannot be maintained after the main vessel is tied. +There is a danger, too, of injuring the middle branch of the sciatic nerve, in +the incisions required to reach the artery; and, lastly, there is a possibility +of this vessel dividing higher up than usual. Considering these facts in +reference to those cases in which it might be supposed necessary to tie the +popliteal artery—such cases, for example, as aneurism of either of the crural +arteries, or secondary haemorrhages occurring after amputations of the leg at a +time when the healing process was far advanced and the bleeding vessels +inaccessible,—it becomes a question whether it would not be preferable to tie +the femoral, rather than the popliteal artery. But when the popliteal artery +itself becomes affected with aneurism, and when, in addition to the anatomical +circumstances which forbid the application of a ligature to this vessel, we +consider those which are pathological,—such as the coats of the artery being +here diseased, the relative position of the neighbouring parts being disturbed +by the tumour, and the large irregular wound which would be required to isolate +the disease, at the risk of danger to the health from profuse suppuration, to +the limb from destruction of the collateral branches, or to the joint from +cicatrization, rendering it permanently bent,—we must acknowledge at once the +necessity for tying the femoral part of the main vessel. +</p> + +<p> +When the popliteal artery happens to be divided in a wound, it will be required +to expose its bleeding orifices, and tie both these in the wound. For this +purpose, the following operation usually recommended for reaching the vessel +may be necessary. The skin and fascia lata are to be incised in a direction +corresponding to that of the vessel. The extent of the incision must be +considerable, (about three inches,) so as the more conveniently to expose the +artery in its deep situation. On laying bare the outer margin of the +semi-membranosus muscle, while the knee is straight, it now becomes necessary +to flex the joint, in order that this muscle may admit of being pressed inwards +from over the vessel. The external margin of the wound, including the middle +branch of the sciatic nerve, should be retracted outwards, so as to ensure the +safety of that nerve, while room is gained for making the deeper incisions. The +adipose substance, which is here generally abundant, should now be divided, +between the mesial line and the semimembranosus, till the sheath of the vessels +be exposed. The sheath should be incised at its inner side, to avoid wounding +the popliteal vein. The pulsation of the artery will now indicate its exact +position. As the vein adheres firmly to the coats of the artery, some care is +required to separate the two vessels, so as to pass the ligature around each +end of the artery from without inwards, while excluding the vein. While this +operation is being performed in a case of wound of the popliteal artery, the +haemorrhage may be arrested by compressing the femoral vessel, either against +the femur or the os pubis. +</p> + +<p> +In the operation for tying the posterior tibial artery near its middle, an +incision of three or four inches in extent is to be made through the skin and +fascia, in a line corresponding with the inner posterior margin of the tibia +and the great muscles of the calf. The long saphena vein should be here +avoided. The origins of the gastrocnemius and soleus muscles require to be +detached from the tibia, and then the knee is to be flexed and the foot +extended, so as to allow these muscles to be retracted from the plane of the +vessels. This being done, the deep fascia which covers the artery and its +accompanying nerve is next to be divided. The artery will now appear pulsating +at a situation an inch from the edge of the tibia. While the ligature is being +passed around the artery, due care should be taken to exclude the venae comites +and the nerve. +</p> + +<h4>DESCRIPTION OF PLATES 65 & 66.</h4> + +<p> +PLATE 65. +</p> + +<p> +A. Tendon of the gracilis muscle. +</p> + +<p> +B B. The fascia lata. +</p> + +<p> +C C. Tendon of the semimembranosus muscle. +</p> + +<p> +D. Tendon of the semitendinosus muscle. +</p> + +<p> +E E. The two heads of the gastrocnemius muscle. +</p> + +<p> +F. The popliteal artery. +</p> + +<p> +G. The popliteal vein joined by the short saphena vein. +</p> + +<p> +H. The middle branch of the sciatic nerve. +</p> + +<p> +I. The outer (peronaeal) branch of the sciatic nerve. +</p> + +<p> +K. The posterior tibial nerve continued from the middle branch of the sciatic, +and extending to K, behind the inner ankle. +</p> + +<p> +L. The posterior (short) saphena vein. +</p> + +<p> +M M. The fascia covering the gastrocnemius muscle. +</p> + +<p> +N. The short (posterior) saphena nerve, formed by the union of branches from +the peronaeal and posterior tibial nerves. +</p> + +<p> +O. The posterior tibial artery appearing from beneath the soleus muscle in the +lower part of the leg. +</p> + +<p> +P. The soleus muscle joining the tendo Achillis. +</p> + +<p> +Q. The tendon of the flexor longus communis digitorum muscle. +</p> + +<p> +R. The tendon of the flexor longus pollicis muscle. +</p> + +<p> +S. The tendon of the peronaeus longus muscle. +</p> + +<p> +T. The peronaeus brevis muscle. +</p> + +<p> +U U. The internal annular ligament binding down the vessels, nerves, and +tendons in the hollow behind the inner ankle. +</p> + +<p> +V V. The tendo Achillis. +</p> + +<p> +W. The tendon of the tibialis posticus muscle. +</p> + +<p> +X. The venae comites of the posterior tibial artery. +</p> + +<p> +PLATE 66. +</p> + +<p> +A C D E F G H I indicate the same parts as in Plate 65. +</p> + +<p> +B. The inner condyle of the femur. +</p> + +<p> +K. The plantaris muscle lying upon the popliteal artery. +</p> + +<p> +L. The popliteus muscle. +</p> + +<p> +M M M. The tibia. +</p> + +<p> +N N. The fibula. +</p> + +<p> +O O. The posterior tibial artery. +</p> + +<p> +P. The peronaeal artery. +</p> + +<p> +Q R S T U V W. The parts shown in Plate 65. +</p> + +<p> +X. The astragalus. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/144P66_25C.jpg"> +<img src="images/144P66_25C.jpg" width="451" height="700" alt="Illustration:" /></a> +<p class="caption">Plates 65, 66</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap35"></a>COMMENTARY ON PLATES 67 & 68.</h2> + +<p> +THE SURGICAL DISSECTION OF THE ANTERIOR CRURAL REGION, THE ANKLES, AND THE +FOOT. +</p> + +<p> +Beneath the integuments and subcutaneous adipose tissue on the fore part of the +leg and foot, the fascia H H, Plate 67, Figure 2, is to be seen stretched over +the muscles and sending processes between them, thus encasing each of these in +a special sheath. +</p> + +<p> +The fascia is here of considerable density. It is attached on the inner side of +the leg to the spine of the tibia, D, Plate 67, Figure 2, and on the outer side +it passes over the peronaeal muscles to those forming the calf. Between the +extensor communis digitorum, B <i>b</i>, and the peronaeus longus, F, it sends +in a strong process to be attached to the fibula, E. In front of the ankle +joint, the fascia is increased in density, constituting a band (anterior +annular ligament) which extends between the malleoli, forms sheaths for the +several extensor tendons, and binds these down in front of the joint. From the +lower border of the annular ligament, the fascia is continued over the dorsum +of the foot, forming sheaths for the tendons and muscles of this part. Behind +the inner malleolus, <i>d</i>, Plate 67, Figure 1, the fascia attached to this +process and to the inner side of the os calcis appears as the internal annular +ligament, which being broad and strong, forms a kind of arch, beneath which in +special sheaths the flexor tendons, and the posterior tibial vessel and nerve, +pass to the sole of the foot. On tracing the fascia from the front to the back +of the leg, it will be seen to divide into two layers—superficial and deep; the +former passes over the muscles of the calf and their common tendon (tendo +Achillis) to which it adheres, while the latter passes between these muscles +and the deep flexors. The deep layer is that which immediately overlies the +posterior tibial and peronaeal vessels and nerves. While exposing the fascia on +the forepart of the leg and dorsum of the foot, we meet with the +musculo-cutaneous branch of the peronaeal nerve, which pierces the fascia at +about the middle of the limb, and descends superficially in a direction between +the fibula, and the extensor longus digitorum muscle, and after dividing into +branches a little above the outer ankle, these traverse in two groups the +dorsum of the foot, to be distributed to the integuments of the five toes. On +the inner side of the tibia, D, Plate 67, Figure 1, will be seen the internal +or long saphena vein, B B, which commencing by numerous branches on the dorsal +surface of the foot ascends in front of the inner ankle, <i>d</i>, to gain the +inner side of the leg, after which it ascends behind the inner side of the knee +and thigh, till it terminates at the saphenous opening, where it joins the +femoral vein. In its course along the lower part of the thigh, the leg and the +foot, this vein is closely accompanied by the long saphenous nerve, derived +from the anterior crural, and also by a group of lymphatics. +</p> + +<p> +By removing the fascia from the front of the leg and foot, we expose the +several muscles and tendons which are situated in these parts. In the upper +part of the leg the tibialis anticus, A, Plate 67, Figure 2, and +extensor-communis muscle, B, are adherent to the fascia which covers them, and +to the intermuscular septum which divides them. In the lower part of the leg +where these muscles and the extensor pollicis, C, terminate in tendons, <i>a b +c,</i> they are readily separable from one another. The tibialis anticus lies +along the outer side of the tibia, from which, and from the head of the fibula +and interosseous ligament, it arises tendinous and fleshy. This muscle is +superficial in its whole length; its tendon commencing about the middle of the +leg, passes in a separate loose sheath of the annular ligament in front of the +inner ankle, to be inserted into the inner side of the cuneiform bone and base +of the metatarsal bone of the great toe. The extensor communis digitorum lies +close to the outer side of the anterior tibial muscle, and arises from the +upper three-fourths of the fibula, from the interosseous ligament and +intermuscular septum. At the lower part of the leg, this muscle ends in three +or four flat tendons, which pass through a ring of the annular ligament, and +extending forwards, <i>b b b b</i>, over the dorsum of the foot, become +inserted into the four outer toes. The peronaeus tertius or anterior, is that +part of the common extensor muscle which is inserted into the base of the fifth +metatarsal bone. On separating the anterior tibial and common extensor muscles, +we find the extensor pollicis, C <i>c</i>, which, concealed between the two, +arises from the middle of the fibula, and the interosseous ligament; its tendon +passes beneath the annular ligament in front of the ankle joint, and after +traversing the inner part of the dorsum of the foot, becomes inserted into the +three phalanges of the great toe. Beneath the tendons of the extensor communis +on the instep, will be seen the extensor digitorum brevis, K K, lying in an +oblique direction, between the upper and outer part of the os calcis, from +which it arises, and the four inner toes, into each of which it is inserted by +a small flat tendon, which joins the corresponding tendon of the long common +extensor. +</p> + +<p> +The anterior tibial artery, L, Plate 67, Figure 2, extends from the upper part +of the interosseous ligament which it perforates, to the bend of the ankle, +whence it is continued over the dorsum of the foot. In the upper third of the +leg, the anterior tibial artery lies deeply situated between the tibialis +anticus, and flexor communis muscles. Here it will be found, close in front of +the interosseous ligament, at about an inch and-a-half in depth from the +anterior surface, and removed from the spine of the tibia at an interval equal +to the width of the tibialis anticus muscle. In its course down the leg, the +vessel passes obliquely from a point close to the inner side of the neck of the +fibula, to midway between the ankles. In its descent, it becomes gradually more +superficial. In the middle of the leg, the vessel passes between the extensor +longus pollicis, and the tibialis anticus muscles. Above, beneath, and below +the annular ligament, this artery will be found to pass midway between the +extensor pollicis tendon, and those of the extensor communis, and to hold the +same relation to these parts in traversing the dorsum of the foot, till it +gains the interval between the two inner metatarsal bones, where it divides +into two branches, one of which passes forwards in the first interdigital +space, while the other sinks between the bones, to inosculate with the plantar +arteries. The innermost tendon of the short common extensor crosses in front of +the dorsal artery of the foot near its termination. Between the ankle and the +first interosseous space the artery lies comparatively superficial, being here +covered only by the skin and fascia and cellular membrane. Two veins accompany +the anterior tibial artery and its continuation on the dorsum of the foot. The +anterior tibial nerve, a branch of the peronaeal, joins the outer side of the +artery, about the middle of the leg, and accompanies it closely in this +position, till both have passed beneath the annular ligament. On the dorsum of +the foot the nerve will be found to the inner side of the artery. +</p> + +<p> +The branches of the anterior tibial artery are articular and muscular. From its +upper end arises the recurrent branch which anastomoses in front of the knee +with the articular branches of the popliteal artery. Near the ankle, arise on +either side of the vessel two malleolar branches, internal and external, the +former communicating with branches of the posterior tibial, the latter with +those of the peronaeal. Numerous muscular branches arise, at short intervals, +from the vessel in its passage down the leg. Tarsal, metatarsal, and small +digital branches spring from the dorsal artery of the foot. The anterior tibial +artery is rarely found to deviate from its usual course; in some cases it +appears of less or of greater size than usual. When this vessel appears +deficient, its place is usually supplied by some branch of the peronaeal or +posterior tibial, which pierces the interosseous ligament from behind. +</p> + +<p> +The anterior tibial artery when requiring a ligature to be applied to it in any +part of its course, may be exposed by an incision, extending for three or four +inches, (more or less, according to the depth of the vessel) along the outer +border of the tibialis anticus muscle. The fibrous septum between this muscle +and the extensor communis, will serve as a guide to the vessel in the upper +third of the leg, where it lies deeply on the interosseous ligament. In the +middle of the leg, the vessel is to be sought for between the anterior tibial +and extensor longus pollicis muscles. In the lower part of the leg, and on the +dorsum of the foot, it will be found between the extensor longus pollicis, and +extensor communis tendons, the former being taken as a guide for the incision. +In passing the ligature around this vessel at either of these situations, care +is required to avoid including the venae comites and the accompanying nerve. +</p> + +<p> +The sole of the foot is covered by a hard and thick integument, beneath which +will be seen a large quantity of granulated adipose tissue so intersected by +bands of fibrous structure as to form a firm, but elastic cushion, in the +situations particularly of the heel and joints of the toes. On removing this +structure, we expose the plantar fascia, B, Plate 68, Figure 1, extending from +the os calcis, A, to the toes. This fascia is remarkably strong, especially its +middle and outer parts, which serve to retain the arched form of the foot, and +thereby to protect the plantar structures from superincumbent pressure during +the erect posture. The superficial plantar muscles become exposed on removing +the plantar fascia, to which they adhere. In the centre will be seen the thick +fleshy flexor digitorum brevis muscle, B, arising from the inferior part of the +os calcis, and passing forwards to divide into four small tendons, <i>b b b +b,</i> for the four outer toes. On the inner side of the foot appears the +abductor pollicis, D, arising from the inner side of the os calcis and internal +annular ligament, and passing to be inserted with the flexor pollicis brevis, +H, into the sesamoid bones and base of the first phalanx of the great toe. On +the external border of the foot is situated the abductor minimi digiti, C, +arising from the outer side of the os calcis, and passing to be inserted with +the flexor brevis minimi digiti into the base of the first phalanx of the +little toe. When the flexor brevis digitorum muscle is removed, the plantar +arteries, L M, and nerves, are brought partially into view; and by further +dividing the abductor pollicis, D, their continuity with the posterior tibial +artery and nerves, K L, Plate 67, Figure 1, behind the inner ankle may be seen. +</p> + +<p> +The plantar branches of the posterior tibial artery are the internal and +external, both of which are deeply placed between the superficial and deep +plantar muscles. The internal plantar artery is much the smaller of the two. +The external plantar artery, L, Plate 68, Figure 1, is large, and seems to be +the proper continuation of the posterior tibial. It corresponds, in the foot, +to the deep palmar arch in the hand. Placed at first between the origin of the +abductor pollicis and the calcaneum, the external plantar artery passes +outwards between the short common flexor, B, and the flexor accessorius, E, to +gain the inner borders of the muscles of the little toe; from this place it +curves deeply inwards between the tendons of the long common flexor of the +toes, F <i>f f,</i> and the tarso-metatarsal joints, to gain the outer side of +the first metatarsal bone, H, Plate 68, Figure 2. In this course it is covered +in its posterior half by the flexor brevis digitorum, and in its anterior half +by this muscle, together with the tendons of the long flexor, F, Plate 68, +Figure 1, of the toes and the lumbricales muscles, <i>i i i i.</i> From the +external plantar artery are derived the principal branches for supplying the +structures in the sole of the foot. The internal plantar nerve divides into +four branches, for the supply of the four inner toes, to which they pass +between the superficial and deep flexors. The external plantar nerve, passing +along the inner side of the corresponding artery, sends branches to supply the +outer toe and adjacent side of the next, and then passes, with the artery, +between the deep common flexor tendon and the metatarsus, to be distributed to +the deep plantar muscles. +</p> + +<p> +The posterior tibial artery may be tied behind the inner ankle, on being laid +bare in the following way:—A curved incision (the concavity forwards) of two +inches in length, is to be made midway between the tendo Achillis and the +ankle. The skin and superficial fascia having been divided, we expose the inner +annular ligament, which will be found enclosing the vessels and nerve in a +canal distinct from that of the tendons. Their fibrous sheath having been slit +open, the artery will be seen between the venae comites, and with the nerve, in +general, behind it. +</p> + +<p> +When any of the arteries of the leg or the foot are wounded, and the +haemorrhage cannot be commanded by compression, it will be necessary to search +for the divided ends of the vessel in the wound, and to apply a ligature to +both. The expediency of this measure must become fully apparent when we +consider the frequent anastomoses existing between the collateral branches of +the crural arteries, and that a ligature applied to <i>any one</i> of these +above the seat of injury will not arrest the recurrent circulation through the +vessels of the foot. +</p> + +<h4>DESCRIPTION OF PLATES 67 & 68.</h4> + +<p> +PLATE 67. +</p> + +<p> +FIGURE 1. A. The tendon of the tibialis anticus muscle. +</p> + +<p> +B B. The long saphena vein. +</p> + +<p> +C C. The tendon of the tibialis posticus muscle. +</p> + +<p> +D. The tibia; <i>d</i>, the inner malleolus. +</p> + +<p> +E E. The tendon of the flexor longus digitorum muscle. +</p> + +<p> +F. The gastrocnemius muscle; <i>f</i>, the tendo Achillis. +</p> + +<p> +G. The soleus muscle. +</p> + +<p> +H. The tendon of the plantaris muscle. +</p> + +<p> +I I. The venae comites. +</p> + +<p> +K K. The posterior tibial artery. +</p> + +<p> +L L. The posterior tibial nerve. +</p> + +<p> +FIGURE 2. +</p> + +<p> +A. The tibialis anticus muscle; <i>a</i>, its tendon. +</p> + +<p> +B. The extensor longus digitorum muscle; <i>b b b b</i>, its four tendons. +</p> + +<p> +C C. The extensor longus pollicis muscle. +</p> + +<p> +D D. The tibia. +</p> + +<p> +E. The fibula; <i>e</i>, the outer malleolus. +</p> + +<p> +F F. The tendon of the peronaeus longus muscle. +</p> + +<p> +G G. The peronaeus brevis muscle; i, the peronaeus tertius. +</p> + +<p> +H H. The fascia. +</p> + +<p> +K. The extensor brevis digitorum muscle; <i>k k</i>, its tendons. +</p> + +<p> +L L. The anterior tibial artery and nerve descending to the dorsum of the foot. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/148P67_25.jpg"> +<img src="images/148P67_25.jpg" width="403" height="650" alt="Illustration:" /></a> +<p class="caption">Plate 67, Figures 1, 2</p> +</div> + +<p> +PLATE 68. +</p> + +<p> +FIGURE 1. +</p> + +<p> +A. The calcaneum. +</p> + +<p> +B. The plantar fascia and flexor brevis digitorum muscle cut; <i>b b b</i>, its +tendons. +</p> + +<p> +C. The abductor minimi digiti muscle. +</p> + +<p> +D. The abductor pollicis muscle. +</p> + +<p> +E. The flexor accessorius muscle. +</p> + +<p> +F. The tendon of the flexor longus digitorum muscle, subdividing into <i>f f f +f</i>, tendons for the four outer toes. +</p> + +<p> +G. The tendon of the flexor pollicis longus muscle. +</p> + +<p> +H. The flexor pollicis brevis muscle. +</p> + +<p> +<i>i i i i</i>. The four lumbricales muscles. +</p> + +<p> +K. The external plantar nerve. +</p> + +<p> +L. The external plantar artery. +</p> + +<p> +M. The internal plantar nerve and artery. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/148P68F1_25.jpg"> +<img src="images/148P68F1_25.jpg" width="250" height="650" alt="Illustration:" /></a> +<p class="caption">Plate 68, Figure 1</p> +</div> + +<p> +FIGURE 2. +</p> + +<p> +A. The heel covered by the integument. +</p> + +<p> +B. The plantar fascia and flexor brevis digitorum muscle cut; <i>b b b</i>, the +tendons of the muscle. +</p> + +<p> +C. The abductor minimi digiti. +</p> + +<p> +D. The abductor pollicis. +</p> + +<p> +E. The flexor accessorius cut. +</p> + +<p> +F. The tendon of the flexor digitorum longus cut; <i>f f f</i>, its digital +ends. +</p> + +<p> +G. The tendon of the flexor pollicis. +</p> + +<p> +H. The head of the first metatarsal bone. +</p> + +<p> +I. The tendon of the tibialis posticus. +</p> + +<p> +K. The external plantar nerve. +</p> + +<p> +L L. The arch of the external plantar artery. +</p> + +<p> +M M M M. The four interosseous muscles. +</p> + +<p> +N. The external plantar nerve and artery cut. +</p> + +<div class="fig" style="width:100%;"> +<a href="images/148P68F2_25.jpg"> +<img src="images/148P68F2_25.jpg" width="254" height="650" alt="Illustration:" /></a> +<p class="caption">Plate 68, Figure 2</p> +</div> + +</div><!--end chapter--> + +<div class="chapter"> + +<h2><a name="chap36"></a>CONCLUDING COMMENTARY. ON THE FORM AND DISTRIBUTION OF +THE VASCULAR SYSTEM AS A WHOLE. ANOMALIES.—RAMIFICATION.—ANASTOMOSIS.</h2> + +<p> +I.—The heart, in all stages of its development, is to the vascular system what +the point of a circle is to the circumference—namely, at once <i>the beginning +and the end.</i> The heart, occupying, it may be said, the centre of the +thorax, circulates the blood in the same way, by similar channels, to an equal +extent, in equal pace, and at the same period of time, through both sides of +the body. In its adult normal condition, the heart presents itself as a double +or symmetrical organ. The two hearts, though united and appearing single, are +nevertheless, as to their respective cavities, absolutely distinct. Each heart +consists again of two compartments—an auricle and a ventricle. The two auricles +are similar in structure and form. The two ventricles are similar in the same +respects. A septum divides the two auricles, and another—the two ventricles. +Between the right auricle and ventricle, forming the right heart, there exists +a valvular apparatus (tricuspid), by which these two compartments communicate; +and a similar valve (bicuspid) admits of communication between the left auricle +and ventricle. The two hearts being distinct, and the main vessels arising from +each respectively being distinct likewise, it follows that the capillary +peripheries of these vessels form the only channels through which the blood +issuing from one heart can enter the other. +</p> + +<p> +II.—As the aorta of the left heart ramifies throughout all parts of the body, +and as the countless ramifications of this vessel terminate in an equal number +of ramifications of the principal veins of the right heart, it will appear that +between the systemic vessels of the two hearts respectively, the capillary +anastomotic circulation reigns <i>universal.</i> +</p> + +<p> +III.—The body generally is marked by the median line, from the vertex to the +perinaeum, into corresponding halves. All parts excepting the main bloodvessels +in the neighbourhood of the heart are naturally divisible by this line into +equals. The vessels of each heart, in being distributed to both sides of the +body alike, cross each other at the median line, and hence they are inseparable +according to this line, unless by section. If the vessels proper to each heart, +right and left, ramified alone within the limits of their respective sides of +the body, then their capillary anastomosis could only take place along the +median line, and here in such case they might be separated by median section +into two distinct systems. But as each system is itself double in branching +into both sides of the body, the two would be at the same time equally divided +by vertical section. From this it will appear that the vessels belonging to +<i>each</i> heart form a symmetrical system, corresponding to the sides of the +body, and that the capillary anastomosis of these systemic veins and arteries +is divisible into <i>two great fields</i>, one situated on either side of the +median line, and touching at this line. +</p> + +<p> +IV.—The vessels of the right heart do not communicate at their capillary +peripheries, for its veins are systemic, and its arteries are pulmonary. The +vessels of the left heart do not anastomose, for its veins are pulmonary, and +its arteries are systemic. The arteries of the right and left hearts cannot +anastomose, for the former are pulmonary, and the latter are systemic; and +neither can the veins of the right and left hearts, for a similar reason. +Hence, therefore, there can be, between the vessels of both hearts, but <i>two +provinces of anastomosis</i>—viz., that of the lungs, and that of the system. +In the lungs, the arteries of the right heart and the veins of the left +anastomose. In the body generally (not excepting the lungs), the arteries of +the left heart, and the veins of the right, anastomose; and thus in the +pulmonary and the systemic circulation, each heart plays an equal part through +the medium of its proper vessels. The pulmonary bear to the systemic vessels +the same relation as a lesser circle contained within a greater; and the +vessels of each heart form the half of each circle, the arteries of the one +being opposite the veins of the other. +</p> + +<p> +V.—The two hearts being, by the union of their similar forms, as one organ in +regard to place, act, by an agreement of their corresponding functions, as one +organ in respect to time. The action of the auricles is synchronous; that of +the ventricles is the same; that of the auricles and ventricles is +consentaneous; and that of the whole heart is rhythmical, or harmonious—the +diastole of the auricles occurring in harmonical time with the systole of the +ventricles, and <i>vice versa</i>. By this correlative action of both hearts, +the pulmonary and systemic circulations take place synchronously; and the +phenomena resulting in both reciprocate and balance each other. In the +pulmonary circulation, the blood is aerated, decarbonized, and otherwise +depurated; whilst in the systemic circulation, it is carbonized and otherwise +deteriorated. +</p> + +<p> +VI.—The circulation through the lungs and the system is carried on through +vessels having the following form and relative position, which, as being most +usual, is accounted normal. The two brachio-cephalic veins joining at the root +of the neck, and the two common iliac veins joining in front of the lumbar +vertebrae, form the superior and inferior venae cavae, by which the blood is +returned from the upper and lower parts of the body to the right auricle, and +thence it enters the right ventricle, by which it is impelled through the +pulmonary artery into the two lungs; and from these it is returned (aerated) by +the pulmonary veins to the left auricle, which passes it into the left +ventricle, and by this it is impelled through the systemic aorta, which +branches throughout the body in a similar way to the systemic veins, with which +the aortic branches anastomose generally. On viewing together the system of +vessels proper to each heart, they will be seen to exhibit in respect to the +body a figure in doubly symmetrical arrangement, of which the united hearts +form a duplex centre. At this centre, which is the theatre of metamorphosis, +the principal abnormal conditions of the bloodvessels appear; and in order to +find the signification of these, we must retrace the stages of development. +</p> + +<p> +VII.—From the first appearance of an individualized centre in the vascular area +of the human embryo, that centre (punctum saliens) and the vessels immediately +connected with it, undergo a phaseal metamorphosis, till such time after birth +as they assume their permanent character. In each stage of metamorphosis, the +embryo heart and vessels typify the normal condition of the organ in one of the +lower classes of animals. The several species of the organ in these classes are +parallel to the various stages of change in the human organ. In its earliest +condition, the human heart presents the form of a simple canal, similar to that +of the lower Invertebrata, the veins being connected with its posterior end, +while from its anterior end a single artery emanates. The canal next assumes a +bent shape, and the vessels of both its ends become thereby approximated. The +canal now being folded upon itself in heart-shape, next becomes constricted in +situations, marking out the future auricle and ventricle and arterial bulb, +which still communicate with each other. From the artery are given off on +either side symmetrically five branches (branchial arches), which arch +laterally from before, outwards and backwards, and unite in front of the +vertebrae, forming the future descending aorta. In this condition, the human +heart and vessels resemble the Piscean pipe. The next changes which take place +consist in the gradual subdivision, by means of septa, of the auricle and +ventricle respectively into two cavities. On the separation of the single +auricle into two, while the ventricle as yet remains single, the heart presents +that condition which is proper to the Reptilian class. The interauricular and +interventricular septa, by gradual development from without inwards, at length +meet and coalesce, thereby dividing the two cavities into four—two auricles and +two ventricles—a condition proper to the Avian and Mammalian classes generally. +In the centre of the interauricular septum of the human heart, an aperture +(<i>foramen ovale</i>) is left as being necessary to the foetal circulation. +While the septa are being completed, the arterial bulb also becomes divided by +a partition formed in its interior in such a manner as to adjust the two +resulting arteries, the one in connexion with the right, the other with the +left ventricle. The right ventricular artery (pulmonary aorta) so formed, has +assigned to it the fifth (posterior) opposite pair of arches, and of these the +right one remaining pervious to the point where it gives off the right +pulmonary branch, becomes obliterated beyond this point to that where it joins +the descending aorta, while the left arch remains pervious during foetal life, +as the <i>ductus arteriosus</i> still communicating with the descending aorta, +and giving off at its middle the left pulmonary branch. The left ventricular +artery (systemic aorta) is formed of the fourth arch of the left side, while +the opposite arch (fourth right) is altogether obliterated. The third and +second arches remain pervious on both sides, afterwards to become the right and +left brachio-cephalic arteries. The first pair of arches, if not converted into +the vertebral arteries, or the thyroid axes, are altogether metamorphosed. By +these changes the heart and primary arteries assume the character in which they +usually present themselves at birth, and in all probability the primary veins +corresponded in form, number, and distribution with the arterial vessels, and +underwent, at the same time, a similar mode of metamorphosis. One point in +respect to the original symmetrical character of the primary veins is +demonstrable—namely, that in front of the aortic branches the right and left +brachio-cephalic veins, after joining by a cross branch, descend separately on +either side of the heart, and enter (as two superior venae cavae) the right +auricle by distinct orifices. In some of the lower animals, this double +condition of the superior veins is constant, but in the human species the left +vein below the cross branch (left brachio-cephalic) becomes obliterated, whilst +the right vein (vena cava superior) receives the two brachio-cephalic veins, +and in this condition remains throughout life. After birth, on the commencement +of respiration, the <i>foramen ovale</i> of the interauricular septum closes, +and the <i>ductus arteriosus</i> becomes impervious. This completes the stages +of metamorphosis, and changes the course of the simple foetal circulation to +one of a more complex order—viz., the systemic-pulmonary characteristic of the +normal state in the adult body. +</p> + +<p> +VIII.—Such being the phases of metamorphosis of the primary (branchial) arches +which yield the vessels in their normal adult condition, we obtain in this +history an explanation of the signification not only of such of their anomalies +as are on record, but of such also as are <i>potential</i> in the law of +development; a few of them will suffice to illustrate the meaning of the whole +number:—l<i>st</i>, The interventricular as well as the interauricular septum +may be arrested in growth, leaving an aperture in the centre of each; the +former condition is <i>natural to the human foetus</i>, the latter <i>to the +reptilian class,</i> while both would be <i>abnormal in the human adult. +2nd</i>. The heart may be <i>cleft at its apex</i> in the situation of the +interventricular septum—a condition <i>natural to the Dugong</i>, A similar +cleavage may divide the <i>base of the heart</i> in the situation of the +interauricular septum. 3<i>rd</i>. The <i>partitioning of the bulbus +arteriosus</i> may occur in such a manner as to assign to the two aortae a +relative position, the<i> reverse</i> of that which they <i>normally</i> +occupy—the <i>pulmonary aorta</i> springing from the <i>left ventricle</i> and +the <i>systemic aorta</i> arising from the <i>right,</i> and giving off from +its arch the <i>primary branches</i> in the usual order. [Footnote 1] +4<i>th</i>. As the<i> two aortae</i> result from a <i>division</i> of the +<i>common primary vessel (bulbus arteriosus)</i>, an <i>arrest</i> in the +growth of the partition would leave them still as <i>one vessel</i>, which +(supposing the ventricular septum remained also incomplete) would then arise +from a <i>single ventricle</i>. 5<i>th.</i> The <i>ductus arteriosus</i> may +remain <i>pervious</i>, and while co-existing with the proper <i>aortic arch, +two arches</i> would then appear on the <i>left side</i>. 6<i>th</i>. The +<i>systemic normal aortic arch</i> may be obliterated as far up as the +<i>innominate branch</i>, and while the <i>ductus arteriosus</i> remains +<i>pervious,</i> and leading from the pulmonary artery to the descending part +of the aortic arch, this vessel would then present the appearance of <i>a +branch</i> ascending from the left side and giving off the brachio-cephalic +arteries. The <i>right ventricular artery</i> would then, through the medium of +the <i>ductus arteriosus</i>, supply both the lungs and the system. Such a +state of the vessels would require (in order that the circulation of a mixed +blood might be carried on) that the two ventricles freely communicate. +7<i>th</i>. If the <i>fourth arch</i> of the <i>right side</i> remained +pervious opposite the <i>proper aortic arch</i>, there would exist <i>two +aortic arches</i> placed <i>symmetrically</i>, one on either side of the +vertebral column, and, joining below, would <i>include in their circle</i> the +trachea and oesophagus. 8th. If the <i>fifth arch</i> of the <i>right side</i> +remained <i>pervious</i> opposite the <i>open ductus arteriosus</i>, both +vessels would present a similar arrangement, as <i>two symmetrical ducti +arteriosi</i> co-existing with symmetrical aortic arches. 9<i>th</i>. If the +vessels appeared <i>co-existing</i> in the <i>two conditions</i> last +mentioned, they would represent <i>four aortic arches, two on either side of +the vertebral column.</i> 10<i>th</i>. If the <i>fourth right arch, instead of +the fourth left</i> (aorta), remained <i>pervious</i>, the <i>systemic aortic +arch</i> would then be turned to the <i>right side</i> of the vertebral column, +and have the trachea and oesophagus on its <i>left</i>. 11<i>th.</i> When the +<i>bulbus arteriosus</i> divides itself into <i>three parts</i>, the <i>two +lateral parts</i>, in becoming connected with the <i>left ventricle</i>, will +represent a <i>double ascending systemic aorta</i>, and having the <i>pulmonary +artery</i> passing <i>between them</i> to the lungs. 12<i>th</i>. When of the +<i>two original superior venae cavae</i> the <i>right one</i> instead of the +left suffers metamorphosis, the <i>vena cava superior</i> will then appear on +the <i>left side</i> of the <i>normal aortic arch.</i> [Footnote 2] Of these +malformations, some are rather frequently met with, others very seldom, and +others cannot exist compatible with life after birth. Those which involve a +more or less imperfect discharge of the blood-aerating functions of the lungs, +are in those degrees more or less fatal, and thus nature aborting as to the +fitness of her creation, cancels it. +</p> + +<p> +[Footnote 1: This physiological truth has, I find, been applied by Dr. R. Quain +to the explanation of a numerous class of malformations connected with the +origins of the great vessels from the heart, and of their primary branches. See +<i>The Lancet</i>, vol. I. 1842.] +</p> + +<p> +[Footnote 2: For an analysis of the occasional peculiarities of these primary +veins in the human subject, see an able and original monograph in the +<i>Philosophical Transactions,</i> Part 1., 1850, entitled, “On the Development +of the Great Anterior Veins in Man and Mammalia.” By John Marshall, F.R.C.S., +&c. ] +</p> + +<p> +IX.—The <i>portal system of veins</i> passing <i>to</i> the liver, and the +hepatic veins passing <i>from</i> this organ to join the inferior vena cava, +exhibit in respect to the median line of the body an example of a-symmetry, +since appearing on the right side, they have no counterparts on the left. As +the law of symmetry seems to prevail universally in the development of +organized beings, forasmuch as every lateral organ or part has its counterpart, +while every central organ is double or complete, in having two similar sides, +then the portal system, as being an exception to this law, is as a natural note +of interrogation questioning the signification of that fact, and in the +following observations, it appears to me, the answer may be found. Every artery +in the body has its companion vein or veins. The inferior vena cava passes +sidelong with the aorta in the abdomen. Every branch of the aorta which +ramifies upon the abdominal parietes has its accompanying vein returning either +to the vena cava or the vena azygos, and entering either of these vessels at a +point on the same level as that at which itself arises. The renal vessels also +have this arrangement. But all the other veins of the abdominal viscera, +instead of entering the vena cava opposite their corresponding arteries, unite +into a single trunk (vena portae), which enters the liver. The special purpose +of this destination of the portal system is obvious, but the function of a part +gives no explanation of its form or relative position, whether singular or +otherwise. On viewing the vessels in presence of the general law of symmetrical +development, it occurs to me that the <i>portal</i> and <i>hepatic veins form +one continuous system</i>, which taken in <i>the totality</i>, represents the +<i>companion veins of the arteries of the abdominal viscera.</i> The liver +under this interpretation appears as a gland <i>developed midway</i> upon these +veins, and <i>dismembering them</i> into a mesh of countless capillary vessels, +(a condition necessary for all processes of secretion,) for the special purpose +of decarbonizing the blood. In this great function the liver is an organ +correlative or compensative to the lungs, whose office is similar. The +secretion of the liver (bile) is fluidform; that of the lungs is aeriform. The +bile being necessary to the digestive process, the liver has a duct to convey +that product of its secretion to the intestines. The trachea is as it were the +duct of the lungs. In the liver, then,<i> the portal</i> and <i>hepatic +veins</i> being continuous <i>as veins,</i> the two systems, notwithstanding +their apparent distinctness, caused by the intervention of the hepatic lobules, +may be regarded as the <i>veins corresponding with the arteries of the coeliac +axis, and the two mesenteric.</i> The hepatic artery and the hepatic veins +evidently do <i>not</i> pair in the sense of <i>afferent</i> and +<i>efferent,</i> with respect to the liver, both these vessels having +destinations as different as those of the bronchial artery and the pulmonary +veins in the lungs. The bronchial artery is attended by its vein proper, while +the vein which corresponds to the hepatic artery joins either the hepatic or +portal veins traversing the liver, and in this position escapes +notice.[Footnote] +</p> + +<p> +[Footnote: In instancing these facts, as serving under comparison to explain +how the hepatic vessels constitute no <i>radical</i> exception to the law of +symmetry which presides over the development and distribution of the vascular +system as a whole, I am led to inquire in what respect (if in any) the liver as +an organ forms an exception to this general law either in shape, in function, +or in relative position. While seeing that every central organ is single and +symmetrical by the union of two absolutely similar sides, and that each lateral +pair of organs is double by the disunion of sides so similar to each other in +all respects that the description of either side serves for the other opposite, +it has long since seemed to me a reasonable inference that, since the liver on +the right has no counterpart <i>as a liver</i> on the left, and that, since the +spleen on the left has no counterpart <i>as a spleen</i> on the right, so these +two organs (the liver and spleen) must themselves correspond to each other, and +as such, express their respective significations. Under the belief that every +exception (even though it be normal) to a general law or rule, is, like the +anomaly itself, alone explicable according to such law, and expressing a fact +not more singular or isolated from other parallel facts than is one form from +another, or from all others constituting the graduated scale of being, I would, +according to the light of this evidence alone, have no hesitation in stating +that the liver and spleen, as opposites, represent corresponding organs, even +though they appeared at first view more dissimilar than they really are. In +support of this analogy of both organs, which is here, so far as I am aware, +originally enunciated for anatomical science, I record the following +observations:—1<i>st.</i> Between the opposite parts of the <i>same</i> organic +entity (between the opposite leaves of the same plant, for example), nature +manifests no such absolute difference in any case as exists between the leaf of +a plant and of a book. 2<i>ndly.</i> When between two opposite parts of the +<i>same</i> organic form there appears any differential character, this is +simply the result of a modification or metamorphosis of one of the two +perfectly similar originals or archetypes, but never carried out to such an +extreme degree as to annihilate all trace of their analogy. 3<i>rdly.</i> The +liver and the spleen are opposite parts; and as such, they are associated by +arteries which arise by a single trunk (coeliac axis) from the aorta, and +branch right and left, like indices pointing to the relationship between both +these organs, in the same manner as the two emulgent arteries point to the +opposite renal organs. 4<i>thly</i>. The liver is divided into two lobes, right +and left; the left is less than the right; that quantity which is wanting to +the left lobe is equal to the quantity of a spleen; and if in idea we add the +spleen to the left lobe of the liver, both lobes of this organ become +quantitatively equal, and the whole liver symmetrical; hence, as the liver +<i>plus</i> the spleen represents the whole structural quantity, so the liver +<i>minus</i> the spleen signifies that the two organs now dissevered still +relate to each other as parts of the same whole. 5<i>thly</i>. The liver, as +being <i>three-fourths</i> of the whole, possesses the <i>duct</i> which +emanates at the centre of all glandular bodies. The spleen, as being +<i>one-fourth</i> of the whole, is <i>devoid</i> of the duct. The liver having +the duct, is functional as a gland, while the spleen having no duct, cannot +serve any such function. If, in thus indicating the function which the spleen +does <i>not</i> possess, there appears no proof positive of the function which +it <i>does,</i> perhaps the truth is, that as being the ductless portion of the +whole original hepatic quantity, it exists as a thing degenerate and +functionless, for it seems that the animal economy suffers no loss of function +when deprived of it. 6<i>thly.</i> In early foetal life, the left lobe of the +liver <i>touches</i> the spleen on the left side; but in the process of +abdominal development, the two organs become separated from each other right +and left. 7<i>thly.</i> In animals devoid of the spleen, the liver appears of a +<i>symmetrical</i> shape, both its lobes being <i>equal</i>; for that quantity +which in other animals has become splenic, is in the former still hepatic. +8<i>thly</i>. In cases of transposition of both organs, it is the <i>right</i> +lobe of the liver—that <i>nearest the spleen,</i> now on the right side—which +is the <i>smaller</i> of the two lobes, proving that whichever lobe be in this +condition, the <i>spleen,</i> as being opposite to it, <i>represents the minus +hepatic quantity</i>. From these, among other facts, I infer that the spleen is +the representative of the liver on the left side, and that as such, its +signification being manifest, there exists no exception to the law of animal +symmetry. “Tam miram uniformitatem in planetarum systemate, necessario fatendum +est intelligentia et concilio fuisse effectam. Idemque dici possit de +uniformitate illa quae est in corporibus animalium. Habent videlicet animalia +pleraque omnia, bina latera, dextrum et sinistrum, forma consimili: et in +lateribus illis, a posteriore quidem corporis sui parte, pedes binos; ab +anteriori autem parte, binos armos, vel pedes, vel alas, humeris affixos: +interque humeros collum, in spinam excurrens, cui affixum est caput; in eoque +capite binas aures, binos oculos, nasum, os et linguam; similiter posita omnia, +in omnibus fere animalibus.”—<i>Newton, Optices, sive de reflex, &c</i>. +p. 411.] +</p> + +<p> +X.—<i>The heart</i>, though being itself the recipient, the prime mover, and +the dispenser of the blood, does not depend either for its growth, vitality, or +stimulus to action, upon the blood under these uses, but upon the blood +circulating through vessels which are derived from its main systemic artery, +and disposed in capillary ramifications through its substance, in the manner of +the nutrient vessels of all other organs. The two <i>coronary arteries</i> of +the heart arise from the systemic aorta immediately outside the semilunar +valves, situated in the root of this vessel, and in passing right and left +along the auriculo-ventricular furrows, they send off some branches for the +supply of the organ itself, and others by which both vessels anastomose freely +around its base and apex. The <i>vasa cordis</i> form an anastomotic +circulation altogether isolated from the vessels of the other thoracic organs, +and also from those distributed to the thoracic parietes. The coronary arteries +are accompanied by veins which open by distinct orifices (<i>foramina +Thebesii</i>) into the right auricle. Like the heart itself, its main vessels +do not depend for their support upon the blood conveyed by them, but upon that +circulated by the small arteries (<i>vasa vasorum</i>) derived either from the +vessel upon which they are distributed, or from some others in the +neighbourhood. These little arteries are attended by veins of a corresponding +size (<i>venules</i>) which enter the venae comites, thus carrying out the +general order of vascular distribution to the minutest particular. Besides the +larger nerves which accompany the main vessels, there are delicate filaments of +the cerebro-spinal and sympathetic system distributed to their coats, for the +purpose, as it is supposed, of governing their “contractile movements.” The +<i>vasa vasorum</i> form an anastomosis as well upon the inner surface of the +sheath as upon the artery contained in this part; and hence in the operation +for tying the vessel, the rule should be to disturb its connexions as little as +possible, otherwise its vitality, which depends upon these minute branches, +will, by their rupture,<i> be destroyed in the situation of the ligature, where +it is most needed</i>. +</p> + +<p> +XI.—<i>The branches of the systemic aorta</i> form frequent anastomoses with +each other in all parts of the body. <i>This anastomosis occurs chiefly amongst +the branches of the main arteries proper to either side</i>. Those branches of +the opposite vessels which join at the median line are generally of very small +size. There are but few instances in which a large blood vessel <i>crosses the +central line from its own side to the other</i>. Anastomosis at the median line +between opposite vessels happens either by a <i>fusion of their sides</i> lying +parallel, as for example (and the only one) that of the two vertebral arteries +on the basilar process of the occipital bone; or else by a direct <i>end-to-end +union</i>, of which the lateral pair of cerebral arteries, forming the +<i>circle of Willis</i>, and the two labial arteries, forming the coronary, are +examples. The branches of the main arteries of one side form numerous +anastomoses in the muscles and in the cellular and adipose tissue generally. +Other special branches derived from the parent vessel above and below the +several joints ramify and anastomose so very freely over the surfaces of these +parts, and seem to pass in reference to them out of their direct course, that +to effect this mode of distribution appears to be no less immediate a design +than to support the structures of which the joints are composed. +</p> + +<p> +XII.—<i>The innominate artery</i>. When this vessel is tied, the free direct +circulation through the principal arteries of the right arm, and the right side +of the neck, head, and brain, becomes arrested; and the degree of strength of +the recurrent circulation depends solely upon the amount of anastomosing points +between the following arteries of the opposite sides. The small terminal +branches of the two occipital, the two auricular, the two superficial temporal, +and the two frontal, inosculate with each other upon the sides, and over the +vertex of the head; the two vertebral, and the branches of the internal +carotid, at the base and over the surface of the brain; the two facial with +each other, and with the frontal above and mental below, at the median line of +the face; the two internal maxillary by their palatine, pharyngeal, meningeal, +and various other branches upon the surface of the parts to which they are +distributed; and lastly, the two superior thyroid arteries inosculate around +the larynx and in the thyroid body. By these anastomoses, it will be seen that +the circulation is restored to the branches of the common carotid almost +solely. In regard to the subclavian artery, the circulation would be carried on +through the anastomosing branches of the two inferior thyroid in the thyroid +body; of the two vertebral, in the cranium and upon the cervical vertebrae; of +the two internal mammary, with each other behind the sternum, and with the +thoracic branches of the axillary and the superior intercostal laterally; +lastly, through the anastomosis of the ascending cervical with the descending +branch of the occipital, and with the small lateral offsets of the vertebral. +</p> + +<p> +XIII.—<i>The common carotid arteries,</i> Of these two vessels, the left one +arising, in general, from the arch of the aorta, is longer than the right one +by the measure of the innominate artery from which the right arises. When +either of the common carotids is tied, the circulation will be maintained +through the anastomosing branches of the opposite vessels as above specified. +When the vertebral or the inferior thyroid branch arises from the middle of the +common carotid, this vessel will have an additional source of supply if the +ligature be applied to it below the origin of such branch. In the absence of +the innominate artery, the right as well as the left carotid will be found to +spring directly from the aortic arch. +</p> + +<p> +XIV.—<i>The subclavian arteries.</i> When a ligature is applied to the inner +third of this vessel within its primary branches, the collateral circulation is +carried on by the anastomoses of the arteries above mentioned; but if the +vertebral or the inferior thyroid arises either from the aorta or the common +carotid, the sources of arterial supply in respect to the arm will, of course, +be less numerous. When the outer portion of the subclavian is tied between the +scalenus and the clavicle, while the branches arise from its inner part in +their usual position and number, the collateral circulation in reference to the +arm is maintained by the following anastomosing branches:—viz., those of the +superficialis colli, and the supra and posterior scapular, with those of the +acromial thoracic; the subscapular, and the anterior and posterior circumflex +around the shoulder-joint, and over the dorsal surface of the scapula; and +those of the internal mammary and superior intercostal, with those of the +thoracic arteries arising from the axillary. Whatever be the variety as to +their mode or place of origin, the branches emanating from the subclavian +artery are constant as to their destination. The length of the inner portion of +the right subclavian will vary according to the place at which it arises, +whether from the innominate artery, from the ascending, or from the descending +part of the aortic arch. +</p> + +<p> +XV.—<i>The axillary artery</i>. As this vessel gives off throughout its whole +length, numerous branches which inosculate principally with the scapular, +mammary, and superior intercostal branches of the subclavian, it will be +evident that, in tying it above its own branches, the anastomotic circulation +will with much greater freedom be maintained in respect to the arm, than if the +ligature be applied below those branches. Hence, therefore, when the axillary +artery is affected with aneurism, thereby rendering it unsafe to apply a +ligature to this vessel, it becomes not only pathologically, but anatomically, +the more prudent measure to tie the subclavian immediately above the clavicle. +</p> + +<p> +XVI.—<i>The brachial artery</i>, When this artery is tied immediately below the +axilla, the collateral circulation will be weakly maintained, in consequence of +the small number of anastomosing branches arising from it above and below the +seat of the ligature. The two circumflex humeri alone send down branches to +inosculate with the small muscular offsets from the middle of the brachial +artery. When tied in the middle of the arm between the origins of the superior +and inferior profunda arteries, the collateral circulation will depend chiefly +upon the anastomosis of the former vessel with the recurrent branch of the +radial, and of muscular branches with each other. When the ligature is applied +to the lower third of the vessel, the collateral circulation will be +comparatively free through the anastomoses of the two profundi and anastomotic +branches with the radial, interosseous, and ulnar recurrent branches. If the +artery happen to divide in the upper part of the arm into either of the +branches of the forearm, or into all three, a ligature applied to any one of +them will, of course, be insufficient to arrest the direct circulation through +the forearm, if this be the object in view. +</p> + +<p> +XVII.—The <i>radial artery.</i> If this vessel be tied in any part of its +course, the collateral circulation will depend principally upon the free +communications between it and the ulnar, through the medium of the superficial +and deep palmar arches and those of the branches derived from both vessels, and +from the two interossei distributed to the fingers and back of the hand. +</p> + +<p> +XVIII.—The <i>ulnar artery.</i> When this vessel is tied, the collateral +circulation will depend upon the anastomosis of the palmar arches, as in the +case last mentioned. While the radial, ulnar, and interosseous arteries spring +from the same main vessel, and are continuous with each other in the hand, they +represent the condition of a circle of which, when either side is tied, the +blood will pass in a current of almost equal strength towards the seat of the +ligature from above and below—a circumstance which renders it necessary to tie +both ends of the vessel in cases of wounds. +</p> + +<p> +XIX.—The <i>common iliac artery</i>. When a ligature is applied to the middle +of this artery, the direct circulation becomes arrested in the lower limb and +side of the pelvis corresponding to the vessel operated on. The collateral +circulation will then be carried on by the anastomosis of the following +branches—viz., those of the lumbar, the internal mammary, and the epigastric +arteries of that side with each other, and with their fellows in the anterior +abdominal parietes; those of the middle and lateral sacral; those of the +superior with the middle and inferior haemorrhoidal; those of the aortic and +internal iliac uterine branches in the female; and of the aortic and external +iliac spermatic branches in the male. The anastomoses of these arteries with +their opposite fellows along the median line, are much less frequent than those +of the arteries of the neck and head. +</p> + +<p> +XX.—<i>The external iliac artery.</i> This vessel, when tied at its middle, +will have its collateral circulation carried on by the anastomoses of the +internal mammary with the epigastric; by those of the ilio-lumbar with the +circumflex ilii; those of the internal circumflex femoris, and superior +perforating arteries of the profunda femoris, with the obturator, when this +branch arises from the internal iliac; those of the gluteal with the external +circumflex; those of the latter with the sciatic; and those of both obturators, +with each other, when arising—the one from the internal, the other from the +external iliac. Not unfrequently either the epigastric, obturator, ilio-lumbar, +or circumflex ilii, arises from the middle of the external iliac, in which case +the ligature should be placed above such branch. +</p> + +<p> +XXI.—The <i>common femoral artery</i>. On considering the circles of +inosculation formed around the innominate bone between the branches derived +from the iliac arteries near the sacro-iliac junction, and those emanating from +the common femoral, above and below Poupart’s ligament, it will at once appear +that, in respect to the lower limb, the collateral circulation will occur more +freely if the ligature be applied to the main vessel (external iliac) than if +to the common femoral below its branches. +</p> + +<p> +XXII.—The <i>superficial femoral artery</i>. When a ligature is applied to this +vessel at the situation where it is overlapped by the sartorius muscle, the +collateral circulation will be maintained by the following arteries:—the long +descending branches of the external circumflex beneath the rectus muscle, +inosculate with the muscular branches of the anastomotica magna springing from +the lower third of the main vessel; the three perforating branches of the +profunda inosculate with the latter vessel, with the sciatic, and with the +articular and muscular branches around the knee-joint. +</p> + +<p> +XXIII.—The <i>popliteal artery.</i> When any circumstance renders it necessary +to tie this vessel in preference to the femoral, the ligature should be placed +above its upper pair of articular branches; for by so doing a freer collateral +circulation will take place in reference to the leg. The ligature in this +situation will lie between the anastomotic and articular arteries, which freely +communicate with each other. +</p> + +<p> +XXIV.—The <i>anterior and posterior tibial and peronoeal arteries.</i> As these +vessels correspond to the arteries of the forearm, the observations which apply +to the one set apply also to the other. [Footnote] +</p> + +<p> +[Footnote: For a complete history of the general vascular system, see <i>The +Anatomy of the Arteries of the Human Body</i>, by Richard Quain, F.R.S., +&c., in which work, besides the results of the author’s own great +experience and original observations, will be found those of Haller’s, +Scarpa’s, Tiedemann’s, &c., systematically arranged with a view to +operative surgery.] +</p> + +<p> +THE END. +</p> + +</div><!--end chapter--> + +<div style='display:block; margin-top:4em'>*** END OF THE PROJECT GUTENBERG EBOOK SURGICAL ANATOMY ***</div> +<div style='text-align:left'> + +<div style='display:block; margin:1em 0'> +Updated editions will replace the previous one—the old editions will +be renamed. +</div> + +<div style='display:block; margin:1em 0'> +Creating the works from print editions not protected by U.S. copyright +law means that no one owns a United States copyright in these works, +so the Foundation (and you!) can copy and distribute it in the United +States without permission and without paying copyright +royalties. 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