DISEASES OF THE AORTA.

BY G. M. GARLAND, M.D.

Acute Aortitis.

The existence of inflammation of the membranes of the aorta was mentioned by Galen and other early writers, but it was not until 1824 that a systematic treatise on this subject was published. Since that time the subject has received more attention, but the results obtained are unsatisfactory. There is grave doubt, according to many writers, as to the existence of acute aortitis independent of other lesions, although it is recognized that the aorta may participate in inflammation of the neighboring organs. Even then, as Powell says, "the aorta is very slow to share in such processes, and when it does so the inflammation is very chronic and limited, giving rise to no special symptoms." Peter treats the subject at length, and after enumerating certain so-called symptoms of acute aortitis, confesses that these symptoms are merely the ordinary phenomena of angina pectoris, and these two affections cannot be distinguished from each other. It must be concluded for the present, therefore, that acute aortitis is rare, and that we know of no symptoms which are characteristic of it.

Atheroma of the Aorta.

Atheroma of the aorta is the result of chronic endarteritis, and is always of slow development. The process may be limited to the intima or it may extend to the middle and outer tunics. Beginning with a thickening and softening of the wall, it finally develops plates of calcareous deposit. These plates are most numerous in the region of the aortic valves, and diminish in number as the artery proceeds from that point. The descending portion of the aorta is relatively free from these patches, but they reappear again near or at the bifurcation.

ETIOLOGY.—Atheroma is one of the ordinary products of old age, and is therefore one expression of senility. Heredity probably exerts some influence, and certain cachexias predispose to an early occurrence of the process. Gout and syphilis render one especially prone to it. High pressure and strain are also important factors. Continuous hard toil is more productive of atheroma, according to Allbutt, than intermittent work. The pre-albuminuric stage of Bright's disease, which is characterized by high arterial pressure, is frequently productive of atheroma.

SYMPTOMS.—When the inner coat alone is affected, there are no symptoms of this disease. According as the degeneration extends deeper and involves the middle and outer tunics, the aorta begins to dilate, and the symptoms may vary from the slightest feelings of discomfort upon exertion to the most violent attacks of palpitation and pain.

Usually, at the beginning the symptoms are very obscure. A slight dyspnoea on exertion, or palpitation, or dyspeptic troubles are the chief complaint. The presence of these troubles in a man of fifty years or over, whose heart and kidneys present nothing abnormal, and in whom the smaller arteries of the extremities feel hard and calcareous, may excite the suspicion of atheroma of the aorta. There are no distinctive physical signs. Some writers speak of a short post-systolic murmur over the aorta beyond the valves, which may be audible only when the heart is acting strongly.

The aorta is almost invariably dilated, and Peter says that this dilatation may be traced by percussion. According to him, the normal aortic dull area measures from two to five centimeters transversely in the male, and from two to four centimeters in the female. He says that he has seen cases of atheroma where he was able to determine a dull aortic area of eight centimeters in diameter. If the inflammation extend from the aorta to the neighboring nerves, the patient may suffer from the ordinary symptoms of angina pectoris.

TREATMENT.—This disease cannot be cured by drugs. The physician's task is to regulate the habits of the patient, to remove so far as possible all conditions which tend to aggravate and increase the trouble, and to alleviate incidental symptoms of distress.

Thoracic Aneurism.

DEFINITION.—The origin of the term aneurism is buried in obscurity, and the theories which have been advanced regarding it are not very satisfactory. Montanus thought it was derived from a privative, and neuron, a nerve. Oetius declares it is from aneurisma, an enlargement, from eurumo, I dilate. Coale thinks a ready origin is offered in the words aneu, without, rusmos, a series, course, or succession, from ruo, I flow.

Aneurism of the aorta is a local dilatation of that vessel. When all the arterial tunics persist unruptured in the tumor, it is a true aneurism. When one or more of the tunics are torn in the process of expansion, it becomes a false aneurism. When all the tunics of the artery rupture and the blood escapes into the neighboring cellular tissue, it becomes a diffuse false aneurism. The internal and middle coats of an artery may burst, and the blood escape into and coagulate in the space between the middle and external tunics, and this is termed a dissecting aneurism. In rare instances of this type of aneurism the blood finds a second opening, and returns into the artery again, thus forming a double tube for a short distance.

In former times great stress was laid upon the distinction of aneurism according to the number and combination of persistent tunics, and we read of the mixed internal and the mixed external type. These points have less clinical importance, however, than a proper appreciation of the size and shape of a tumor, because all aneurisms are false after they exceed a certain size. When an aneurism involves the entire periphery of the aorta, it may be cylindrical, fusiform, or globular in shape, and receive names accordingly. When it is a mere bulging on one side of the artery it is saccular in shape. Obviously, the opening into the fusiform aneurism is quite or nearly the entire length of the tumor, whereas in the false saccular type the orifice may be reduced to a mere puncture of the arterial wall. The size of the orifice is a matter of great importance, particularly in connection with the question of operative interference, and therefore it will be referred to later. The sacciform and fusiform aneurisms are often combined together, or, in other words, it is quite common to find a lateral bulging superimposed upon a local dilatation of the artery; but such grouping is not necessary, as either form appears without the other. It is not uncommon also to find one bulbous aneurism superimposed upon another, the dependent aneurism in this case being of the false or diffuse type. The second aneurism often lies outside the chest-wall, and it is connected with the mother aneurism by a narrow opening or channel.

Varicose aneurism is a false aneurism formed by communication between the aorta and the vena cava, the pulmonary artery, the right auricle, or the right ventricle. It is almost without exception rapidly fatal and not amenable to treatment.

Occasionally the aorta will present alternate bulgings upon one side and the other, so that the vessel appears to wind in its course. This condition is called cirsoid aneurism, but it has nothing in common with external aneurism of the same name.

The size of an aneurism is variable, like its shape, but in general the true aneurism rarely exceeds the size of an egg (Jaccoud). Beyond this size one or more of the coats give way, and the aneurism becomes false, in which condition it may grow as large as an adult's head if the patient lives long enough to allow such development. Balfour refers to two rare forms of aneurism—the intravalvular, which is situated within the aortic valves and above the ventricle, and the intervalvular, which is still more rare, and is situated between the valves themselves. The symptoms of these aneurisms are merely those of valvular lesion, and therefore present no differential points for diagnosis.

ETIOLOGY.—Local weakness of the aorta submitted to sudden strain is unquestionably the most frequent cause of aneurism. It is rare to find an aneurism in an otherwise healthy aorta, and some authors go so far as to assert that aneurism never occurs without preceding degenerative changes in the arterial wall. Naturally, strain is the physiological burden of the aorta, and this strain tends sooner or later to degeneration of the arterial tunics. Then, given a weakened spot, the ordinary occurrences of every-day life are sufficient to precipitate disaster. A sneeze, a cough, some sudden exertion of the body in lifting or moving, have been the starting-points of aneurism. All accumulated testimony indicates that sudden strain is more dangerous than prolonged uniform strain, and therefore some occupations are more productive of aneurism than others. Inasmuch as age, sex, occupation, and personal habits influence the development and nutrition of the aorta, it is obvious that they must exert an important influence upon the occurrence of aneurism.

All records agree that aneurism is pre-eminently a casualty of middle life, and a glance at the accompanying table, which I have prepared from an analysis of 69 reported cases, shows that the disease is most common between thirty and fifty years of age:

Crisp analyzed 551 cases, and reports 398 between the ages of thirty and fifty.

Beneke has found in his records of arterial measurements that the pulmonary artery greatly exceeds the aorta in circumference up to the age of thirty. After that period the aorta begins to increase with relatively greater rapidity, until in the forties it exceeds the pulmonary artery in size, and it maintains its superiority from that time forward. The aorta continues to increase in circumference throughout life, but after the age of fifty this increase is considered a senile dilatation rather than an actual growth. It is interesting to note that the era of greatest liability to aneurism coincides with that of most rapid aortic development.

Sex furnishes a distinction in the frequency of aneurism. In 82 cases I found that only a seventh were females; Crisp registers less than an eighth. The radically different occupations and habits of women may contribute somewhat to their relative immunity from aneurism, and their physiological development also seems in their favor. Beneke states that the blood-pressure during childhood is about the same for both sexes. From puberty onward it is greater in the male. This is due to the fact that after puberty the volume of the heart relative to the length of the body is less in the female than in the male, and at the same time the main arteries of the body relative to the length of the body are only a trifle narrower in women than in men. The pulmonary artery, indeed, is relatively a trifle wider in women than in men. It follows from this that the blood-tension in both the large vessels emerging from the heart is less in the female than in the male.

In general terms, it may be said that those people who are exposed to heavy labor, as mechanics, laborers, soldiers, porters, cabmen, etc., are more liable to aneurism than those who are less exposed to such straining efforts. Fixture of the chest during effort brings greater strain upon the heart and aorta, and therefore men who wield heavy hammers and sledges are especially liable to aortic disease. Constriction of the neck or forcible extension of the same during exertion is dangerous, because it thus happens that the arteries are stretched in their long diameter at the same instant that the blood-wave is expanding them laterally, and they are thereby subjected to double strain. I knew of a trotting horse which was killed by this very combination of strain upon the aorta. At the end of a trial of speed the animal refused to stop; whereupon a groom sprang forward, seized him by the bit, and threw his head strongly upward and backward. His carotids and aorta were thus stretched to full length at the moment when his heart was acting with great force. The horse dropped dead, and the autopsy revealed a rupture of the aorta.

The frequency of aneurism among the soldiers of the English army was long the subject of anxiety and thought to English surgeons. Finally, some bright man recognized one cause in the dress of the soldiers. They were obliged to wear a high stock, which constricted the neck and kept it stretched, and their trappings were adjusted so as to keep the body in a stiff and unnatural position. These objectionable details of the dress have been removed, and it is now claimed that aneurism is much less common in the army.

Syphilis and gout undoubtedly contribute to the formation of aneurism, because they both dispose to degenerative processes in the arterial tunics. Some writers, however, have laid too much stress upon syphilis. It was claimed that this disease was the cause of the great frequency of aneurism in the English army. Barwell, however, calls attention to the fact that aneurism has been 13½ times more frequent per 1000 men in the army than in the navy, and yet no one maintains that syphilis is more common in the army than in the navy.

SYMPTOMS.—The diagnosis of aneurism of the aorta may be one of the easiest problems of clinical medicine, or it may present difficulties which defeat the most skilful diagnosticians. A large number of aneurisms utter no sign of their existence, and are only revealed by the manner of death or by an autopsy. Again, the so-called signs of aneurism are so indefinite in character, and so associated with other pathological conditions, that the greatest confusion often befogs their interpretation. Mistakes therefore arise in two ways: either aneurism is diagnosed as present when it is absent, or it is declared absent when present. Robin reports the case of a vigorous young man upon whom several of the most eminent clinicians of Paris diagnosed aneurism of the aorta, and yet a rest of a few days sufficed to remove all symptoms of that disease. Three candidates for the diploma of the Royal College of Physicians and Surgeons in England recently declared a case of loculated pleurisy to be aneurism of the aorta, and B. W. Richardson says he has "seen at least seven persons suffering severe mental anxiety from the belief that they were fatally struck with aneurism," and yet they were free of such disease. Balfour says: "There is only one phenomenon positively characteristic of thoracic aneurism, and that is the existence in some part of the thorax of a pulsating tumor other than the heart, which beats isochronously with it, and at least as forcibly, and which at each pulsation expands in every direction." And yet simple dilatation of the aorta, combined with mental excitement, will so increase the thoracic pulsations as to simulate aneurism. It is necessary, therefore, that a patient during an examination should be as quiet as possible, both in mind and body, and if any doubt exist regarding the significance of the symptoms present, the patient should be kept in bed for a few days in order to allay the arterial excitement.

The phenomena produced by an aneurism are naturally divided into two groups: 1. The direct symptoms, which are confined to the limits of the tumor itself, and which are termed the physical signs. 2. The indirect symptoms, which are due to the influence of the tumor upon neighboring organs, and which present themselves often at remote points as signals of distress within. This influence of the tumor upon its environment is purely mechanical and due to pressure, and the resulting symptoms vary according to the particular organ or function involved. These symptoms are therefore classified as the physiological signs.

Pain is one of the earliest and most troublesome of the pressure symptoms of aneurism. It is due to a stretching of the nerve-filaments in the aortic wall and to the pressure of the tumor upon neighboring organs, especially the vertebral column and sternum. When due to nerve-stretching, the pain is neuralgic in character, and is not necessarily confined to the chest. It may appear in the back, and is intensified by coughing or sneezing. It may be rheumatic in type, and affect the arm and shoulders for several months before other aneurismal signs develop. In such cases the right arm and shoulder appear to be most often affected. Sometimes the pain cannot be located, but is referred indefinitely to the chest, or it may accompany acts of deglutition. As a rule—and this point is important—this form of pain from an aneurism exhibits wide variations of intensity and is usually intermittent. Exercise, coughing and sneezing, mental excitement, or anything which increases the activity of the circulation or raises the blood-tension, increases the pain. It may resemble angina pectoris in location and radiation, but it differs essentially otherwise. It is more continuous, and is associated with less anxiety, which is such a conspicuous element of angina.

When the pain is due to erosion of the vertebræ or sternum, it is more steady and gnawing. It is still liable to violent exacerbations, and excitement of all kinds increases it. Oftentimes the pain is so excessive that the sufferer cannot lie down or obtain relief in any position. This is especially the case with aneurism of the abdominal aorta. Bennet reports the case of a patient who poisoned himself to be free from the terrible pain, and deaths by exhaustion from pain and distress are not uncommon.

Numerous other accidents besides pain arise from pressure upon the neighboring veins. Balfour says that severe dyspnoea, vomiting, and flatulency are frequently caused by pressure of an aneurism upon the pneumogastric nerves, and that these symptoms may be relieved by gently rubbing the tumor. Hiccough and paralysis of one-half the diaphragm are caused by pressure upon the phrenic nerve. Occasionally destructive inflammations of the lung and pleura occur with aneurism, and these have been attributed to pressure upon the pneumogastric nerves and the pulmonary plexus. Palpitation of the heart is likewise often produced in a similar manner. Sometimes the patient is conscious of a pulsation in the tumor itself. Pressure upon the intercostal nerves will produce herpes zoster, and cicatricial records of such attacks are found upon patients with aneurism. Implication of the sympathetic nerves produces modifications of the pupils according as the nerves are merely irritated or paralyzed. In the first case the radial muscles of the iris become permanently contracted and the pupil is dilated. In the second case the radial muscle becomes paralyzed and the pupil is contracted. Jaccoud says that this succession of changes is not rare, and he has watched cases progress through both pupillary stages. The nerves affected are those which emerge from the cilio-spinal region, which extends, according to Budge and Waller, from the sixth cervical to the sixth dorsal, or, according to Brown-Séquard, as low as the tenth dorsal vertebra. From the anterior roots of this region nerve-filaments pass through the cervical sympathetic to the iris. The difference in the pupils is often so slight that it requires very careful measurement to detect it. The application of atropia will assist in the examination, because that drug has very incomplete influence upon the affected pupil. The pupil is also much less sensitive to light, but it contracts more strongly than the normal eyes in its accommodation for near objects. Robertson cautions against conclusions based upon mere casual observance of the eyes, because 1 person in every 14 has one pupil naturally smaller than the other.

Myosis is not pathognomonic of aneurism. It denotes merely some trouble with the cilio-spinal nerves. The nature of that trouble must of course be determined by the other associated symptoms of the case. The contraction of the pupil is sometimes accompanied by paleness of the corresponding side of the face and neck, while at other times the same region may be swollen, oedematous, and perspiring. These symptoms are due to local vascular changes from interference with, and disorganization of, the vaso-motor nerves which govern these regions. Remote local paralysis sometimes utters the first warning of aneurism, and such cases are usually very striking. Paralysis of the recurrent laryngeal is the most frequent of this group of signs. Urquhart reports a case where for some months the chief symptom was a falling of the head on the breast, as if it had been forcibly drawn down by the sterno-cleido-mastoids. Another patient was supposed to have rheumatism, but he soon became paralyzed on the right side and lost his speech. He recovered somewhat, but died subsequently from bursting of the tumor into a pulmonary cavity. Tufnell says if an amaurosis occur suddenly look for valvular disease of the heart or for aneurism of the aorta.

Dyspnoea.—The dyspnoea produced by an aneurism may vary from a slight difficulty of breathing on exertion to the most marked orthopnoea. It is produced by—a, direct pressure upon the trachea or bronchi; b, pressure upon the recurrent laryngeal or the vagus. The two forms of trouble are easily discriminated by physical examination. In cases of pressure upon the respiratory tubes auscultation reveals very characteristic signs. The constriction of the tube causes a peculiar harsh sound, which, heard only in inspiration at first, becomes audible later in expiration as well. If the pressure is upon the trachea, the sounds will be heard equally in both lungs; whereas if only one bronchus is involved, the sounds will be confined to the corresponding side. If a bronchus be completely occluded by pressure, then the peculiar breath-signs will disappear, and complete respiratory silence reign instead. The dyspnoea of this origin is greatly relieved by motion and by certain positions of the body. In capillary bronchitis, pneumonia, asthma, etc. the patient sits with the head thrown back and the shoulders raised, whereas a patient with tracheal compression finds greater relief in leaning across the back of a chair, with his head resting upon his arms folded on a table, and the nights are passed in this position. Again, the pressure dyspnoea is subject to sudden and excessive variations. Any excitement which increases the cardiac activity and the blood-tension will excite dyspnoea, whereas rest and repose diminish it. This form of dyspnoea is likewise accompanied by loud stridulous breathing, and by harshness and a metallic quality of the voice. The stridor and dyspnoea bear no direct relation to the size of the tumor, because a small tumor pressing upon the side of the trachea, where the cartilaginous rings are thinner and less resistant, will produce more discomfort than a larger tumor directly in front. Where the compression of an air-tube is considerable, it usually provokes inflammation of the mucous membrane, and the secretions thereby engendered are liable to collect behind the obstruction and increase the distress for breath. Cases are reported where, tracheotomy having been performed, a catheter was pushed by the obstruction and the backed-up secretion allowed to escape, to the great relief of the sufferer. One case is recorded where the examining physician was able to see by the aid of a laryngoscope an inward projection of the wall of the trachea, which pulsated with each heart-beat.

The dyspnoea arising from pressure upon the recurrent laryngeal and vagus may begin in two ways—either by a sudden paralysis of both vocal cords, or by a preliminary spasm of the cords due to nerve-irritation. When both cords are paralyzed, which is very rare, the voice is entirely obliterated and the dyspnoea is intense and continuous. The complete paralysis may be associated with choking at meals. When only one cord is paralyzed, the breathing is not materially affected, though the voice is altered in a characteristic manner.

If the compression of the nerves mentioned simply irritates them, then the phenomenon of laryngeal spasm occurs. The voice becomes high, squeaking, and false or whispering, with a muffled falsetto. Jaccoud describes a condition where the nerves of the two sides are not uniformly affected, and therefore the cords are not equally tense in their spasm. The result of this difference of tension and vibration is a peculiar commingling of high and low tones, which produces a very discordant and unpleasant sound to the ear. Jaccoud terms this la voix bitonale. The dyspnoea from spasm persists through both inspiration and expiration, whereas with paralysis of the cords the inspiration is alone or mainly affected. The cough in these cases is phenomenal in its character, being very loud and metallic, often barking, and it is very distressing to the patient and to all who hear it.

When a bronchus is compressed the percussion note on the corresponding lung is higher in pitch and tympanitic. The inspiratory murmur is ordinarily diminished, but bronchial breathing may (rarely) occur. The coincidence of bronchial breathing with tympanitic resonance is an eccentric combination of a very paradoxical character. The cough is almost pathognomonic, with a loud barking, distressing metallic clang. Such a cough is still more suggestive when combined with the high, shrill, whistling vox anserina. The amount of expectoration is at first small, consisting of glairy, frothy mucus. Later it becomes more copious and muco-purulent, and may even be rusty and red. The presence of bloody sputa with an aneurism is always grave, because it raises suspicion of a so-called weeping aneurism which is approaching rupture.

Dysphagia.—This is a common symptom with aneurism, but it is not so constant in appearance as it is with other mediastinal tumors. It appears more often when the aneurism is situated upon the transverse portion of the aorta. It is frequently painful, but always variable in severity, and may disappear for long intervals at a time. Lying upon the face usually relieves the difficulty, while it is aggravated by reclining upon the back. Fluids are usually swallowed more easily than solids. Hayden says that a feeling of sharp pain in a particular part of the gullet in swallowing when aneurism is present indicates erosion of the mucous membrane and early perforation.

Pressure upon Veins.—Localized oedema and cyanosis are two common symptoms of aneurism of the aorta. The sudden eruption, the limited distribution, and the terrifying effect of these symptoms render them especially interesting. They are due to pressure of the tumor upon the veins near the heart, and particularly upon the superior vena cava. Dujardin-Beaumetz says that, thanks to the vena azygos, compression of the superior vena cava produces simply a varicosity of the neck and upper part of trunk. Should the vena azygos be simultaneously blocked, then the oedema and cyanosis will spread over the entire head, neck, arms, shoulders, and upper trunk—i.e. over all parts drained by the superior vena cava. Only two such cases have been reported, however. One case was seen by Piorry and one by Dujardin-Beaumetz. In the latter case the oedema and cyanosis of parts named above came on suddenly without apparent cause. The face was swollen, blue, and covered with red patches, and the eyes were injected. The ears were cold; the abdomen and lower limbs retained their normal color. The contrast between the upper and lower portions of the body under these conditions is very striking.

Balfour says that "a thick oedematous collar covered with large veins surrounding the root of the neck" is indicative of compression of the superior vena cava.

Pressure upon the brachio-cephalic veins produces oedema and cyanosis of the head and upper extremities; oedema of the glottis has occurred under such conditions. Sudden swelling of one arm, unaccompanied by inflammation, is suspicious of aneurismal compression of the corresponding vein, especially if it comes on suddenly after exertion. Compression of the descending vena cava or right auricle may give rise to congestion and dropsy of the lower part of the body, but these are later symptoms.

Pressure upon the thoracic duct is relatively rare. It may cause emaciation, but loss of flesh with aneurism is more often due to obstruction of the oesophagus or to dyspepsia and the exhaustion from pain and sleeplessness.

Pressure upon Bones.—Pressure of a tumor on neighboring bones causes absorption and dislocation of the same. The clavicles, sternum, and ribs are rapidly eroded by the aneurism, and are pushed forward and disarticulated. Pressure upon the spinal column causes absorption of the vertebræ and of the cartilages, until oftentimes the cord is laid bare and even subjected to direct pressure.

Inspection.—Inspecting a person suspected of aneurism, one should examine the pupils, the color of the skin, the condition of the veins of the head, neck, and arms, all movements of the neck and chest, and especially the contour of the front part of the chest.

The conditions of the pupils, skin, and veins have all been described, but the movements of the neck and chest require notice here. Any area of pulsation apart from the normal apex-impulse should be critically marked and examined. Fulness or beating in the episternal notch is significant. Cheesman reports a case where a curious pulsation was occasionally communicated to the larynx and the tongue by an aneurism situated beneath the manubrium. Every now and then the thyroid cartilage would rise and fall, and the tongue would pulsate backward and forward with each beat of the aneurism.

Inspection of the larynx quickly determines the presence or absence of paralysis of the cord, and may sometimes reveal pulsating tumors pressing upon the trachea. While inspecting the shape of the chest it is best to stand upon one side of the patient and look across the surface of the thorax. In this way slight deviations from the symmetrical become most readily apparent. If any abnormal point seems to pulsate, the fact can be rendered more obvious by pasting bits of paper upon the suspected spot and around its immediate neighborhood. Viewed thus in an oblique light, the relative movements of these pieces may be easily discerned. If a tumor be present and the diagnosis established, one should carefully note the color and condition of the skin over the prominence. As the tumor develops pressure the skin becomes tense and glossy. Then it turns red, and may be covered with livid spots and even ecchymoses. In later stages a black dried scale of flesh may be all that seems to restrain the heaving blood. Weeping of blood may take place for some time before the final break.

Palpation.—Given a prominence of the chest-wall or a localized pulsation in the abdomen, the next step is to examine the suspected part with the hands. Any tumor lying across an artery will move forward and backward with each pulsation of the artery, and conditions of this kind have been repeatedly diagnosed as aneurism. An aneurismal tumor, however, is distensile as well as pulsatile. Every tumor, therefore, should be grasped as far as possible between the two hands, to determine if it distends with each beat.

When one cannot reach the sides of the tumors in front, one can resort to Stokes's plan. Place the flat of one hand upon the front of the chest, and the other hand upon the back. By this means the expansile character of the pulsation may sometimes be determined.

Many intra-thoracic aneurisms present a double impulse or two distinct blows to the hand during the cardiac systole; and when these blows are too faint to be felt, they may still be registered by the sphygmograph. This double impulse is not characteristic of aneurism of the aorta, because it may also be felt in aneurisms of the large branches of the arch. Bellingham thought that the second blow was due to a reflex wave from the aortic valves, and was therefore diastolic in rhythm. Jaccoud, however, showed that it occurs even with great insufficiency of the aortic valves, thus excluding reflex waves. François Frank also proved that both blows were systolic in rhythm. He thinks they are due to the fact that the blood enters the aneurism en deux temps. The blood, rushing in at the beginning of the systole, gives a sudden distension of the partially relaxed sac-walls, and thus causes the first impulse. Then the bulk of the blood-waves, following more slowly on account of greater resistance, produces a second elevation more or less pronounced.

Balfour states that aneurismal pulsations are usually more forcible than those of the heart, and that this point has not received the attention which it merits. If the sac contains much fibrin the impulse is feebler than that of the heart.

W. S. Oliver describes a new sign of aneurism and the method for detecting it. Place the patient in the erect position and direct him to close his mouth and elevate his chin to the fullest extent. Grasp the cricoid cartilage between the fingers and the thumb, and push it gently upward. If an aneurism of the arch of the aorta be present, its pulsation will be plainly transmitted up the trachea to the hand. The act of examining will also increase the laryngeal distress if such be present.

The frémissement cataire, or thrill imparted to the hand by an aneurism, has been frequently described. It is very characteristic when felt, but Powers says it is not of frequent occurrence. He has felt it in eight cases of aneurism, but four of them were complicated by regurgitant disease of rheumatic origin, and all were probably of the fusiform kind.

Pulse.—Partial or total obliteration of a large vessel, dilatation of the aorta, compression of an artery by a tumor, may produce a radial pulse similar to that of aneurism. Moreover, we may find the radials differing from each other in persons who are perfectly healthy. It follows, therefore, that, taken by itself, the pulse does not contribute very decisive evidence of an aneurism. When the diagnosis of an aneurism is established or confirmed by other signs, then the added evidence of the pulse does possess some value. The finger will often detect the following characteristics of an aneurismal pulse:

1. Delay.—The pulse at the wrist is normally from ¹¹/100 to ¹⁴/100 of a second later than the cardiac impulse. With aneurism this interval may be prolonged in one or both radials, and the additional delay may amount to ⁴/100 of a second. This sign of delay is of most value when the pulse in one wrist loiters behind its mate. The relative delay of the impulse of the aneurism itself and of the carotid artery may give useful information. If the beat of the tumor precedes that of the left carotid, then the tumor is nearer the heart, whereas the aneurism is evidently beyond the left carotid when the beat of the latter precedes.

2. Diminution in Volume.—The pulse in one radial may be much smaller than in the other or altogether absent.

3. Diminution in Force.—The pulse of one side may convey a less sudden and less forcible blow to the finger. This diminished suddenness of the sensation imparted to the finger corresponds to the sloping up-stroke of the sphygmographic tracing.

4. Thrill.—Under certain rare and not very clearly defined circumstances the pulse imparts a sensation of thrill to the finger. Mahomed says this probably occurs when the entrance to the aneurismal sac is very narrow and the aneurism is directly in the course of the vessel. It may also be occasionally produced by the rigidity of the wall of the vessel or by a partially-dilated clot vibrating in the blood-stream.

Under the enthusiastic and elaborate study of Mahomed the sphygmograph has attained a certain degree of usefulness. Though difficult in its application and limited in its results, yet many of the points demonstrated by it are of sufficient importance to justify their consideration. The sphygmographic tracing of the normal pulse is shown in Fig. 50.

Now, the points which distinguish an aneurismal tracing from the normal are—1, a sloping up-stroke; 2, impairment or loss of the percussion wave; 3, obliteration of the secondary waves; 4, diminished volume of the curve; 5, vibratile waves; 6, a different blood-tension.

In comparing the curves shown in Fig. 51, taken from Powell's article upon aneurism, it will be noticed that the up-stroke AB is more sloping in the curve of the right wrist than in that of the left. The percussion and dicrotic waves are entirely smoothed out into an almost uniform wavy slope. As one writer has expressed it, an aneurism acts like an air-chamber in an engine, and tends to break up the intermittent pulse into a steady stream. The relative difference of the blood-tension of two arteries is determined by the relative amount of pressure required of the instrument to develop the tracing. This amount of pressure is sometimes greater and sometimes less on the affected side.

In comparing the tracings from the radials the following points are to be noted: 1. Is there any difference in the percussion waves?—i.e. is the up-stroke more sloping or the apex less pointed in the one than in the other? 2. Is the tidal wave equally high and sustained in both? 3. Is the dicrotic wave equally developed?

If a difference exist in the tidal wave alone, it need not, and probably will not, be due to aneurism. It is the loss of the percussion wave and of the dicrotism which characterizes aneurism.

It must be conceded here that the use of the sphygmograph and the interpretation of its tracings are beset by the greatest difficulties. Mahomed, to whom I am chiefly indebted for these sphygmographic details, declares that the use of the instrument requires great care and skill, and it may easily lead to error. "No one should attempt to use it who cannot readily obtain similar tracings from the two radials of a healthy person." Great care in the application of the instrument should be exerted, and we must guard against all causes of transient excitement. It is well to let the patient see the instrument applied to others before attempting it on him, in order that he may not fear it. The patient must be placed in a comfortable position, with both arms alike, and the points of application of the instrument must be alike on the two sides. The amount of pressure on the two sides must be equal, or the difference carefully noted. Moreover, one should never be contented with one tracing, but a number on each wrist should be taken. If, then, the two radials appear to differ, the precautions must be redoubled, and the pulse tested again on another day. Inequalities of the tracings may be produced by abnormal distribution of the radials, and an old fracture or other injury of one arm may affect the flow of blood in the arm.

Paralysis of the arm, by interfering with the vaso-motor nerves, and thereby with the venous return of the blood, may alter the character of the pulse. A tumor external to the artery, either intra-thoracic or extra-thoracic, will produce aneurismal pulse and endarteritis, or congenital contraction of the aorta may so block the artery as to produce diminished pulse-waves. It may be said that the sphygmograph is incapable of distinguishing between an endarteritis and an aneurism.

On the other hand, the instrument is very useful in distinguishing between an aneurism and a tumor compressing an artery, because in the latter case the up-stroke and percussion wave remain normal, whereas in the former they are strongly modified, as described above. With aneurism of the ascending aorta both radials must be similarly affected, if at all, and in these cases the sphygmograph teaches very little. If the right radial is alone or mainly affected, then the aneurism involves the innominate and arch together. When an aneurism of the innominate includes the aorta, then the whole sac forms virtually a dilated aorta, and no difference in the radials will appear. Hence it follows as a corollary: Given an innominate aneurism, if the radials remain equal the aorta is certainly involved. When the left radial pulse is alone affected, the aneurism lies beyond the brachio-cephalic branch, and may or may not involve the left subclavian.

The sphygmograph is of less avail in aneurisms of the descending portion of the thoracic aorta or of the abdominal aorta. It may be of service in affording information regarding the condition of the aorta itself with reference to an operation, and it may also be of service in determining the upper limits of an aneurism under the following conditions: A case is reported which presented all the physical signs of aneurism of the descending aorta, but the sphygmograph showed that the left radial was affected, and thereby proved that the aneurism extended as high as the left subclavian at least.

While the foregoing facts prove that the sphygmograph by itself affords very inconclusive and untrustworthy evidence, yet when the presence of a tumor and other physical signs prove the existence of an aneurism, the written pulse-record will often be the guide to the accurate placement of the tumor, and thereby will often furnish decisive indications in the selection of the method of treatment.

Auscultation.—The typical aneurismal bruit is not an ordinary souffle, but it is an accentuated booming sound of a very peculiar character. Many writers describe it as a systolic jog or shock. Occasionally this bruit de battement is double—i.e. one hears two shocks, so to speak, just as one feels a double impulse. No satisfactory explanation for this reduplication of murmur has yet been given. The aneurismal murmur is almost invariably systolic. Balfour reports two cases of a diastolic murmur heard with abdominal aneurism. One of these cases was observed by himself and the other by Wickham Legg.

When this peculiar booming sound is heard over a circumscribed dull patch, it is very distinctive of aneurism, but its absence possesses no eliminative value. Many aneurismal tumors are absolutely quiet, and some of them give only a soft murmur like an ordinary cardiac souffle.

Associated with the aneurismal sound one also hears the normal heart sounds much intensified. This is peculiarly noticeable of the second cardiac sound, which acquires a ringing, booming, accentuated character when heard over an aneurism. Johnson thinks that this intensification of the heart sounds is due to the sudden tension of the walls of the sac. Balfour in referring to the same phenomenon considers it of greatest diagnostic value, and thinks that proper emphasis is not ordinarily given it.

A fundamental rule in the examination of a suspected case of aneurism is to auscult over every inch of the thorax, front and back. Not only the intrinsic signs of the tumor itself are important, but all testimony from the neighboring organs must be collected and weighed. The modification of the respiratory sounds have already been mentioned. Stokes attaches great importance to this fact, that "over one lung, more rarely over both, the breath sound has often communicated to it a peculiar sonorous vibrating quality, probably by conduction from the laryngeal stridor present."

Valvular complications of the heart are not necessarily associated with aneurism. Cases are reported, however, where a tumor is situated so near the aortic orifice as to interfere with its closure, and thus induce the ordinary phenomena of aortic insufficiency.

Of course when valvular disease is coincident with aneurism the customary signs will be added to those of the tumor, and must be carefully distinguished.

Drummond of England has recently contributed a new sign of aneurism. It is a familiar fact that after sudden exertion, and with the heart acting violently, one can hear in the mouth during expiration a well-marked whiff proceeding from the glottis. Under normal conditions of the chest this whiff is only heard after exertion, and never during perfect repose. Now, Drummond has noticed that this oral whiff, as he terms it, occurs regularly in many cases of aneurism of the aorta. When the sign is well marked the whiff is audible in the trachea with the mouth shut, but disappears on compressing the nostrils with the fingers. The whiff may be double, synchronous with both the expansion and contraction of the tumor. The sign does not exist in cases of valvular lesions of the heart without aneurism. As indicated above, this sign possesses a diagnostic value only when it is observed under conditions of absolute bodily and cardiac composure. One should make a patient lie quietly for a while before examining him for this sign.

Percussion.—Circumscribed dulness is always present when the tumor reaches the chest-wall. Owing to the globular shape of the tumor, its size is usually larger than the area of dulness would seem to indicate. There is no abrupt line of demarcation, but the dulness shades off gradually into the surrounding pulmonary resonance. The dull patch is most frequently situated to the right of the sternum and on a level with the second and third ribs. More rarely it may be found on the sternum or to the left of the same. If the neighboring lungs are solidified from any cause, the percussion signs of the aneurism will of course be obscured.

Localization.—When the signs of aortic aneurism are all conclusive, the next point in the diagnosis is to determine the probable seat and extent of the tumor.

In a general way, it may be stated that the physical signs of an aneurism of the ascending aorta are grouped about the upper two right intercostal spaces. Tumor of the transverse portion presents itself at the manubrium, and aneurism of the descending aorta may be detected in the upper interscapular region to the left of the spinal column. Balfour says that the aneurism is probably about the middle of the transverse portion when the point of greatest pulsation is situated at the middle of the manubrium or from that to the fourchette above, and the veins of the root of the neck are congested.

An aneurism of the left extremity of the transverse portion usually points below the left clavicle. There are many startling exceptions to these rules. One case is reported where an aneurism of the ascending aorta pointed at the left of the sternum and pressed upon the left bronchus. Another case of aneurism of the descending aorta passed behind the oesophagus and compressed the right bronchus. An innominate aneurism occupies the episternal notch, and usually appears first along the tracheal edge of the sterno-mastoid muscle. As it increases in size it will extend across the episternal notch and push out the inner end of the right clavicle. It may appear first under the end of the clavicle, but then it is at the cardiac end of the vessel and involves the aorta.

An innominate aneurism must be distinguished from a low carotid aneurism. The latter usually appears between the sternal and clavicular portion of the sterno-mastoid muscle, and its pulsations can be felt by pushing the finger into this space when the muscle is relaxed. Cockle said that he knew of no instance of a carotid aneurism distending the episternal notch. Barwell also mentions the fact that the ear on the affected side will gain color more slowly than its mate after pinching when the aneurism is situated upon the carotid.

It is always serviceable, and often essential, to determine whether an aneurism of the innominate also involves the aorta. If the tumor appears first under the sterno-costal articulation, the aneurism probably extends on to the aorta. Again, if the radials are both equal, the tumor undoubtedly includes the aorta, for reasons already explained in connection with the pulse-curves. If the right pulse alone is affected, we can eliminate aortic complication. Barwell also states that innominate aneurism involving the aorta presents the following symptoms: The pulsation, dulness, and abnormally loud heart sounds are on and to the right of the middle line. The various congestions are on the left side, and do not encroach upon the right side until later. This venous symptom is especially marked on the left pectoral.

A subclavian aneurism may cause confusion when it occupies the first third of the vessel. Such an aneurism, however, is an elongated oval in shape, and is partly covered by the clavicle, and this bone will move up and down in front of it with movements of the shoulders.

I have emphasized the unreliable character of the pulse as a diagnostic sign of aneurism, but when other signs of this lesion are well marked the pulse furnishes some evidence regarding the locality of the tumor. The following summary of the pulse-signs serves as a useful guide, therefore, in examining the pulse.

1. Both radials affected alike, the aneurism is limited to the ascending aorta.

2. Right pulse more altered than the left, the aneurism involves both the aorta and the innominate artery.

3. Right pulse alone affected, the left remaining normal, the aneurism is confined to the innominate artery.

4. Left pulse not affected, the aneurism is situated beyond the innominate.

5. Both pulses aneurismal. This occurs sometimes with aneurisms of the arch which involve the large vessels.

Varicose aneurism can only be suspected by exclusion. Thurman emphasizes one symptom which is significant when heard, but it is rare. This sign is an intense superficial souffle, accompanied by a frémissement cataire, and situated over the opening of the aneurism. It is continuous in time, though louder during systole; and this element of continuity serves to distinguish it from the ordinary bruits of aortic aneurism or valvular lesions. When there is a varicose communication between the aorta and the vena cava superior or the right auricle, the souffle will be extended along the right border of the sternum, with its maximum at the level of the second intercostal space. If the aneurism opens into the pulmonary artery or the upper part of the right ventricle, the souffle will be heard along the left border of the sternum. When the signs are manifested as the result of some excessive effort, and are accompanied by præcordial pain, Thurman thinks them almost conclusive of varicose aneurism of the ascending aorta. He adds a few other symptoms likely to be present, but less characteristic of this particular lesion. These are anasarca, venous congestion, dilatation of cutaneous veins, dyspnoea even to orthopnoea, cough with sanguinolent sputa, a bounding pulse, and less frequently general feebleness, with diminution of the animal heat. These signs have a general significance, however, except when the vena cava superior is involved, and there the venous congestion and oedema occupy the upper half of the body. We have, however, previously seen such phenomena limited to the upper part of the body, resulting from pressure upon the vena cava.

T. Gallard has related a very interesting case of an arterio-venous aneurism of the arch of the aorta communicating with the vena cava superior. This case furnished all the ordinary signs of a tumor of the mediastinum with compression of the vena cava superior. It emitted a souffle which began with the first cardiac sound and persisted through the short interval of silence and to the end of the second sound. This souffle was especially pronounced at the base of the heart, and Gallard diagnosed a communication with the vein above mentioned. The autopsy revealed the accuracy of the diagnosis.

Hayden says that aneurisms opening into the heart, the pulmonary artery, or the vena cava have, so far as he knows, without exception, arisen from the ascending aorta. The simple projection of an aneurism into one or more of the chambers of the heart is attended only by symptoms of obstruction to the blood-current, and he knows of no symptom characteristic of a communication between an aneurism and the heart. When the sac opens into the pulmonary artery there occur sudden and most urgent dyspnoea and blood-expectoration, without spasm or stridor. If aneurism of the ascending aorta has been primarily determined, then the sudden eruption of such symptoms would be almost pathognomonic of this accident.

DIFFERENTIAL DIAGNOSIS.—We have enumerated a large number of symptoms, direct and indirect, which are grouped about aortic aneurism. It is an unknown thing, however, for any one aneurism to present the entire group in one tableau. A few only appear in a given case, and the possible kaleidoscopic combinations of the whole number are almost infinite. There are also numerous other conditions of the thoracic organs which produce groups of phenomena closely resembling those of aneurism, and requiring critical analysis.

An aneurism is a tumor, and the majority of its symptoms are simply signs of a tumor. It is necessary, therefore, to determine whether the tumor at hand is a solid growth or an expanded vessel. This is always difficult when the tumor is beyond reach. It may be pulsatile from lying upon the aorta. The following points, therefore, should be carefully noted and tested:

1. A solid tumor may be pulsatile, but it is never distensile.

2. The shock of a solid tumor is not markedly stronger than that of the heart (Balfour).

3. There is no accentuation of the second heart sound (Walshe), nor bruit of a booming character (Hayden).

4. In the sphygmographic tracing of a tumor-pulse the up-stroke is never sloping, and the percussion wave remains well marked.

5. Variations in the position and size of a tumor, and also in the pressure phenomena, are important. An aneurism varies constantly in its size and in its mural tension; hence all its signs vary correspondingly; whereas with a solid tumor in the mediastinum the phenomena are more constantly progressive. An aneurism which is visible and palpable upon the external chest-walls will sometimes recede within the thorax, whereas solid or cancerous tumors never act thus.

Abscess of a gland in the episternal notch may closely simulate aneurism of the innominate. Mahomed and Golding-Bird report such a case. The imitation was so close in this case as to balk a number of very careful observers, and no absolute diagnosis was reached until the sudden rapid increase of the growth and of acute superficial inflammatory symptoms revealed the probability of pus. The abscess was supposed to result from the pressure of a collar-button. A companion case was reported by the same author where an actual aneurism of the innominate presented such neutral signs that no diagnosis was reached until the patient was etherized and an exploratory incision was made down to the sac. It is well to remember that an aneurism may rise and fall with deglutition and with coughing and straining when it is adherent to the trachea. A case is reported of a very vascular sarcoma attached to the manubrium sterni and projecting into the episternal notch, which presented the double murmur, pulsation, and pressure symptoms of an aneurism, and was diagnosed as such, the mistake being discovered only at the autopsy. In such very obscure cases I know of no reliable or distinctive signs on which a diagnosis may be established: the only resort seems to be to await developments. In process of time the appearance of cancerous growth in other parts of the body will often throw light upon a thoracic tumor. Occasionally aneurism of the aorta may simulate insufficiency of the aortic valves. Guttmann reports a case which presented all the classical symptoms of aortic regurgitation and none of aneurism. The autopsy revealed a large aneurism of the ascending aorta and the aortic valves intact. The aorta itself was notably dilated throughout, and it is probable that the change in the arterial walls affected the proper systolic contraction of the aortic orifice, so that insufficiency resulted. Chronic endarteritis of the aorta may produce aneurismal signs. Dujardin-Beaumetz reports a case where there were contraction of the left pupil, sudden reddening of the left side of the face, transient aphonia, intermittent dyspnoea, suppression of the left radial pulse, and a double souffle along the track of the aorta; and yet the autopsy revealed simply endarteritis of the transverse portion of that vessel, without the least dilatation. Many of the symptoms of this case could be explained by the extension of the inflammation to the sympathetic nerves.

Many aneurismal signs connected with the voice, eye, and vascular supply of the heart may be produced by the implication of either vagus in neighboring inflammation. Chronic empyema of the left side will sometimes pulsate synchronously with the heart and simulate aneurism. The following points are important:

1. Such pulsations occur only on the left side.

2. There is always a disproportion between the pulsations, which are feeble, and the extent of dulness, which is large.

3. There is absence of expansile pulsations.

4. There is usually ample evidence of the presence of a pleuritic effusion, displacement of the heart, etc.

5. Aneurism may be coexistent, however, and therefore it may sometimes be advisable to make an exploratory capillary puncture before opening the chest freely.

Berard reports a case of empyema which formed a tumor on the left side of the sternum, which pulsated and looked like an aneurism. Finally, the tumor burst and discharged pus.

DURATION.—The progress of aneurism of the aorta is very rapid, and in the majority of cases the fatal termination is not delayed many months. In 40 cases where the duration of the disease was well defined, I found that 20 of them died within one year, 9 lived for two years, and 3 lingered five years. About 75 per cent., therefore, died within two years.

TERMINATION.—Rupture of the sac is a frequent cause of death. In 106 cases analyzed by me, 39 terminated in this manner. The seat of the rupture and the organs into which the blood escapes vary according to the location of the sac.

Aneurisms of the ascending aorta burst most frequently into the pericardium, right auricle, right ventricle, right pulmonary artery, and rarely externally. Tumors of the transverse portion burst into the trachea, left lung and left bronchi, left pleural cavity, oesophagus, and externally. Those of the descending aorta empty into the oesophagus, left pleural cavity, and spinal cord.

The most frequent point of rupture appears to be into the pericardium, as 13 out of 39 ruptures emptied into that cavity. It will also be noticed that the right side of the heart and the left pleura and lung are the chosen seats of hemorrhage. I found no case of rupture into the left side of the heart.

The bursting of an aneurism is not always an immediately fatal accident. The so-called weeping aneurism may pour forth small amounts of blood for weeks and months. Neligan reports a case of external rupture near the second rib on the right side which discharged blood at intervals for more than a year. At times the bleeding was with difficulty arrested, and yet the aneurism finally solidified and the patient left the hospital calling himself well. Another man with an external aneurism thought it was a blood-boil, and squeezed it with his chin to favor the flow until he fainted. The bleeding then ceased, and never occurred again. He died one year later of typhoid fever. Such cases, however, are very rare, and usually when an aneurism bursts externally the death is sudden and tragic.

Rupture of a sac into the pericardium or pleural cavity may not prove fatal for several hours, and the patient will exhibit the ordinary symptoms of internal hemorrhage. Rupture into the heart or pulmonary artery causes great dyspnoea and distress, and death follows rapidly.

Aneurism may cause death indirectly by starvation from pressure on the oesophagus, or by suffocation from occlusion of the trachea. The pain and distress occasioned by the tumor may cause death from exhaustion. Pain at times is so great that the sufferers can neither lie down nor stand, and, deprived of rest and food, they wear out. A few patients die from intercurrent accidental diseases or complications, but it may justly be said that the death of a patient with aneurism is usually directly referable to the tumor itself.

TREATMENT.—Aneurisms of the aorta occasionally solidify by the formation of a clot, and thus a spontaneous cure is established. Unfortunately, however, such a result is a rare exception to the rule of steady progress to death.

A number of methods of treatment have been advocated, and some of them present here and there gleams of hope for some cases. The aim of all these methods is to produce coagulation of the blood in the sac, either by mechanical means or by the chemical action of drugs.

The introduction of fine wire has been attempted. A canula is plunged into the aneurism, and then either short pieces of wire are dropped into the sac or one long wire is pushed in. Murchison introduced twenty-six yards of steel spring into an aneurism of the ascending aorta. This method is attended with great danger, and has not been successful, and is therefore abandoned at present.

The hypodermic injection of ergotin into the sac was also recommended by Langenbeck, but it has not met with success.

Pressure upon the aorta can only be applied to cases of abdominal aneurism, and here it has been successful. The pressure must be applied under ether, and great care must be exercised not to injure the other abdominal organs.

The starvation method was first advocated by Hippocrates, and was espoused later by Valsalva. The idea of this treatment was to render the blood more coagulable by making it less watery and richer in fibrin. Valsalva commenced by bleeding a patient freely, and then reduced his meat and drink until only half a pound of pudding was allowed morning and evening. The bleedings were repeated at intervals until the patient was too weak to lift his hand from the bed on which he lay. The vital objection to this treatment is that starving renders the blood less coagulable, though it may lower tension. Copland has seen aneurisms previously quiet begin to grow and end fatally on the starving and bleeding method.

A few years ago Valsalva's method was resurrected by Tufnell, but was modified somewhat in detail. The bleeding was omitted and the starving was less vigorous. Tufnell's three rules are—rest, restricted diet, and medicine. The rest must be absolute repose in bed, and must continue two months or ten weeks at least, without the patient sitting once erect. By this means Tufnell reduces the frequency and force of the heart-beats, and thereby lessens the number of distending blows upon the interior of the aneurism. This is of course a very tedious treatment, and many patients will be unwilling to submit to it. Others who are unable to appreciate the gravity of their disease, and seek merely relief from their subjective suffering, will refuse to continue the treatment as soon as they obtain such relief. Hence the ingenuity of the physician will often be taxed to the utmost in devising means and measures for controlling refractory patients and lessening the tedium as much as possible for all.

The room of confinement should be light, cheerful, and airy, and should command a view of outdoor life if possible. Tufnell urges the choice of a south room, because the presence of sunlight is very restful to the spirits, while absence of the same is depressing. The bed should be made as comfortable as possible, and with mechanical contrivances to obviate the necessity of raising the patient. It should not be too narrow, and should be of a height most convenient for the nurse attending. Tufnell recommends a large water-cushion, not over full, under the hips. The sheets and protectives should be drawn taut and pinned to the sides of the bed to prevent wrinkling. No movement should be allowed the patient except to turn upon his side now and then, and occasionally upon his face in case such movement relieves dorsal pain. A urinal and bed-pan should be at hand, and a pleasant, agreeable nurse who will be willing to read to, converse with, and amuse the patient as desired.

The diet recommended by Tufnell is as follows: Breakfast: Two ounces of white bread and butter; two ounces of cocoa or milk. Dinner: Three ounces of boiled or broiled meat; three ounces of potatoes or bread; four ounces of water or light claret. Supper: Two ounces of bread and butter; two ounces of milk or tea. This makes an aggregate of ten ounces of solid and eight ounces of fluid food in the twenty-four hours, and no more. Thirst is liable to be present at first, especially in the summer months; and this may be relieved by holding a pebble in the mouth or by occasionally sucking a piece of ice. Tufnell thinks that the diminished amount of fluids reduces the duty of the heart and renders the blood thicker and more fitted for deposit. If the patients are very intolerant and restless, it is better oftentimes to indulge them in a little more liberal diet, but only enough to appease them and keep them in control.

Medicinal Agents.—As rest is the great refrain of his method, Tufnell recommends anodynes and soperfacients at night. For mere restlessness he prescribes the following combination: Lactucarium, 20 grains; extract of hyoscyamus, 10 grams—made into six pills, two to be taken at bedtime. The bowels will naturally be constipated, owing to rest in bed, and for this he recommends compound jalap powder. Too much purgation should be avoided, as irritation of the bowels will hasten the circulation. Obstinate constipation, however, must not be allowed, or anything which can produce straining. The instant such a condition manifests itself, enemata by tepid water should be administered.

The principal symptom to contend with is pain, and for this purpose opiates should be used freely according to the exigencies of the case. In one case it was found that smoking twenty grains of stramonium at bedtime would produce a quiet night. This was discovered accidentally by the patient, who began to smoke the stramonium under the false impression that he was suffering from asthma.

Maclean recommends the use of eucalyptus globulus for the relief of the distress due to irritation of the pneumogastric nerve.

Issues and blisters upon the back are not advisable, as they interfere with the recumbent position. Relief to dorsal pain will often be obtained by change of position, by turning upon the side or upon the face. Sometimes the application of a heated flat-iron, with the protection of brown paper, over the tender portion of the spine will relieve the boring pain. Iron may be used in anæmic cases.

We have been explicit in giving the details of the Tufnell method for two reasons. In the first place, the Tufnell method means to many people simply putting a man to bed, but it also means keeping him there for a prolonged interval of time; and this is a difficult task, and one that requires great ingenuity and patience in its execution. In the second place, when any method is attempted it should be carried out conscientiously and literally in every detail, and then the results obtained can be legitimately scored to the credit or discredit of the method. But it is neither fair nor honorable to pretend to follow a method, and, neglecting important details, accredit the method with the failures which follow. Tufnell claims to have cured many cases, and he declares that absolute recumbency is the price paid. With regard to the prospects in individual cases, he says that with a strong pulse at the wrist and an excessively strong action of the heart, and a healthy state of the cardiac valves and of the aorta in general, the aneurism is difficult to cure. On the contrary, when the aorta in some part of its course is dilated into a cavity, with its walls so plated with atheroma as to be passively recipient of the blood, and not capable of transmitting it with force, the cure is comparatively easy. If this be true, it would appear that the Tufnell method is best adapted to just these cases which are least amenable to the surgical methods of treatment.

The use of iodide of potash for aortic aneurism was first advised by Nélaton and Bouillaud in 1859, and this treatment has found its warmest advocate in Balfour. The points in favor of this treatment are its simplicity, the ease with which it can be carried out, and the frequent happy results which have followed its employment. The drug may be given with an infusion of cinchona in doses of 20 grains three times daily. It almost invariably lessens the amount of pulsation in an aneurism, and rapidly diminishes the subjective discomforts of the patient.

Balfour rejects entirely the starvation diet, and even bodily repose. He allows his patients to keep about their ordinary employments while under treatment. Kämmerer has shown that iodide of potash destroys the albuminates in the blood, and therefore Balfour is inclined to feed more freely than he formerly did. He avoids any unnecessary amount of fluids in the food, but as the iodide of potash produces free diuresis, this point does not require special attention. Balfour's theory is that iodide of potash lowers the blood-tension of the artery, and also brings about a thickening and contraction of the aneurismal sac. He says: "Post-mortem examinations teach us that under the influence of iodide of potassium coagula are only occasional and concomitant, and that the essential relief is obtained by thickening and contraction of the wall of the sac."

Barwell's Operation.—During the latter part of the last century a French surgeon named Brasdor conceived the idea of placing a ligature beyond an aneurism in cases where it is impossible to tie between the tumor and the heart. A few years later Wardrop carried this idea one step farther, and suggested tying the branches of an aneurismal artery when the main vessel cannot be reached, and Cockle recommended tying the left carotid for aneurism of the aorta. In this way the idea of distal ligature for aortic aneurism was worked up. The operation was attempted a number of times, but was not attended with great success at first. Recently, Barwell of England has revived the operation and elaborated its details, so that now it is attended by encouraging success. Barwell says that one should try the milder measures first, but when a case has resisted the effects of rest, diet, and medicine, then it is time to consider the practicability of surgical interference.

Barwell's operation consists in ligating the carotid and subclavian arteries, and he performs it for aneurisms of the innominate and of the aorta also. Contrary to the ordinary teaching that the inner coat of a vessel must be ruptured in order to ensure the coagulation of the blood after a ligature, Barwell declares that such a rupture of the inner coat is a positive detriment to the operation, and more likely to lead to secondary hemorrhage. He simply endeavors in his tying to bring the inner surface of the artery into contact, and hold it thus; and in order to accomplish this without cutting the arterial tunics, he discards the round ligature in favor of a flat one. Catgut is unsafe, because it is liable to decompose, even in a preservative fluid, and it is also too readily absorbable in a wound. After considerable experimenting, Barwell has adopted the aorta of an ox as the best material for a ligature. The aorta should be obtained perfectly fresh from the butcher. Peel away the outer cellular coat, and then with a pair of scissors cut the middle and inner coats spirally round and round, taking care to keep the breadth equable. The ribbon thus obtained is very elastic, and must be suspended with weights (two to four pounds) attached to it. In this way, the ribbon dries in about six hours into a horny or vellum-like substance. Any irregularities of surface can be easily scraped off, and the cord stored in antiseptic gauze. About fifteen or twenty minutes before it is needed a piece of ribbon can be picked out and soaked in a 3 per cent. solution of carbolic acid, when it will be ready for use. Care should be taken not to bend these ribbons when in the dry state or fibres in them will crack and render them fragile. In view of such chances a piece should be soaked and tested by pulling. (For details regarding the surgical work of this operation one should consult the ordinary authorities upon surgery.)

The manner of the action of the distal ligature is not clear. Brasdor and Wardrop supposed that it reduces the force and velocity of the blood in the aneurism. But the tension and blood-momentum are still transmitted to the sac. Holmes thinks that a clot forms on the proximal side of the ligature and extends down the artery into the sac.

Bennet May, in a recent discussion of this operation, says that 35 cases of double distal ligature for aneurism at the root of the neck have been recorded up to the present time. In 29 operations the two vessels were tied simultaneously. In 6 cases the subclavian artery was tied at varying intervals after the carotid. 23 of these cases died outright or were hastened to a fatal termination by the operation. In 6 cases the progress of the disease was apparently not affected by the operation. A practical cure is claimed for the remaining 6 cases. One patient lived four and a half years, another three and a half years, and the remainder are living from two years downward.

It is a noticeable fact that all the recoveries except one follow operations performed since 1877, and the betterment in result is due to improvements in the method of operating. Barwell acknowledges, however, that "success in great measure depends upon a judicious selection of cases, while want of judgment or insufficient care in examination will most certainly bring a valuable operation into disrepute." He submits the following conclusions from his own experience—

I. An aneurism commencing suddenly, especially if traceable to some traumatism or over-exertion, is more likely to be benefited by operation than one arising gradually and without assignable mechanical cause.

II. Distinct sacculation is a most desirable condition; fusiform dilatation of the innominate indicates almost certainly a similar condition of the aorta and widespread arterial disease.

III. The absence of other aneurisms of the aorta should be determined if possible.

IV. Absence of rasp-sound along the aorta or any other indication of extensive atheroma should be verified.

V. Aortic incompetence (obstruction, regurgitation, or both), unless very slight, is a decided objection, as is also mitral disease or considerable hypertrophy of the heart.

VI. Patency of the vessels leading to the brain should be investigated by making a few seconds' pressure on the carotids alternately and then simultaneously.

VII. Absence of visceral disease must be ascertained.

Electrolysis.—Like all other methods of treating aneurism, electrolysis has had enthusiastic advocates and bitter opponents. Cuisselli began employing it in 1846, and was able to report 4 successful cases in 1869. He says that success may be looked for when one can diagnosticate that the aneurism is slightly developed, is lateral, and communicates with the artery by a limited opening. The heart and vessels otherwise must be in good condition. Balfour recommends electrolysis as a dernier ressort in cases where an external rupture is imminent. He says that four cells of a Bunsen's battery are sufficient, as more than four cells cause pain and require the use of chloroform. Balfour inserts both electrodes. Robin, however, strongly insists that the use of both poles produces greater pain, is more destructive to the neighboring tissues, and gives unsatisfactory results in the aneurism. He advises one to place the negative electrode upon the skin outside, and introduce the positive needle. This invariably determines the formation of a coagulum which is more firm and more resistant to the finger than the ordinary clot of stagnant blood. This clot is always small, whatever the strength of the electric current, but it forms a nucleus for further coagulation in the sac. The negative pole should not be introduced into the sac, according to Robin, because it forms only a soft diffluent clot which readily breaks up and floats away. The negative pole also is much more destructive to the surrounding tissues than the positive pole, and its withdrawal is almost invariably followed by hemorrhage. The coagulation is more rapid and more energetic when the needles are oxidizable, as iron or steel.

Robin lays down the following rules for operating: The patient should lie comfortably in bed, with his shoulders elevated by pillows, and he should be cautioned not to jump or move during the operation. Three or four needles should be inserted about one centimeter and a half from each other, and about thirty millimeters in depth. One will recognize that the needles are well in the aneurism when they exhibit movements synchronous with the sac itself. One of the needles is then attached to the positive pole of the battery, while the negative pole is attached to a sponge and pressed upon the outside of the chest. The galvanic current is allowed to pass for ten or twenty minutes, when it is gradually reduced to nothing. Then the positive pole is transferred to the second needle, which is similarly treated, and so on until the three or four needles have each been used in turn. After stopping the current leave the needles quiet for some moments; then withdraw them gently, so as not to disturb the clots, cover the punctures with charpie in collodion, and apply ice or cold-water compresses if any inflammation occurs. Sometimes morphine may be required on account of pain, but the crises of pain, dyspnoea, and other painful phenomena of the aneurism are calmed almost immediately.

The cure of an aneurism by electrolysis must not be expected from one session. More often several sessions are required, but the repetitions should be separated by four to five weeks, so that time may be allowed to develop the full benefit of the preceding operation, and to heal any secondary inflammation which may have been produced.

Acupuncture.—Constantine Paul conceived the idea of applying simple acupuncture to aneurism. He treated one case as follows: Four needles were introduced into the sac, and allowed to remain there fifteen minutes. Little or no pain was experienced. In three days there was a notable diminution of anxiety and dysphagia. A second introduction was made four days later, which was followed by still greater improvement. The patient felt so much better that he insisted on leaving the hospital. Paul thinks that electrolysis and acupuncture produce an endarteritis which thickens and strengthens the pouch-wall.

Abdominal Aneurism.

This lesion is much more rare than aneurism of the thoracic aorta. Among 551 cases of aortic aneurism accumulated by Crisp, only 59 were abdominal. I find no one particular point of the abdominal aorta which is especially liable to aneurism, but in general terms the upper part is more often affected than the lower. Of 103 cases noted by Lebert, only 3 occurred at or near the bifurcation. Abdominal aneurisms are twelve times more frequent in men than in women, and they are more common between the ages of twenty to forty than after that period.

They form adhesions with all the neighboring organs and tissues, and thus develop a certain number of pressure symptoms. These symptoms, however, are by no means so diversified or numerous as in the cases of thoracic aneurism.

Abdominal aneurism is invariably false after it has attained cognizable size, and it causes death in various ways. Oftentimes it kills from exhaustion by reason of intense pain, which prevents sleeping or eating. Again, by blocking up the arterial supply to neighboring organs, as in the lower aorta itself, it will cause secondary diseases which produce death. The most common termination, however, is by rupture. The sac may rupture into the peritoneum, retro-peritoneal tissue, bowels, bladder, pleural cavity, vena cava, or into the spinal column. Lebert says he has never found a case of external rupture through the skin, but Bramwell reports a case of rupture into the retro-peritoneal tissues and subsequent escape of blood through a bedsore.

SYMPTOMS.—In a large majority of cases pain in the back is the first symptom which heralds abdominal aneurism. This pain may precede the appearance of a tumor for weeks and months. At first the pain is usually due to a stretching of the nerve-plexus which surrounds the dilating vessels, and hence it is of a neuralgic character. It is intensely severe and shooting. Beginning in the lumbar region, it shoots down into the hips and knees, or through the abdomen to the epigastric and umbilical region. It is usually more or less continuous, but subject to great exacerbations. Motion, change from reclining to upright posture, acts of coughing and sneezing, increase it. One peculiarity of this pain is that it is increased by eating and drinking. This is explained by the fact that the taking of food and drink increases the amount of blood and thereby stretches still more the sensitive wall of the aneurism. The pain often obliges patients to keep in bed, and even there the relief is very slight, so that death may result from the exhaustion of sleepless days and nights.

When the aneurism encroaches upon the vertebræ there is added a gnawing, grinding pain which is constant, and is relieved but little by change of posture. Pressure upon the stomach and bowels and upon the nerve-plexuses which supply these organs produces dyspepsia, vomiting, constipation, and a tendency to accumulation of gas in the bowels. This interference with the nutrition of the body invariably causes marked cachexia, so that a patient who has suffered some time from abdominal aneurism will look as if he were affected with cancer.

Pressure upon the renal vessels causes atrophy of the kidneys and hemorrhagic impactions. Patients may die with uræmic symptoms, such as convulsions, dropsy, and stertor.

Pressure on the bladder causes painful micturition, which is a not uncommon symptom of this complaint. Pressure upon the aorta itself below the seat of the tumor will produce symptoms of obliteration of that artery, and will be treated of under that head. Rupture of an abdominal aneurism into the vena cava produces orthopnoea, pallor, and dropsy. Smith reports such a case in which gangrene of the right leg followed a puncture to relieve the dropsical tension.

Physical Signs.—The aneurismal tumor often appears suddenly after a preceding interval of pain or after some sudden strain. It may show itself in the epigastrium, iliac regions, or about the umbilicus. It presents the classical symptoms of expansile pulsation and souffle. But these are often wanting. Every case should be auscultated both front and back, because the murmurs are sometimes more audible behind than in front. François Frank calls attention to the fact that manual pressure upon an abdominal aneurism will produce an increase of tension in the vessels of the lower extremities. This rise of tension is caused by the forcing of the blood in the aneurism out into the lower vessels.

If the pressure be now suddenly removed, the general pulse will almost entirely disappear for one to two pulsations. This is due to the aspiration of the elastic wall of the tumor, which goes back to its original size. The reverse of these phenomena is true in case the tumor is solid and lies across the artery.

Scheele of Dantzig draws attention to a new diagnostic sign, which he considers pathognomonic. This is a suddenly-heightened pressure in the region of the aneurism when both femorals are compressed. This test is not without danger, however, as Sandsby found in one case which he compressed for ten to fifteen seconds. There was a momentary retardation, and then increase of impulse in the tumor, with an increased loudness of the systolic murmur. Directly after, the patient complained of a sharp attack of pain which continued during the day, and that night death followed from rupture of the tumor.

DIFFERENTIAL DIAGNOSIS.—A few diseases of the chest and abdomen may simulate this affection, and require to be eliminated in the diagnosis. A gravitating empyema may present symptoms of abdominal aneurism. The distinguishing points are the signs of an effusion in the left chest, the reducibility of the tumor by pressure, and the absence of a thrill or bruit.

A case is reported of a vast aneurism of the thoracic aorta which grew downward until it pointed in the right iliac fossa. It was considered an abscess with pulsations from the iliac arteries. It would seem as if the only safeguards against mistake in such cases were great skill in examining the whole breadth and depth of every doubtful case and a knowledge of the fact that eccentric developments may occur. Aneurism of the abdominal aorta may be simulated by excessive pulsation of that vessel. This condition appears usually in nervous, weak people, and is often the occasion of great alarm. It occurs frequently in anæmia, and may follow hæmatemesis from gastric ulcer, and thus lead to a fear of a ruptured aneurism.

The diagnosis is easy if the abdominal wall is thin enough, so that the aorta can be reached and felt. If the abdomen is distended by gas, the diagnosis may be more difficult. Duckworth reports a case where it was necessary to give ether and entirely relax the muscles of the abdomen before a satisfactory examination could be made.

Finally, in examining the abdominal aorta by auscultation, one should be careful about any murmur which may be heard. It may be due simply to pressure of the stethoscope upon the vessel. Constriction at a low point of the oesophagus, which causes an accumulation of food above and a dilatation of the tube, may closely resemble aneurism. Hayden refers to a case which exhibited dysphagia, epigastric pulsation with tenderness and percussion dulness, pain in the back and shoulder, and a tearing or raking sensation at the epigastrium on attempting to swallow.

No opinion regarding an abdominal aneurism should be formed until it is certain that the bowels are not loaded with fecal accumulations. Evacuation of the bowels, therefore, is a proper preliminary to an examination for abdominal aneurism. The condition of the bladder and uterus must also be carefully noted, and the bladder should be emptied.

TREATMENT.—Excellent results have been obtained by the Tufnell method. Compression of the aorta above the tumor has been recommended, and has been followed by good results. One case is reported in which the tourniquet was applied four inches above the umbilicus on three occasions, the patient being under an anæsthetic. The first session lasted half an hour, the second three-quarters of an hour, and the third for one and a half hours. The tumor was as large as a cricket-ball, and it became solid in forty-eight hours after the last application. Three weeks later there was no evidence of an aneurism to be found. Another case is reported of one compression of five hours, and another of ten and a half hours. One case in England required fifty-two hours of pressure under chloroform.

These results encourage one to persevere in repeated sessions in case of failure at first. But a word of caution must be given to avoid injury to the abdominal organs during pressure.

Rupture of the Aorta.

Although very frequent in connection with aneurism, rupture of the aorta is otherwise relatively rare. It almost never happens in a normal aorta, but a few cases are reported where the arterial wall is described as merely thin. Usually the rupture occurs at a spot weakened by atheromatous disease, and is produced by sudden strains, falls, or blows upon the chest, or by rapid exercise of the arms. Congenital narrowing of any part of the aorta will produce so much strain behind the obstruction as to cause rupture. Fernand reports such a case in a boy fifteen years old. The ascending and transverse portions were dilated, and the inner surface was covered with small red vascular plaques. The remainder of the aorta was contracted to the size of the iliac vessels.

Men and women are both liable to rupture, but the former more than the latter. One would suppose that women during the terrible strain of childbirth would be especially liable to such an accident, but I have found only one such case reported. This woman, thirty-eight years of age, died suddenly during the first stage of labor, and a living child was extracted five minutes later by forceps. The rupture was seated one and a half centimeters above the aortic valves, and reached nearly round the entire circumference of the artery. Heinricius reports the case,¹ and says that he has been unable to find any similar case recorded. I have found one case of rupture of the aorta during the sixth month of pregnancy, but not associated with any sign of labor.

¹ Cent. f. Gynäkol, No. 1, 1883.

The majority of the ruptures occur in the immediate neighborhood of the valves or within two inches of the same. It is a very rare thing to find a rupture of the transverse or descending portion of the arch. One case is reported of a girl twelve years of age who was trampled upon by a pony and never rallied. The descending aorta was found ruptured, and the tear was apparently produced by the nipping of the vessel between the vertebral column and the heads of three left ribs, which projected forward and could be protruded still farther by pressure upon the sternum.

When the inner coat of the aorta ruptures and the blood escapes, it immediately forms a pocket between the arterial tissues, and then one of two things may occur: the escaped blood may coagulate solid, and so fill up the opening and prevent further leakage. This occasionally happens; more often, however, the escaped blood pushes along, dissecting apart the tissues of the artery, and advancing until it finds some point of escape. Sometimes the blood bursts back into the aorta and rejoins the main current. In such cases the separation of the tissues continues transversely until the entire circumference of the aorta is included, and then the vessel forms a double tube. When the blood does not re-enter the aorta, it may push ahead until it reaches the iliac arteries, which is not at all uncommon. While advancing in this direction the blood also dissects backward toward the heart, and finally bursts into the pericardium. Almost invariably in these cases the pericardium is found more or less full, and the pressure of a large amount of blood in the pericardium upon the heart no doubt contributes largely to the fatal result by obstructing the action of that organ.

There may be two pints of blood in the pericardium. Death by rupture is by no means instantaneous. As a rule, the victims continue to live several hours, and even days, after the initial accident.

If the escaped blood coagulates and plugs, several months may elapse before death, as in a case examined by myself. A washwoman while shaking out a heavy piece of wet cloth in November was suddenly seized with severe pain in the chest. This pain continued with other distressing symptoms which disabled her for work, but she did not die until the latter part of the following January. The autopsy revealed a rupture, plugged by a clot, two inches above the aortic valves.

Rupture is usually announced by sharp pain coming on during exertion. There may also be a sense of choking, but this is not invariable.

Generally, the head is clear, and there is no paralysis, but occasionally the patient will swoon and appear collapsed. This of course depends upon the size of the rent and the freedom of the escape of blood. The heart is excited and rapid. The pain is located in the front of the chest or in the epigastrium, and the victims are a prey to great anxiety. Excessive trembling and inability to restrain muscular movements have been noticed. Profuse sweating, together with vomiting and evacuations of the bowels, may occur. Often the only record is, "Obscure symptoms, referable to the heart." There are no characteristics or pathognomonic symptoms of rupture of the aorta. Death is the invariable result, sooner or later, and no treatment has yet been devised to remedy the evil.

Perforation of the Aorta.

This accident causes death very rapidly, but not always instantly. Instances are reported where patients, after the piercing of all the arterial coats, have lived from one hour to three days. A case is reported of a boy sixteen years old who swallowed a needle. It passed through the wall of the oesophagus into the descending aorta, where it remained impacted. Blood poured out into the connective tissue and acted as a plug. Food escaped from the oesophagus, and putrefaction, hemorrhage, and death occurred in ten days.

Occlusion of the Aorta.

Occlusion of the aorta is produced by the formation of a clot. Such clot may occur in any part of the aorta. It may extend out from the heart or from the ductus Botalli. Such localization of the clot, however, is comparatively rare, and the most common seat of occlusion is in the abdominal aorta. The clot is usually associated with an aneurism, but it may sometimes be occasioned by an atheromatous patch. The attack is always abrupt and unheralded by any prodromata. The effect of the clot is to cut off the blood-supply to all organs below the obstruction and disturb the nutrition and function of the same.

SYMPTOMS.—The attack is sudden, and begins with a shooting pain in the abdomen or sometimes under the sternum. Almost immediately the patient loses power over his legs and falls completely paraplegic. At the same time there is an intense desire to stool, which rapidly increases to involuntary evacuations. This lesion may be accompanied by intense pain at the anus. The abdomen may be very tender to pressure. The head is always clear, and the inability to stand is not associated with giddiness. There is no anxiety of the face, and often no sign of distress there.

In a few moments the legs become cold and numb, and patients complain of a sense of deadness in them. The reflexes are entirely abolished. If the renal arteries are occluded the urine is suppressed at first, but reappears as soon as collateral circulation is established through the capsule. The urine rapidly becomes albuminous and foul smelling from the cystitis which develops. In the course of forty-eight hours bullæ appear upon the legs and thighs, bedsores appear over the sacrum; violent cystitis and inflammation of the rectum follow. Some patients live long enough for gangrene of the lower extremities to form.

Great thirst is present, and vomiting with hiccough may aggravate the suffering. The bodily temperature rises above 100° F., while the temperature of the legs falls. It may reach 94° F. There is usually no pulsation perceptible in the abdomen or legs, except in rare cases, when the occlusion is incomplete.

DURATION.—Death results from exhaustion, and occurs in a few days. Two weeks is a long time for life to continue under such circumstances. One case is reported, however, where the occlusion was evidently imperfect and the man survived seven months. Collateral circulation was developed, and the epigastric was mentioned as very much enlarged.

TREATMENT.—The treatment is wholly symptomatic. Pack the extremities for warmth and protect from bedsores if possible.

Stenosis of the Aorta.

PATHOLOGY.—In 1789 attention was first called to a peculiar constriction of the thoracic aorta at the insertion of the ductus arteriosus Botalli. Careful search for this lesion since that date has discovered a series of cases, so that in 1878, Kriegk was able to report 55 instances of it. This constriction is a definite, locally circumscribed lesion, always limited to the same region, and is entirely independent of all other affections of the aorta, although it may itself be the cause of atheroma and aneurism. Beyond the locality specified stenosis of the aorta is an extremely rare affection, except as the result of outside pressure or of local arteritis. Kriegk says he found only two cases of stenosis of other parts of the aorta, although he searched through forty years of medical literature. A few instances of complete obliteration of the aorta have been recorded, and some instances of universal narrowing of the aorta from congenital obstruction in the heart are given.

The constriction at the ductus Botalli is a congenital lesion, and consists of a sinking in of the superior wall of the aorta just at the insertion of the ductus arteriosus or a little above or a little below the same. This sinking may extend to and involve the origin of the left subclavian artery, but this is not usual. The lower wall of the aorta rarely exhibits any depression.

The ascending and transverse portions of the aorta, together with the main branches, become very much enlarged. As the aorta approaches the constriction, its dilatation does not terminate abruptly, but the vessel tapers down to the stenosed section in a funnel shape. Beyond the stricture the descending aorta may recover its normal size or may remain smaller than natural.

In many cases the aorta, barring the stenosis, is perfectly healthy, but the increased pressure behind the obstruction tends to develop atheroma, aneurism, hypertrophy of the heart, and rupture.

Naturally, the lower part of the body must be deprived of a portion of its quota of blood except for the compensatory circulation which develops. This collateral supply may be so complete that the person affected is unconscious of any circulatory deficiency, and may live an active life to old age. An Austrian officer born with this lesion was able to serve in all the campaigns from 1790 to 1815, and then died one day sitting at a card-table. Another man lived ninety-two years with his aorta constricted. The collateral communication between the upper and lower segments of the aorta is established by means of the deep arteries of the neck, the transversus colli, the dorsalis scapulæ, the subscapularis, the intercostals, and the lumbar arteries. The internal mammary also communicates directly with the epigastric artery. These vessels become enormously dilated, so that the superior intercostal, for instance, may equal the femoral in size.

ETIOLOGY.—The lesion is a congenital one, and results from a defective development of the aorta. In early foetal life the descending aorta is a continuation of the ductus Botalli, and the aortic arch looks like an independent communicating vessel. (See fig. 52, A.) As the arch develops, however, it gradually forms a more direct union with the descending portion, until finally the longitudinal axes of the two parts form one uniform curve and the ductus Botalli becomes a side branch. At birth there is physiologically a slight nicking of the upper wall of the aorta at the point where the two sections are joined, and the stricture we are studying seems to be merely an exaggeration of this physiological mark. Just how the depression becomes established is not clear and the explanations given are not satisfactory.

SYMPTOMS.—Indications of this lesion are usually very obscure or absent, and it is only discovered at the autopsy. Severe headache is sometimes complained of, and dyspnoea, cough, hæmoptysis, and vertigo may occur if the stenosis is excessive.

Physical Signs.—One of the most marked signs is the conspicuous beating of the dilated arteries around the shoulders and ribs. These arteries may be seen and felt. If the patient is very fleshy, however, they may be concealed. There is usually a marked contrast between the arteries of the upper and lower extremities. The former are full and strong, while the latter are weak and barely perceptible. In many cases it is almost impossible to feel any pulse in the abdominal aorta or in the crural arteries. A loud murmur is also described as occurring over the aorta. This murmur is post-systolic, and does not correspond to any of the ordinary aortic murmurs.

DIAGNOSIS.—This lesion has rarely been suspected, much less diagnosed, during life, but a better knowledge of its peculiarities may lead to more frequent recognition of it hereafter. When the collateral circulation is fully established, stenosis of the aorta could hardly be mistaken for anything else. The resulting excessive dilatation of the great vessels at the root of the neck may simulate aneurism, and it should be borne in mind that aneurism is liable to follow stenosis.

PROGNOSIS.—The death of most of the victims of stenosis of the aorta is directly referable to the lesion itself, although the existence of the trouble is compatible with long life and active occupation. The duration of life and the amount of suffering caused by stenosis both depend upon the amount of obstruction in the aorta and the efficiency of the collateral circulation.

In 49 cases death occurred in the following manner:

TREATMENT.—Obviously, no treatment for the lesion itself is possible. If recognized, the existence of the sufferer may be prolonged by adopting moderation in all things as the maxim of his life. Subjective symptoms of discomfort must be combated on general principles as they arise.