Theobald smith biography

Theobald Smith

American epidemiologist (–)

Theobald SmithFRS(For)[1] HFRSE (July 31, – December 10, ) was a pioneering epidemiologist, bacteriologist, pathologist and professor. Smith is widely considered to be America's first internationally-significant medical research scientist.[2][3]

Smith's research work included the study of babesiosis (originally known as Texas cattle fever) and the more-general epidemiology of cattle diseases caused by tick borne diseases. He also described the bacterium Salmonella enterica (formerly called Salmonella choleraesuis), a species of Salmonella, named for the Bureau of Animal Industry chief Daniel E. Salmon. Additional work in studying the phenomena of anaphylaxis led to it being referred to as the Theobald Smith phenomenon.[1]

Smith taught at Columbian University (now George Washington University) and established the school's department of bacteriology, the first at a medical school in the United States.[1] He later worked at Harvard University and the Rockefeller Institute.

Education

Smith was born in Albany, New York, the son of Philip Smith and his wife, Theresa Kexel.[4]

He received a Bachelor of Philosophy degree from Cornell University in , followed by an MD from Albany Medical College in [2]

After his graduation from medical school, Smith held a variety of temporary positions which might broadly be considered under the modern heading of "medical laboratory technician". After some prodding by his former professors, Smith secured a new research lab assistant position with the Veterinary Division of the US Department of Agriculture (USDA) in Washington, D.C., beginning his position there in December [5]

Research

Smith became the Inspector of the newly created Bureau of Animal Industry (BAI) in Established by Congress to combat a wide range of animal diseases—from infectious disease of swine to bovine pneumonia, Texas cattle fever to glanders—Smith worked under Daniel E. Salmon, a veterinarian and Chief of the BAI.[6] Smith also discovered the bacterial type species which would eventually form the genusSalmonella. After two years of work studying the efficacy of bacterial vaccination in pigs, Smith erroneously believed he had found the causative agent of hog cholera.[7]

Smith turned his attention to Texas fever, a debilitating cattle disease; this work is detailed in a chapter in Microbe Hunters, by Paul de Kruif. In , he along with the veterinarian F.L. Kilbourne discovered Babesia bigemina, the tick-borne protozoanparasite responsible for Texas fever. This marked the first time that an arthropod had been definitively linked with the transmission of an infectious disease and presaged the eventual discovery of insects such as ticks and mosquitoes as important vectors in a number of diseases.

Smith also taught at Columbian University in Washington, D.C. (now George Washington University) from to , establishing the school's Department of Bacteriology. In , Smith began research on water sanitation in his spare time, investigating the level of fecal coliform contamination in the nearby Potomac River. Over the next five years, Smith expanded his studies to include the Hudson River and its tributaries.[8]

While Smith's work at the BAI had been highly productive, he found the rigid federal government bureaucracy stiffing and complained about the lack of leadership from his supervisor. In Smith moved to Cambridge, Massachusetts to accept a dual appointment serving as professor of comparative pathology at Harvard University as well as directing the pathology lab at the Massachusetts State Board of Health.[5]

Smith joined the Rockefeller Institute for Medical Research as Director of the Department of Animal Pathology in and remained there until his retirement in

He was a trustee of the Carnegie Institution from until his death in [9]

Law of declining virulence

Smith's best-known contribution was the notion, long since disproved, that there would be a “delicate equilibrium” between hosts and pathogens such that they would develop a "mutually benign relationship" over time.[10] This was at most an educated guess and never became a scientific theory, but it became accepted as conventional wisdom and was even called the law of declining virulence. It has been disproved and replaced by the trade-off model, which explains that each host–pathogen relationship must be considered separately, that there is no general pattern that predicts how all of these relationships will develop, and that there is definitely no inevitability of decreased virulence.[10][11]

Awards and Honors

Smith was elected to the American Academy of Arts and Sciences in ,[12] the United States National Academy of Sciences in ,[13] and the American Philosophical Society in [14] In , Smith was awarded the Royal Society's prestigious Copley Medal"For his original research and observation on diseases of animals and man.".

Publications

  • Parasitism and Disease ()

Other discoveries

  • Observed differences between human and bovine tuberculosis ().
  • Discussed the possibility of mosquitos as a malaria transmission vector ().
  • Variation and bacterial pathogenesis ().
  • Discovered anaphylaxis (), which is also sometimes referred to as "Theobald Smith's phenomenon".[15]
  • Brucellosis infections
  • Used toxin/antitoxin as a vaccine for diphtheria ().
  • In the process of investigating an epidemic of infectious abortions of cattle in , Smith described the bacteria responsible for fetal membrane disease in cows now known as Campylobacter fetus.[16]

References

  1. ^ abcNuttall, G. H. F. (). "Theobald Smith. ". Obituary Notices of Fellows of the Royal Society. 1 (4): – BibcodeSciMoW. doi/rsbm JSTOR&#; Retrieved 17 March
  2. ^ abDolman, C.E.; Wolfe, R.J. (). Suppressing the Diseases of Animals and Man: Theobald Smith, Microbiologist. Boston Medical Library. ISBN&#;.
  3. ^Middleton, James (July ). "A Great American Scientist: Dr. Theobald Smith, Head of The New Department Of Animal Diseases At The Rockefeller Institute". The World's Work: A History of Our Time. XLIV (2). Doubleday, Page & Co.: – Retrieved 17 March
  4. ^Biographical Index of Former Fellows of the Royal Society of Edinburgh –(PDF). The Royal Society of Edinburgh. July ISBN&#;. Archived from the original(PDF) on Retrieved
  5. ^ abKruif, Paul De () []. Microbe Hunters. Harvest Books. ISBN&#;.
  6. ^J.H., Brown (1 July ). "Theobald Smith ". J Bacteriol. 30 (1): 1–3. BibcodeSciMoW. doi/JB PMC&#; PMID&#;
  7. ^"Theobald Smith, A Fiftieth Anniversary Tribute"(PDF). ASM News. 50: – Archived from the original(PDF) on
  8. ^T., Smith (). "A new method for determining quantitatively the pollution of water by fecal bacteria". 13th Annual Report of the State Board of Health of New York for : –
  9. ^Carnegie Institution of Washington. Year Book No. 47, July 1, – June 30, (PDF). Washington, DC. p.&#;vi.: CS1 maint: location missing publisher (link)
  10. ^ abFall, Ed; Yates, Christian (1 February ). "Will coronavirus really evolve to become less deadly?". The Conversation. Retrieved 29 November
  11. ^Orent, Wendy (16 November ). "Will the Coronavirus Evolve to Be Less Deadly? - History and science suggesting many possible pathways for pandemics, but questions remain about how this one will end". Smithsonian Magazine. Retrieved 29 November
  12. ^"Theobald Smith". American Academy of Arts & Sciences. Retrieved
  13. ^"Theobald Smith". . Retrieved
  14. ^"APS Member History". . Retrieved
  15. ^"Whonamedit - dictionary of medical eponyms". . Retrieved
  16. ^Smith, T.; Taylor, M.S. (). "Some morphological and biological characters of the Spirilla (Vibrio fetus, n. sp.) associated with the disease of the fetal membranes in cattle". J Exp Med. 30 (4): – doi/jem PMC&#; PMID&#;

External links