Pneumatic Institution

The Pneumatic Institution (also referred to as Pneumatic Institute) was a medical research facility in Bristol, England, in 1799–1802. It was established by physician and science writer Thomas Beddoes to study the medical effects of the gases that had recently been discovered. Humphry Davy headed the Institution's laboratory, examining the effects of laughing gas on himself and others, and James Watt designed much of the lab's equipment.

Bristol Pneumatic Institute

History

Thomas Beddoes, founder of the Pneumatic Institution, Bristol, by Edward Bird

Preliminaries

After Lavoisier had established the role of oxygen in animal respiration, members of the Lunar Society, such as Joseph Priestley (who had co-discovered oxygen), originated pneumatic chemistry, which eventually led to the establishment of the Pneumatic Institution.[1]

Georgiana, Duchess of Devonshire, who was unusually educated about Chemistry,[2] visited Thomas Beddoes in his laboratory in Hope Square, Bristol, in December 1793.[2] He had set it up earlier that year to study possible medical uses of the recently discovered gases.[2] During her second, extended, visit, "the idea of replacing the existing outpatient facility with a hospital—a Medical Pneumatic Institution—was first formulated."[2] In 1794, she tried to persuade Sir Joseph Banks, who was President of the Royal Society of London at the time, to lend support to Beddoes' efforts.[2] Banks refused, citing scientific objections in addition to his political concerns about Beddoes' sympathising with the French revolution.[2] Even a supporting request from Watt did not change Banks' mind.[2]

Establishment

6 Dowry Square, Bristol, site of the Pneumatic Institution

Beddoes had moved from Oxford in 1793 and established himself as a physician. He moved near to the Hotwells area of Bristol where many sufferers from tuberculosis were gathered in the hope of a cure. By 1794 Beddoes had arranged for the manufacture of suitable apparatus by the firm of Boulton and Watt and the first of the "pneumatic patients" was a Mr Knight of Painswick, whom Beddoes treated with "unrespirable airs" for a deep-seated ulcer of the pelvis. By 5 March 1795 Beddoes was reporting successful treatment of paralytic patients and ordering an apparatus and oxygen for a Mr Gladwell in Clifton.[3]

Between 1792 and 1798, Beddoes had collected and published many "case histories" sent to him by other sympathetic physicians, from many parts of the country, and principally concerning the inhalation of oxygen and hydrogen.[3]

In November 1798, Beddoes rented two buildings at 6 and 7 Dowry Square, in Hotwells,[4] and in March 1799 the laboratory was moved into the smaller one and the Institution was publicly announced.[4] Beddoes anticipated that scientific investigations and medical treatment would be carried out side by side.

Humphry Davy's experiments

In March 1798, the curiosity of Humphry Davy was aroused by dramatic statements made in Samuel Latham Mitchell's Remarks on the gaseous oxyd of nitrogen and its effects (1795) that nitrous oxide had disastrous effects whether inhaled or in contact with the skin, that it was indeed the very "principle of contagion".[3]

Davy joined the Pneumatic Institution in 1798 as the laboratory operator,[3] largely through the recommendation of Davies Giddy, and it was here that he undertook experiments that included himself inhaling nitrous oxide,[5] which he called laughing gas for its effects.[5] Davy was to describe his work at the Institution in his Researches, chemical and philosophical, chiefly concerning nitrous oxide, or dephlogisticated nitrous air, and its respiration (London, Murray, 1800).[3]

This and other gases were administered, without charge, to willing subjects, particularly those with diseases considered to be incurable at the time.[6] Although the initial aim had been to treat patients with tuberculosis, most of the patients treated suffered from some form of paralysis.[3]

James Watt's involvement

Apparatus designed by James Watt in preparation of the Pneumatic Institution

James Watt supported the Institution because conventional methods had failed to help against his son's pulmonary tuberculosis (known as consumption at the time), which had previously claimed his daughter Jessie.[7]

In the last days of Jessie Watt's illness, on the advice of Erasmus Darwin, Beddoes had been called in to administer his new respiratory treatment and, although lacking suitable apparatus, had arranged for the girl to breathe "fixt air" (carbon dioxide). The treatment, not surprisingly, had no beneficial effect and Watt's daughter died.[3]

Watt designed many of the apparatuses and techniques necessary to produce and administer various gases.[8]

Disestablishment and legacy

The Pneumatic Institution was converted into a normal hospital when typhus broke out in Bristol in 1800.[8] Davy left in 1801 to join Sir Joseph at the Royal Institution.[6] The Bristol Pneumatic Institution closed down in 1802.[6] Many of the techniques and tools developed by Watt for the Pneumatic Institution are still used in modern medicine.[8]

References

  1. Duncum, Barbara M. (1946). "Ether Anaesthesia 1842–1900". Postgrad Med J. 22 (252): 280–281. doi:10.1136/pgmj.22.252.280. PMC 2478430. PMID 20276652.
  2. Bergman, Norman A. (1998). "Georgiana, Duchess of Devonshire, and Princess Diana: a parallel". J R Soc Med. 91 (4): 217–219. PMC 1296647. PMID 9659313.
  3. Stansfield, Dorothy A., Stansfield, Ronald G. (1986). "Dr. Thomas Beddoes and James Watt: Preparatory Work 1794–96 for the Bristol Pneumatic Institute". Medical History. 30 (3): 276–302. doi:10.1017/s0025727300045713. PMC 1139651. PMID 3523076.CS1 maint: multiple names: authors list (link)
  4. Cartwright, F. F. (1950). "Humphry Davy's Contribution to Anæsthesia". Proceedings of the Royal Society of Medicine. 43 (7): 571–578. PMC 2081366. PMID 15440782.
  5. Pearce, David (2008). "Utopian Surgery. Early arguments against anaesthesia in surgery, dentistry and childbirth". Retrieved 6 April 2011.
  6. Martin, Lawrence. "Oxygen Therapy: The First 150 Years". Retrieved 5 April 2011.
  7. "James Watt biography — Science Hall of fame — National Library of Scotland". National Library of Scotland. 2009. Retrieved 6 April 2011.
  8. Grainge, C. (2004). "Breath of life: the evolution of oxygen therapy". J R Soc Med. 97 (10): 489–93. doi:10.1258/jrsm.97.10.489. PMC 1079621. PMID 15459264.

Further reading

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