From Clouds to the Brain. Celine Cherici

From Clouds to the Brain - Celine Cherici


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became completely imperceptible. While the body had been stimulated for four hours, death could no longer be considered as an instantaneous state but as a process taking place in stages. Moreover, the reaction of each organ to galvanism and the duration of their sensitivity were here the subject of a precise temporal determination, which went in the direction of a rationalization of the action of galvanism on the body. Such an approach can be seen in the tables shown in Figure 1.3.

Photo depicts the comparitive table of the duration of galvanic excitability of various organs.

      The main conclusion being that galvanic action, in addition to maintaining the excitability of the heart, brings it back when it is ready to die:

      The sinus of the pulmonary veins was apparently insensitive to any excitation, either mechanical or galvanic; but its excitability, so to speak extinguished, was revived by galvanic action, to the point that it then contracted not only by this action, but also by that of mechanical agents […]. [NYS 02, p. 36, author’s translation]

      There is another kind of experiment similar to these, which can still shed light on the relationship between the heart and the brain: that of galvanism. I will not overlook this means of proving that the first of these organs is still currently dependent on the second. [BIC 99–00, p. 393, author’s translation]

      Bichat chose to experiment on the animal model of the frog and followed a classical experimental protocol, made of zinc and lead metal frames and organic materials:

      I have equipped several times in a frog, on the one hand his brain with lead, on the other hand his heart and lower limb muscles with a long zinc blade which touches the first one by its upper extremity, and the second one by its lower extremity. [BIC 99–00, p. 394, author’s translation]

      Although he established communication between the muscles and the brain, no acceleration was noticeable in the heart while it was still beating, and no movement occurred after it stopped. His physiological research focused not only on the passage from life to death, its different stages and the possibility of modifying its parameters through stimulation, but also on the interactions between organs. Following the idea that every body is subject to the harmonious functioning of the systems of the animal economy such as the nervous, cerebral or blood systems, Bichat explored the idea of hierarchy to determine which organ lives or functions the longest between the heart and the brain. In addition, the Société Médicale d’Émulation de Paris, which he founded in 1797, rewarded the text written by Malacarne (1744–1816) [MAL 03, 98, 99] in 1802 on the physiological landscape formed by the different physiological systems. It is a fundamental theme for the understanding of brain and heart physiology. Does the brain directly influence the heart? Bichat also investigated whether there is an irritating movement of the heart that can be differentiated from cardiac movement:

      1st to detach the heart from the chest; 2nd to place it in contact, with two different metals, by two points on its surface, or with portions of flesh armed with metals; 3rd to make the armatures communicate by a third metal. [BIC 99–00, p. 396, author’s translation]

      These different considerations, are a manifest proof that the communicating branches of the ganglions, should no more be considered as a continued nerve, than the branches, which pass from each of the cervical, lumbar and sacral nerves, to those which are immediately above and below them. In fact, notwithstanding these communications, each pair of the latter mentioned nerves is regarded as a separate pair. [BIC 99–00, p. 397, author’s translation]

      2dly in dogs and guinea pigs, I have repeatedly applied the metals, first to the brain and the heart, then to the trunk of the spinal marrow, and the heart; then to the par vagum and the heart. The communication being made, was followed by no apparent result. 3dly, on making the communication between the metals, when applied to the cardiac nerves and the heart there was no very sensible motion. [BIC 39, p. 261]

      As long as he tried to provoke cardiac movements by connecting the heart to the central nervous system, it achieved little. It had to be detached, insulated and brought into direct contact with metals:

      Besides, in admitting even these different results, I do not see how it is possible to refuse acknowledging, that with respect to the stimulus of galvanism, there is a wide difference between the susceptibility of the muscles of the animal life, and those of the organic life. Again, supposing that the galvanic phenomena were the same in both sorts of muscles, the fact would prove nothing more […]. [BIC 39, pp. 261–262]


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