mometer in the rectum had fallen from 100 to 94o.

"At the end of two hours a small opening being made in the parietes of the thorax, and the ball of the thermometer placed in contact with the heart, the mercury fell to 86°, and half an hour afterwards, in the same situation, it fell to 78°.

"In the beginning of the experiment I made an opening into the abdomen; and, having passed a ligature round each ureter about two inches below the kidney, brought the edges of the wound in the abdomen together by means of sutures. At the end of the experiment no urine was collected in the ureters above the ligatures.

"On examining the blood in the different vessels, it was found of a florid red colour in the arteries, and of a dark colour in the veins, as under ordinary circumstances.

"During the first hour and a half of the experiment there were constant and powerful contractions of the muscles of the trunk and extremities, so that the body of the animal was moved in a very remarkable manner, on the table on which it lay, and twice there was a copious evacuation of fæces.

"Exp. 3. The experiment was repcated on a rabbit. The temperature of the room was 60°. The respirations were made from 30 to 35 in a minute. The actions of the heart at first were strong and frequent; but at the end of one hour and forty minutes the pulse had fallen to 24 in a minute.

"The blood in the arteries was seen of a florid red, and that in the veins of a dark colour.

"A small opening was made in the abdominal muscles, through which the thermometer was introduced into the abdomen, and allowed to remain among the viscera.

"At the end of an hour the heat in the abdomen had fallen from 100% to 89°. At the end of an hour and forty minutes in the same situation, the heat had fallen to $5o; and when the bulb of the thermometer was placed in the thorax, in contact with the lungs, the mercury fell to 82°.

"It has been a very generally received opinion, that the heat of warm blooded animals is dependent on the chemical changes produced on the blood by the air in respiration. In the two last experiments the animals cooled very rapidly, notwithstanding the blood appeared, to undergo the usual changes in the lungs; and I was therefore induced to doubt whether the above mentioned opinion respecting the source of animal heat is correct. No positive conclusions however could be deduced from these experiments. If animal heat depends on the changes produced on the blood by the air in respiration, its being kept up to the natural standard, or otherwise, must depend on the quantity of air inspired, and on the quantity of blood passing through the lungs in a given space of time: in other words, it must be in proportion to the fulness and frequency of the pulse, and the fulness and frequency of the inspirations. It therefore became neces• . sary to pay particular attention to these circumstances.

"Exp. 4. The experiment was repeated on a dog of a small size, whose pulse was from 130 to 140 in a minute, and whose respirations, as far as I could judge, were performed from 30 to 35 times in a minute.

"The temperature of the room was 63°. The heat in the rectum of the animal at the commencement of the experiment was 99o. The artificial inspirations were made to correspond as nearly as possible to

the

the natural inspirations, both in fulness and frequency.

At twenty minutes from the time of the dog being pithed, the heart acted 140 times in a minute, with as much strength and regularity as before: the heat in the rectum had fallen to 96§.

"At forty minutes the pulse was still 140 in a minute: the heat in the rectum 92.

"At fifty-five minutes the pulse was 112, and the heat in the rectum 90°.

66

At one hour and ten minutes the pulse beat 90 in a minute, and the heat in the rectum was 88°.

"At one hour and twenty-five minutes the pulse had sunk to 30, and the heat in the rectum was 85°. The bulb of the thermometer being placed in the bag of the pericardium, the mercury stood at 85°, but among the viscera of the abdomen it rose to 874.

"During the experiment there were frequent and violent contractions of the voluntary muscles, and an hour after the experiment was begun, there was an evacuation of fæces.

"Exp. 5. The experiment was repeated on a rabbit, whose respirations, as far as I could judge, were from 30 to 40 in a minute, and whose pulse varied from 130 to 140 in a minute. The temperature of the room was 57°. The heat in the rectum, at the commencement of the experiment, was 101. The artificial respirations were made to resemble the natural respirations as much as possible, both in fulness and frequency.

At fifteen minutes from the time of the spinal marrow being divided, the heat in the rectum had fallen to 98.

"At the end of half an hour the heart was felt through the ribs, act

ing strongly 140 times in a mi

nute.

"At forty-five minutes the pulse was still 140; the heat in the rec-, tum was 94°.

"At the end of an hour the pulse continued 140 in a minute; the heat in the rectum was 92; among the viscera of the abdomen 94°; in the thorax, between the lungs and pericardium, 92°.

"During the experiment, the blood in the femoral artery was seen to be of a bright florid colour, and that in the femoral vein of a dark colour, as usual.

"The rabbit voided urine at the commencement of the experiment; at the end of the experiment no urine was found in the bladder.

Exp. 6. I procured two rabbits of the same colour, but one of them was about one fifth smaller than the other. I divided the spinal marrow of the larger rabbit between the occiput and atlas. Having secured the vessels in the neck, and removed the head, I kept up the circulation by means of artificial respiration, as in the former experiments. The respirations were made as nearly as possible similar to natural respira-, tions.

"In twenty-three minutes after the spinal marrow was divided, the pulse was strong, and 130 in a minute: the ball of the thermometer being placed among the viscera of the abdomen, the mercury stood at 96.

"At thirty-four minutes the pulse was 120 in a minute: the heat in the abdomen was 95°.

"At the end of an hour the pulse could not be felt, but on opening the thorax the heart was found acting, but slowly and feebly. The. heat in the abdomen was 91°; and between the lobes of the right lung 88°.

R 2

"During

"During the experiment, the blood in the arteries and veins was seen to have its usual colour,

"In this therefore, as in the preééding experiments, the heat of the animal sunk rapidly, notwithstanding the continuance of the respiration. In order to ascertain whether any heat at all was generated by this process, I made the following comparative experiment. The temperature of the room being the same, I killed the smaller rabbit by dividing the spinal marrow between the occiput and atlas. In consequence of the difference of size, cæteris paribus, the heat in this rabbit ought to diminish more rapidly than in the other; and I therefore examined its temperature at the end of fifty-two minutes, considering that this would be at least equivalent to examining that of the larger rabbit at the end of an hour. At fifty-two minutes from the time of the smaller rabbit being killed, the heat among the viscera of the abdomen was 92°, and between the lobes of the right lung it was 91°. From this experiment, therefore, it appeared, not only that no heat was generated in the rabbit, in which the circulation was maintained by artificial respiration, but that it even cooled more rapidly than the dead rabbit.

"At the suggestion of Professor Davy, who took an interest in the inquiry, I repeated the foregoing experiment on two animals, taking pains to procure them more nearly of the same size and colour.

Exp. 7. I procured two large full grown rabbits of the same colour, and so nearly equal in size, that no difference could be detected by the eye.

The temperature of the room was 57°, and the heat in the rectum of each rabbit, previous to the experiment, was 100%.

"I divided the spinal marrow in one of them, produced artificial res piration, and removed the head, after having secured the vessels in the neck. The artificial respirations were made about 35 times in a minute.

"During the first hour, the heart contracted 144 times in a minute. "At the end of an hour and a quarter the pulse had fallen to 136 in a minute, and it continued the same at the end of an hour and a half. At the end of an hour and forty minutes the pulse had fallen to 90° in a minute, and the artificial respiration was not continued after this period.

"Half an hour after the spinal marrow was divided, the heat in the rectum had fallen to 97°.

"At forty-five minutes the heat was 954.

"At the end of an hour the heat in the rectum was 94°.

"At an hour and a quarter it was

92°.

"At an hour and a half it was

91.

At an hour and forty minutes, the heat in the rectum was 901, and in the thorax, within the bag of the pericardium, the heat was 87.

"The temperature of the room being the same, the second rabbit Iwas killed by dividing the spinal marrow, and the temperature was examined at corresponding periods.

"Half an hour after the rabbit was killed, the heat in the rectum was 99 ̊.

"At forty-five minutes it had fallen to 98°.

"At the end of an hour the heat in the rectum was 961.

"At an hour and a quarter it wai

`95°.

"In this experiment, the thorax, even in the dead animal, cooled more rapidly than the abdomen. This is to be explained by the difference in the bulk of these two parts. The rabbit in which the circulation was maintained by artificial respiration cooled more rapidly than the dead rabbit: but the difference was more perceptible in the thorax than in the rectum. This is what might be expected, if the production of animal heat does not depend on respiration; since the cold air, by which the lungs were inflated, must necessarily have abstracted a certain quantity of heat, particularly as its influence was communicated to all parts of the body, in consequence of the continuance of respiration.

"It was suggested that some animal heat might have been generated, though so small in quantity as not to counterbalance the cooling powers of the air thrown into the lungs. It is difficult, or impossible, to ascertain with perfect accuracy, what effect cold air thrown into the lungs would have on the tempera

ture of an animal under the circumstances of the last experiment, independently of any chemical action on the blood; since, if no chemical changes were produced, the circulation could not be maintained, and if the circulation ceased, the cooling properties of the air must be more confined to the thorax, and not com, municated in an equal degree to the more distant parts. The following experiment, however, was instituted as likely to afford a nearer approximation to the truth, than any other that could be devised.

"Exp 8. 1 procured two rabbits of the same size and colour: the temperature of the room was 64°. I killed one of them by dividing the spinal marrow, and, immediately, having male an opening into the left side of the thorax, I tied a ligature round the base of the heart, so as to stop the circulation. The wound in the skin was closed by a suture. An opening was then made into the trachea, and the apparatus for artificial respiration being fitted into it, the lungs were inflated, and then allowed to collapse as in the

former

1

"In this last experiment, as may be seen from the above table, the difference in the temperature of the two rabbits, at the end of an hour and a half, in the rectum, was half a degree, and in the thorax two degrees and a half; whereas, in the preceding experiment, at the end of an hour and forty minutes, the difference in the rectum was 2 degrees, and in the thorax 3 degrees. It appears, therefore, that the rabbit in which the circulation was maintained by artificial respiration cooled more rapidly on the whole, than the rabbit whose lungs were inflated in the same manner after the circulation had ceased. This is what might be expected, if no heat was produced by the chemical action of the air on the blood; since in the last case the cold air was always applied to the same surface, but in the former it was applied always to fresh portions of blood, by which its cooling powers were communicated to the more distant parts of the body.

"In the course of the experiments which I have related, I was

93 911/2

681

much indebted to several members of the Society for promoting the Knowledge of Animal Chemistry, for many important suggestions, which have assisted me in prosecut ing the inquiry. Mr. Home, at my request, was present at the seventh experiment. Dr. E. N. Bancroft was present at, and assisted me in the second experiment: and Mr. William Brande lent me his assistance in the greater part of those which were made. I have been farther assisted in making the experiments by Mr. Broughton, surgeon of the Dorsetshire regiment of militia, and Mr. Richard Rawlins, and Mr. Robert Gatcombe, students in surgery.

“I have selected the above from a great number of similar experi ments, which it would be needless to detail. It is sufficient to state, that the general results were always the same; and that, whether the pulse was frequent or slow, full or small, or whether the respirations were frequent or otherwise, there was no perceptible difference in the cooling of the animal.

"From