The Glands Regulating Personality

on about them we have? A brief review of how the idea of a gland of internal secretion came into the h

l tissues and organs). It manufactures substances intended for a particular effect

microscope has shown us that every gland is a chemical factory in which the cells are the workers. The product of the gland work is its secretion. Thus the sweat glands of the skin secrete the perspiration

pon some surface of the body. Either an exterior surface like the skin, or some interior surface, the various mucous membranes. This was supported by the discovery of canal-like passage ways leading from the gland to the particular surface where its secretion was to act. These corridors, t

men, hitherto neglected because their function was hopelessly obscure, had a glandular structure. As in so much scientific advance, the discovery

early twenties and by the charm of his manner and daring therapy fought his way to the most exclusive aristocratic practice of the court. Naturally a courtier, taking to the intrigues of the royal court like a duck to water, making enemies on every hand as well as fri

esence and a Tartarin de Tarascon disposition assured his success from the start. The medical world was then composed of the emulsion of charlatanry and science Molière ridiculed. Success stimulated envy and jealousy. One of the richest of the older medical men set himself the job of procuring his scalp. On a trumped-up charge of stealing jewels from a dead patient-a favorite accusation against the

ibed in a monograph, "Researches into the mucous tissues or cellular organs." But what makes him interesting is a slender volume on the "Medical Analysis of the Blood," published in the year of the American Declaration of Independence. The sexual side of men and women aroused Bordeu's most ardent enthusiasms. Starting with observations on

the neck, or adrenal in the abdomen, of which the function was unknown. What had hitherto prevented classification of the latter as glands was the fact that they possessed no visible pathways for the removal of their secretion. So now they were set apart as the ductless glands, the glands without duct

without the ducts, the secretions of which were kept within the body, absorbed by the blood and lymph to be used by the other cells, as the glands of INTERNAL SECRETION. How different these two clas

glands and as the hormone producing glands. Endocrine is most convenient for it stands for both the gland and its secretion. Hormone

RIMENTAL

ey may be extirpated or they degenerate without sensation or motion suffering in the least." Johann Müller, the most celebrated physiologist of his day and contemporary of Henle, wrote in 1844 and coolly stated, "The ductless glands are alike in one particular-they either produce a different change in the blood which circulates through them or the lymph which they elaborate plays a special r?le in the formation of blood or of chyle." In other words, they were dismissed as curious non

ons are full of references to them. But up to the nineteenth century no controlled experimental work was ever carried out regarding them. It was in 1849, that A.A. Berthold of G?ttingen, a quiet, sedate lecturer, carried out the pioneer experiment of removing the testes of four roosters and transplanting them under the skin. It was Berthold's idea to test whether a gland with a definite external secretion, and a duct through which that secretion was expelled, but which yet had powers over the body as a whole that were to be attributed only to an internal secretion, could not be shown, by a clean-cut experime

upon the entire organism. Besides, he showed that a typical gland of external secretion could also have an internal secretion, a possibility never before considered. That two kinds of

CLAUDE

, was a great pioneer. But there was no personage, no person of consequence, with no patronage by anyone of consequence, no wife or kin, to push him, and no audience to stimulate him. His poor four little pages of a report, published ten years before Darwin's "Origin of Species," attracted not the slightest notice. Buried in the print of a journal with a subscription list of possibly two or three hundred, of whom perhaps two doz

ecretions, so that people began to sit up and listen and take sides-on the wrong grounds. This Frenchman was Claude Bernard. At a series of lectures on experimental physiology delivered at the College of France, i

al, contained less sugar than the blood of the arteries, which meant that sugar was taken from the blood in passing through the tissues. But the venous blood of the right side of the heart contained as much sugar as the arterial blood. Evidently, somewhere, sugar was added to the blood in the veins before it got to the heart. The blood of the vein which goes from the liver to the right side of the heart was then found to contain a higher percentage of sugar than is present in the arteries. The vein which transmits the blood from the intestines to the liver had the usual lower percentage o

wn to substances acting as starters or inhibitors of different processes. Moreover, the process of liberation of sugar from glycogen itself in the liver, upon demand, is today set down to the action of an internal secretion, adrenalin. Claude Bernard's conception, like a novelist's characters, has turned upon its creator, taken on a life of

HE FIRST ENGLI

l bodies." In this, he described a fatal disease during which the individual affected became languid and weak, and developed a dingy or smoky discoloration of the whole surface of the body, a browning or bronzing of the skin, caused generally by destructive tuberculous disease of the suprarenal or adrenal bodies. Addison promptly put down these c

f investigators. The most adventurous, the most daring, the most imbued with enthusiasm for the experimental method, was the American Frenchman, Brown-Séqu

éQUARD

ica, then French property. His father was a Mr. Brown, an American sea captain; his mother a Mme. Séquard, a Frenchwoman. Early in childhood, the father sailed away on one of his voyages and never came back. The mother thereafter supported herself and her son sewing embr

arn a trade or go into business. He would have none of either and studied medicine instead, earning his way by teaching as he learned. In the laboratories, he made the acquaintance of

thout a word of American, learning English on board. This was the first of a series of voyages. As he often boasted, he crossed the ocean sixty times, not a bad record for the days when the Mauretania was still in the womb of time. He made a hopeless failure out of practice in New York, became so p

preceded him now with a thousand trumpets, so that on the day of his arrival, he was kept busy seeing patients until night, when he had to desist because of exhaustion. But still he did not prosper. An unfortunate second marriage almost broke his heart, and an attempt to found in New York a new medical periodical, the Archives of Scientific a

ysiologist to a frazzle. Indeed, he begins like this: "If Pathology be to disease what Physiology is to health, it appears reasonable to conclude that, in any given structure or organ, the laws of the former will be as fixed and significant as those of the latter: and that the peculiar characters of any structure or organ may be as certainly recognized in the phenomena of disease as in the phenomena of health. Although pathology, therefore, as a branch of medical science, is necessarily founded on physiology, questions may nevertheless arise regarding the true character of a structure or organ, to which occasionally the pathologist may be able to return a more satisfactory and decisive reply than the physiologist-these two branches of medical knowl

ession that these hitherto mysterious organs-the suprarenal capsules-may be either directly or indirectly concerned in sanguification (the making of the blood): and that a diseased condition of them, functional or structural, may interfere with the proper elaboration of the body generally, or of the red particles more especially...." A modern, acquainted with af

fter. If only one were removed, there was no change apparent in the normal animal, but death occurred rapidly upon removal of the other, even after a long interval. Furthermore, transfusi

secretion, the thyroid, the gland in the neck astride the windpi

ho in 1614 had found an enlarged thymus in an infant dying suddenly, and Restelli, an Italian, who interested himself in the effects of removal of the thymus more than ten years before. Friedl

gs of Caleb Perry, an eminent physician of Bath, England, recorded eight cases, in which, together with enlargement of the gland, there developed enlargement and palpitation of the heart, a distinct protrusion of the eyes from their sockets and an appearance of agitation and distress. Schiff's paper was the

bsence of the thyroid body, and accompanying symmetrical swellings of fat tissue at the sides of the neck. Then Sir William Gull in 1873 painted the singular details of a cretinous condition developing in adult wo

by symptoms identical with those collected under the name of myxedema, and used the phrase "operative myxedema" to emphasize his conviction of the connection between them. Then Schiff, in 1884, neglected twenty-five years, came back, with an array of demonstrations, proving that the variou

gs. M?bius, a German neurologist, came out boldly for the conception that a number of ailments could be due to qualitative and quantitative changes in the secretion of the thyroid, and that just as myxedema and cretinism were due to an insufficiency of the secretion

nd had borne nine children. The illness attacking her had begun insidiously, with a gradual enlargement and thickening of her face and hands. She had become very slow in speech and gait, sensitive to cold, and languid and depressed in spirit to the point of inability to go about alone. Murray, employing the glycerin extract of the thyroid gland of a freshly killed sheep, injected twenty-four drops hypodermically, twice a week. There was an immediate and marvelous improve

the Hebrews, are examples of the fascination of the superlarge. John Hunter, the founder of experimental surgery, spent a fortune in chasing after the skeleton of a famous Irish Giant in 1783. Dwarfs have also fascinated-witness the short-limbed satyrs of the Greeks and the dwarf gods (

gland of external secretion. Experimental removal of the pituitary was essayed by Horsley in 1886, the same man who two years before had reproduced myxedema successfully in monkeys. Others succeeded his attempt. But the conclusions drawn were uncertain or contradictory, resulting from the difficulties of the operative technique of getting at a gland placed at the base of the brain. Not until 1908 was the problem solved by Paulesco of Bucharest, who devis

lated their relationship to the giants who have been mentioned. Acromegalics have been also likened to the Neanderthal Man, who had probably, as the gorillas may have, an excess of the pituitary in their systems. For four years he studied the morbid phenomena in the tissues of these sufferers at last consigned to their end. First one, and then another, and then a third and a fourth exhibited a strik

interesting outcome of castration for about as long as their professions have existed. And for ages the diminution of sexual activity as a predecessor to the decadence of senility has been harped upon. Rejuvenation, especially in connection with sexual activity, as well as with tissue and spiritual elasticity, has been one of the haunting phantoms of the imagination for as long as we have records of articulate humanity. Together with El Do

opportunity loomed of a great laboratory on Agassiz Island, Long Island, on one of his recurrent flights to New York: "Would that I were thirty!" And other passages in his personal communications refer again and again to his consciousness of growing old. The miracles that were being performed by injecting thyroid and feeding thyroid in animals probably acted as the spark to an inflammable mass of ideas long smouldering in the subcellars of his mi

nists and reporters leaped upon the theme with the avidity of the true-blue interviewer. Paris, where to be ridiculed is to be killed in public with the most ignominious of deaths, reacted a

ntil we have a better acquaintance with his more intimate life. A biography and collection of his letters is needed. But it is certain that the general principles he arrived at, aided as much by the wings of intuition

ch tissue, and, more generally, each cell of the organism, secretes on its own account, certain products or special ferments, which, through this medium (the blood), influence all other cells of the body, a definite solidarity being thus established among all the cells through a mechanism other than the nervous system.... All the tissues (glands

by its telegraphic arrangements of nerve filaments reaching out everywhere, interweaving with each other and the cells. The Brown-Séquard conception inferred the existence of a postal system between cells, the blood supplying the highway for travel and transmission of the post, the post consisting of the chemical substances secreted by the glands. To be sure, the doctrine was only an inference, though well-founded, of which the direct experimental proof was not to be obtained until the researches of Bayliss and Starling. Yet to

HORM

a dilute mineral acid, such as the hydrochloric acid, normally a constituent of the stomach digestive fluid, into the upper part of the intestine, provoked a secretion

the gut and the spinal cord were severed. If the relation was a reflex, it would have to be classed now as one of those local nerve circuits, which are pretty c

of the parts about the piece of gut had been disturbed. It was evident that the stimulus to the pancreas was carried by way of the blood stream. That the stimulating substance was not the acid itself, was shown by the failure of the reaction to occur when the acid was injected directly into the blood stream. Since there was this difference in the effects between acid in the intestine and acid in the blood, it was manifest that the active substance must be some material elaborated in the intestinal mucous mem

e public highways, the blood (really more like a moving platform). So they christened them all hormones, deriving the word from the Greek verb meaning to rouse or set in motion. As a science is a well-made language, a new word is an event. It sums up details, economizes brain-work and so is cherished by the intellect. The study of th