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Inoculation

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Inoculation is the act of implanting a pathogen or other microbe or virus into a person or other organism. It is a method of artificially inducing immunity against various infectious diseases. The term "inoculation" is also used more generally to refer to intentionally depositing microbes into any growth medium, as into a Petri dish used to culture the microbe, or into food ingredients for making cultured foods such as yoghurt and fermented beverages such as beer and wine. This article is primarily about the use of inoculation for producing immunity against infection. Inoculation has been used to eradicate smallpox and to markedly reduce other infectious diseases such as polio. Although the terms "inoculation", "vaccination", and "immunization" are often used interchangeably, there are important differences. Inoculation is the act of implanting a pathogen or microbe into a person or other recipient; vaccination is the act of implanting or giving someone a vaccine specifically; and immunization is the development of disease resistance that results from the immune system's response to a vaccine or natural infection.

Terminology

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Until the early 1800s inoculation referred only to variolation (from the Latin word variola = smallpox), the predecessor to the smallpox vaccine.[1] The smallpox vaccine, introduced by Edward Jenner in 1796, was called cowpox inoculation or vaccine inoculation (from Latin vacca = cow). Smallpox inoculation continued to be called variolation, whereas cowpox inoculation was called vaccination (from Jenner's term variolae vaccinae = smallpox of the cow). Louis Pasteur proposed in 1861 to extend the terms vaccine and vaccination to include the new protective procedures being developed. Immunization refers to the use of vaccines as well as the use of antitoxin, which contains pre-formed antibodies such as to diphtheria or tetanus exotoxins.[2] In nontechnical usage inoculation is now more or less synonymous with protective injections and other methods of immunization.[citation needed]

Inoculation also has a specific meaning for procedures done in vitro (in glass, i.e. not in a living body). These include the transfer of microorganisms into and from laboratory apparatus such as test tubes and petri dishes in research and diagnostic laboratories, and also in commercial applications such as brewing, baking, oenology (wine making), and the production of antibiotics. For example, blue cheese is made by inoculating it with Penicillium roqueforti mold, and often certain bacteria.[3][failed verification]

Etymology

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The term inoculate entered medical English through horticultural usage meaning to graft a bud from one plant into another. It derives from Latin in- 'in' + oculus 'eye' (and by metaphor, 'bud').[4] (The term innocuous is unrelated, as it derives from Latin in- 'not' + nocuus 'harmful'.)

Origins

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Inoculation originated as a method for the prevention of smallpox by deliberate introduction of material from smallpox pustules from one person into the skin of another. The usual route of transmission of smallpox was through the air, invading the mucous membranes of the mouth, nose, or respiratory tract, before migrating throughout the body via the lymphatic system, resulting in an often severe disease.[citation needed]

In contrast, infection of the skin usually led to a milder, localized infection – but, crucially, still induced immunity to the virus. This first method for smallpox prevention, smallpox inoculation, is now also known as variolation. Inoculation has ancient origins, and the technique was known in India, Africa, and China.[5]

China

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The earliest hints of the practice of inoculation for smallpox in China come during the 10th century.[6] A Song dynasty (960–1279) chancellor of China, Wang Dan (957–1017), lost his eldest son to smallpox and sought a means to spare the rest of his family from the disease, so he summoned physicians, wise men, and magicians from all across the empire to convene at the capital in Kaifeng and share ideas on how to cure patients of it until an allegedly divine man from Mount Emei carried out inoculation. However, the sinologist Joseph Needham states that this information comes from the Zhongdou xinfa (種痘心法) written in 1808 by Zhu Yiliang, centuries after the alleged events.[6]

The first clear and credible reference to smallpox inoculation in China comes from Wan Quan's (1499–1582) Douzhen Xinfa (痘疹心法) of 1549, which states that some women unexpectedly menstruate during the procedure, yet his text did not give details on techniques of inoculation.[7] Inoculation was first vividly described by Yu Chang in his book Yuyi cao (寓意草), or Notes on My Judgment, published in 1643.[citation needed] Inoculation was reportedly not widely practiced in China until the reign of the Longqing Emperor (r. 1567–1572) during the Ming dynasty (1368–1644), as written by Yu Tianchi in his Shadou Jijie (痧痘集解) of 1727, which he alleges was based on Wang Zhangren's Douzhen Jinjing Lu (痘疹金鏡錄) of 1579.[7] From these accounts, it is known that the Chinese banned the practice of using smallpox material from patients who actually had the full-blown disease of Variola major (considered too dangerous); instead they used proxy material of a cotton plug inserted into the nose of a person who had already been inoculated and had only a few scabs, i.e. Variola minor.[citation needed] This was called "to implant the sprouts", an idea of transplanting the disease which fit their conception of beansprouts in germination. Needham quotes an account from Zhang Yan's Zhongdou Xinshu (種痘新書), or New book on smallpox inoculation, written in 1741 during the Qing dynasty (1644–1912), which shows how the Chinese process had become refined up until that point:

Method of storing the material. Wrap the scabs carefully in paper and put them into a small container bottle. Cork it tightly so that the activity is not dissipated. The container must not be exposed to sunlight or warmed beside a fire. It is best to carry it for some time on the person so that the scabs dry naturally and slowly. The container should be marked clearly with the date on which the contents were taken from the patient.

In winter, the material has yang potency within it, so it remains active even after being kept from thirty to forty days. But in summer the yang potency will be lost in approximately twenty days. The best material is that which had not been left too long, for when the yang potency is abundant it will give a 'take' with nine persons out of ten people – and finally it becomes completely inactive, and will not work at all. In situations where new scabs are rare and the requirement great, it is possible to mix new scabs with the more aged ones, but in this case more of the powder should be blown into the nostril when the inoculation is done.[7]

Two reports on the Chinese practice were received by the Royal Society in London in 1700; one by Dr. Martin Lister who received a report by an employee of the East India Company stationed in China and another by Clopton Havers. But no action was taken.[8]

Circassia

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According to Voltaire (1742), the Turks derived their use of inoculation from neighboring Circassia.

The Circassian women have, from time immemorial, communicated the small-pox to their children when not above six months old by making an incision in the arm, and by putting into this incision a pustule, taken carefully from the body of another child. This pustule produces the same effect in the arm it is laid in as yeast in a piece of dough; it ferments, and diffuses through the whole mass of blood the qualities with which it is impregnated. The pustules of the child in whom the artificial small-pox has been thus inoculated are employed to communicate the same distemper to others. There is an almost perpetual circulation of it in Circassia; and when unhappily the small-pox has quite left the country, the inhabitants of it are in as great trouble and perplexity as other nations when their harvest has fallen short...[9]

Voltaire does not speculate on where the Circassians derived their technique from, though he reports that the Chinese have practiced it "these hundred years". The Turkish practice was presented to the Royal Society in 1714 and 1716, when the physicians Emmanuel Timoni[10] and Giacomo Pylarini independently sent letters from Istanbul.[11]

India

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Inoculation is mentioned in the Ayurvedic text Sact'eya Grantham. The outside world was exposed to it later on, as evidenced by the French scholar Henri Marie Husson, who noted it in the journal Dictionaire des sciences médicales.[12] However, the idea that inoculation originated in India has been also taken in account, as few of the ancient Sanskrit medical texts described the process of inoculation.[13] Variolation is documented in India from the eighteenth century, thanks to the 1767 account by the Irish-born surgeon John Zephaniah Holwell.[14] Holwell's extensive 1767 description included the following,[14] that points to the connection between disease and "multitudes of imperceptible animalculae floating in the atmosphere":

They lay it down as a principle, that the immediate cause of the smallpox exists in the mortal part of every human and animal form; that the mediate (or second) acting cause, which stirs up the first, and throws it into a state of fermentation, is multitudes of imperceptible animalculae floating in the atmosphere; that these are the cause of all epidemical diseases, but more particularly of the small pox.[14]

Holwell ascribes this account to his Brahman informants. However, such a theory has not yet been discovered in any Sanskrit or vernacular treatise.[15] Doctors who performed variolation were known as Tikadars.[16]

By the 18th century, variolation was widely practiced in India. Several historians have suggested that variolation may be older than the 18th century in India.[17] Oliver Coult in 1731 wrote that it had been "first performed by Dununtary a physician of Champanagar". However these reports have been called into question.

Vaccinations were introduced to India in 1802, when 3-year-old girl in Mumbai received a smallpox vaccine, making her the first person to take a vaccine in India.[18] The widespread rumour since the nineteenth century that vaccination was documented in India before the discoveries of Edward Jenner can all be traced to propaganda tracts written in Sanskrit and the Indian vernaculars by colonial officers, in the hope of convincing pious Indians to accept the newly discovered Jennerian procedure and abandon older variolation practices.[19][20] A landmark anthropological study by Ralph Nicholas described the mid-twentieth century rituals of appeasement to Śītalā, the Indian goddess of smallpox, in Bengal.[21]

Ethiopia

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Early travellers to Ethiopia report that variolation was practiced by the Amhara and Tigray peoples. The first European to report this was Nathaniel Pearce, who noted in 1831 that it was performed by a debtera who would collect "a quantity of matter" from a person with the most sores from smallpox, then "cuts a small cross with a razor in the arm" of his subject and puts "a little of the matter" into the cut which was afterwards bound up with a bandage. Subsequent visitors who described this practice included the British traveller William Cornwallis Harris and Dr. Petit of the French scientific mission of 1839–1841.[22]

West Africa

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Inoculation against smallpox seems to have been known to West Africans, more specifically the Ga-Adangbe people of Accra.[23] An enslaved African named Onesimus in the Province of Massachusetts Bay explained the inoculation procedure to Cotton Mather during the 18th century; he reported to have acquired the knowledge from Africa.[24]

Introduction in Europe and North America

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Mary Wortley Montagu, by Charles Jervas, after 1716

Most Old World diseases of known origin can be traced to Africa and Asia and were introduced to Europe over time. Smallpox originated in Africa or Asia,[25] plague in Asia,[26][27] cholera in Asia,[28][29] influenza in Asia,[30][31] malaria in Africa and Asia,[32][33][34] measles from Asian rinderpest,[35][36][37] tuberculosis in Asia,[38][39] yellow fever in Africa,[40] leprosy in Asia,[41] typhoid in Africa,[42] syphilis in America and Africa,[43] herpes in Africa,[44] zika in Africa.[45] Thus the necessity of immunity through inoculation did not arise until those diseases were introduced in Europe.

In January 1714 the Philosophical Transactions of the Royal Society published an account of a letter John Woodward had received from Emmanuel Timonius in Istanbul.[46] Smallpox inoculation was advocated as a proven method of curbing the severity of the disease.[citation needed]

The practice was introduced to England by Lady Mary Wortley Montagu.[47] Lady Montagu's husband, Edward Wortley Montagu, served as the British ambassador to the Ottoman Empire from 1716 to 1718. She witnessed firsthand the Ottoman use of inoculation in Istanbul,[48] and was greatly impressed:[49] she had lost a brother to smallpox and bore facial scars from the disease herself. When a smallpox epidemic threatened England in 1721, she called on her physician, Charles Maitland, to inoculate her daughter. She invited friends to see her daughter, including Sir Hans Sloane, the King's physician. Sufficient interest arose that Maitland gained permission to test inoculation at Newgate Prison on six prisoners due to be hanged in exchange for their freedom, an experiment which was witnessed by a number of notable doctors.[50] All survived, and in 1722 the Prince of Wales' daughters received inoculations.[51]

The practice of inoculation slowly spread amongst the royal families of Europe, usually followed by more general adoption amongst the people.[citation needed]

The practice is documented in America as early as 1721, when Zabdiel Boylston, at the urging of Cotton Mather, successfully inoculated two slaves and his own son. Mather, a prominent Boston minister, had heard a description of the African practice of inoculation from Onesimus, an enslaved man in his household, in 1706 and later from Timoni's report to the Royal Society.[52] However, Mather had been previously unable to convince local physicians to attempt the procedure.[53] Following this initial success, Boylston began performing inoculations throughout Boston, despite much controversy and at least one attempt upon his life. The effectiveness of the procedure was proven when, of the nearly three hundred people Boylston inoculated during the outbreak, only six died, whereas the mortality rate among those who contracted the disease naturally was one in six.[54] Boylston traveled to London in 1724. There he published his results and was elected to the Royal Society in 1726.

Natural experiment in inoculation
around Boston, 1721
  Total Died % Mortality
Variolated c. 300 6 c. 2%
Unvariolated c. 6000 c. 1000 "about 14%"[55]

In France, considerable opposition arose to the introduction of inoculation, and it was banned by the Parlement. Voltaire, in his Lettres Philosophiques, wrote a criticism of his countrymen for being opposed to inoculation and having so little regard for the welfare of their children, concluding that "had inoculation been practised in France it would have saved the lives of thousands."[56]

Likewise, in the United States, the Continental Congress issued a proclamation in 1776 prohibiting Surgeons of the Army from performing inoculations. However, in 1777, George Washington, witnessing the virulent spread of smallpox, and fearing the likelihood of mass transmission of the disease throughout the Continental Army, weighed the risks and overruled this prohibition, conducting smallpox inoculation of all troops. He wrote, "Should the disorder infect the Army in the natural way and rage with its usual virulence, we have more to dread from it than from the sword of the enemy." This was the first mass inoculation of an army, and was successful, with only isolated infections occurring, and no regiments incapacitated by the disease.[57][58]

Inoculation grew in popularity in Europe through the 18th century. Given the high prevalence and often severe consequences of smallpox in Europe in the 18th century (according to Voltaire, there was a 60% incidence of first infection, a 20% mortality rate, and a 20% incidence of severe scarring),[59] many parents felt that the benefits of inoculation outweighed the risks and so inoculated their children.[60]

Mechanism

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Two forms of the disease of smallpox were recognised, now known to be due to two strains of the Variola virus. Those contracting Variola minor had a greatly reduced risk of death – 1–2% – compared to those contracting Variola major with 30% mortality. Infection via inhaled viral particles in droplets spread the infection more widely than the deliberate infection through a small skin wound. The smaller, localised infection is adequate to stimulate the immune system to produce specific immunity to the virus, while requiring more generations of the virus to reach levels of infection likely to kill the patient. The rising immunity terminates the infection. This ensures the less fatal form of the disease is the one caught, and gives the immune system the best start possible in combating it.[citation needed]

Inoculation in the East was historically performed by blowing smallpox crusts into the nostril. In Britain, Europe and the American Colonies the preferred method was rubbing material from a smallpox pustule from a selected mild case (Variola minor) into a scratch between the thumb and forefinger.[61] This would generally be performed when an individual was in normal good health, and thus at peak resistance. The recipient would develop smallpox; however, due to being introduced through the skin rather than the lungs, and possibly because of the inoculated individual's preexisting state of good health, the small inoculum, and the single point of initial infection, the resulting case of smallpox was generally milder than the naturally occurring form, produced far less facial scarring, and had a far lower mortality rate. As with survivors of the natural disease, the inoculated individual was subsequently immune to re-infection.[citation needed]

Obsolescence

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A 1802 comparison of smallpox (left) and cowpox (right) inoculations 16 days after administration

In 1798, British physician Edward Jenner published the results of his experiments and thus introduced the far superior and safer method of inoculation with cowpox virus, a mild infection that also induced immunity to smallpox. Jenner was the first to publish evidence that it was effective, and to provide advice on its production. His efforts led to smallpox inoculation falling into disuse, and eventually being banned in England in 1840.[62]

See also

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References

[edit]
  1. ^ "Pox Britannica". archive.nytimes.com. Archived from the original on 2022-04-23. Retrieved 2022-04-23.
  2. ^ "ACIP Appx 1: Glossary for Guidelines for Immunization | CDC". www.cdc.gov. 2022-03-15. Archived from the original on 2022-04-23. Retrieved 2022-04-23.
  3. ^ "Guidance for Industry: Characterization and Qualification of Cell Substrates and Other Biological Materials Used in the Production of Viral Vaccines for Infectious Disease Indications | FDA". www.fda.gov. Archived from the original on 2022-10-06. Retrieved 2022-10-10.
  4. ^ "Inoculate". The Free Dictionary. Archived from the original on 12 October 2019. Retrieved 12 April 2014.
  5. ^ Chandrakant, Lahariya (2014). "[A brief history of vaccines & vaccination in India]". The Indian Journal of Medical Research. 139 (4). Indian Journal of Medical Research: 491–511. PMC 4078488. PMID 24927336.
  6. ^ a b Needham, Joseph (2000-04-13). Science and Civilisation in China, Part 6, Medicine. Cambridge University Press. p. 154. ISBN 978-0-521-63262-1.
  7. ^ a b c Needham, Joseph (2000-04-13). Science and Civilisation in China, Part 6, Medicine. Cambridge University Press. p. 134. ISBN 978-0-521-63262-1.
  8. ^ Silverstein, Arthur M. (2009). A History of Immunology (2nd ed.). Academic Press. p. 293. ISBN 9780080919461.
  9. ^ Voltaire (1742). "Letter XI". Letters on the English. Archived from the original on 2018-10-16. Retrieved 2001-06-14.
  10. ^ Timoni, Emmanuel (1714). "An account of procuring Smallpox by incision or inoculation, as it is practised in Constantinople". Philosophical Transactions.
  11. ^ Gross, Cary P.; Sepkowitz, Kent A. (July 1998). "The Myth of the Medical Breakthrough: Smallpox, Vaccination, and Jenner Reconsidered". International Journal of Infectious Diseases. 3 (1): 54–60. doi:10.1016/s1201-9712(98)90096-0. PMID 9831677. Archived from the original on 2023-02-02. Retrieved 2014-06-03.
  12. ^ Chaumeton, F. P. (François Pierre); Mérat, F. V. (François Victor); Renauldin, Léopold Joseph (1812). Dictionaire des sciences médicales. Fisher - University of Toronto. Paris : C.L.F. Panckoucke ...
  13. ^ Wujastyk, Dominik; (1995) "Medicine in India," in Oriental Medicine: An Illustrated Guide to the Asian Arts of Healing, 19–38, edited by Serindia Publications, London ISBN 0-906026-36-9. p. 29.
  14. ^ a b c Holwell, John Zephaniah (1767). An Account of the Manner of Inoculating for the Small Pox in the East Indies with ... Observations on the ... Mode of Treating that Disease in those Parts. London: T. Becket & P. A. de Hondt.
  15. ^ Meulenbeld, Gerrit Jan (1999–2002). A history of Indian medical literature. Groningen: Egbert Forsten.
  16. ^ "The Indian queens who modelled for the world's first vaccine". BBC News. 19 September 2020. Archived from the original on 20 September 2020. Retrieved 21 September 2020.
  17. ^ E.g., Agrawal, D.P.; Tiwari, Lalit. "Did you know that smallpox inoculation started in India before the West?". HIST: History of Indian Science and Technology. Archived from the original on 2017-11-07. Retrieved 2009-11-06.
  18. ^ Lahariya, Chandrakant (1 April 2014). "A brief history of vaccines & vaccination in India". Indian Journal of Medical Research. 139 (4): 491–511. ISSN 0971-5916. PMC 4078488. PMID 24927336. Archived from the original on 15 July 2021. Retrieved 27 May 2023.
  19. ^ Wujastyk, Dominik (2001). "`A Pious Fraud': The Indian Claims for Pre-Jennerian Smallpox Vaccination". In G. J. Meulenbeld and Dominik Wujastyk (ed.). Studies in Indian Medical History (in English and Sanskrit) (2 ed.). Motilal Banarsidass. pp. 121–54. Archived from the original on 15 December 2019. Retrieved 3 January 2014.
  20. ^ Boylston, Arthur (July 2012). "The origins of inoculation". Journal of the Royal Society of Medicine. 105 (7): 309–13. doi:10.1258/jrsm.2012.12k044. PMC 3407399. PMID 22843649.
  21. ^ Nicholas, Ralph (1981). "The Goddess Śītalā and Epidemic Smallpox in Bengal". Journal of Asian Studies. 41 (1): 21–44. doi:10.2307/2055600. JSTOR 2055600. PMID 11614704. S2CID 8709682.
  22. ^ Richard Pankhurst, An Introduction to the Medical History of Ethiopia (Trenton: Red Sea Press, 1999), pp. 26ff
  23. ^ Meredith, Henry (1812). An Account of the Gold Coast of Africa. Oxford University: Longman et al. p. 194. ISBN 0469096918.
  24. ^ Waldstreicher, David. Runaway America: Benjamin Franklin, Slavery, and the American Revolution. Macmillan; p. 40, ISBN 0-8090-8314-0
  25. ^ Thèves, Catherine; Crubézy, Eric; Biagini, Philippe (2016-08-12). Drancourt, Michel; Raoult, Didier (eds.). "History of Smallpox and Its Spread in Human Populations". Microbiology Spectrum. 4 (4). doi:10.1128/microbiolspec.PoH-0004-2014. ISSN 2165-0497. PMID 27726788.
  26. ^ Achtman, M.; Zurth, K.; Morelli, G.; Torrea, G.; Guiyoule, A.; Carniel, E. (1999-11-23). "Yersinia pestis, the cause of plague, is a recently emerged clone of Yersinia pseudotuberculosis". Proceedings of the National Academy of Sciences of the United States of America. 96 (24): 14043–14048. Bibcode:1999PNAS...9614043A. doi:10.1073/pnas.96.24.14043. ISSN 0027-8424. PMC 24187. PMID 10570195.
  27. ^ McNally, Alan; Thomson, Nicholas R.; Reuter, Sandra; Wren, Brendan W. (2016). "'Add, stir and reduce': Yersinia spp. as model bacteria for pathogen evolution". Nature Reviews. Microbiology. 14 (3): 177–190. doi:10.1038/nrmicro.2015.29. ISSN 1740-1534. PMID 26876035.
  28. ^ Lippi, Donatella; Gotuzzo, Eduardo; Caini, Saverio (2016). "Cholera". Microbiology Spectrum. 4 (4). doi:10.1128/microbiolspec.PoH-0012-2015. ISSN 2165-0497. PMID 27726771.
  29. ^ "Cholera - WHO Fact sheets".
  30. ^ Morens, David M.; Taubenberger, Jeffery K.; Folkers, Gregory K.; Fauci, Anthony S. (2010-12-15). "Pandemic influenza's 500th anniversary". Clinical Infectious Diseases. 51 (12): 1442–1444. doi:10.1086/657429. ISSN 1537-6591. PMC 3106245. PMID 21067353.
  31. ^ Threats, Institute of Medicine (US) Forum on Microbial; Knobler, Stacey L.; Mack, Alison; Mahmoud, Adel; Lemon, Stanley M. (2005), "The Story of Influenza", The Threat of Pandemic Influenza: Are We Ready? Workshop Summary, National Academies Press (US), retrieved 2024-05-29
  32. ^ Lee, Kim-Sung; Divis, Paul C. S.; Zakaria, Siti Khatijah; Matusop, Asmad; Julin, Roynston A.; Conway, David J.; Cox-Singh, Janet; Singh, Balbir (2011). "Plasmodium knowlesi: reservoir hosts and tracking the emergence in humans and macaques". PLOS Pathogens. 7 (4): e1002015. doi:10.1371/journal.ppat.1002015. ISSN 1553-7374. PMC 3072369. PMID 21490952.
  33. ^ Liu, Weimin; Li, Yingying; Shaw, Katharina S.; Learn, Gerald H.; Plenderleith, Lindsey J.; Malenke, Jordan A.; Sundararaman, Sesh A.; Ramirez, Miguel A.; Crystal, Patricia A.; Smith, Andrew G.; Bibollet-Ruche, Frederic; Ayouba, Ahidjo; Locatelli, Sabrina; Esteban, Amandine; Mouacha, Fatima (2014). "African origin of the malaria parasite Plasmodium vivax". Nature Communications. 5: 3346. Bibcode:2014NatCo...5.3346L. doi:10.1038/ncomms4346. ISSN 2041-1723. PMC 4089193. PMID 24557500.
  34. ^ Liu, Weimin; Li, Yingying; Learn, Gerald H.; Rudicell, Rebecca S.; Robertson, Joel D.; Keele, Brandon F.; Ndjango, Jean-Bosco N.; Sanz, Crickette M.; Morgan, David B.; Locatelli, Sabrina; Gonder, Mary K.; Kranzusch, Philip J.; Walsh, Peter D.; Delaporte, Eric; Mpoudi-Ngole, Eitel (2010). "Origin of the human malaria parasite Plasmodium falciparum in gorillas". Nature. 467 (7314): 420–425. Bibcode:2010Natur.467..420L. doi:10.1038/nature09442. ISSN 0028-0836. PMC 2997044. PMID 20864995.
  35. ^ Berche, Patrick (2022-09-01). "History of measles". La Presse Médicale. History of modern pandemics. 51 (3): 104149. doi:10.1016/j.lpm.2022.104149. ISSN 0755-4982. PMID 36414136.
  36. ^ Roeder, Peter; Mariner, Jeffrey; Kock, Richard (2013-08-05). "Rinderpest: the veterinary perspective on eradication". Philosophical Transactions of the Royal Society B: Biological Sciences. 368 (1623): 20120139. doi:10.1098/rstb.2012.0139. ISSN 0962-8436. PMC 3720037. PMID 23798687.
  37. ^ Tounkara, K.; Nwankpa, N. (2017). "Rinderpest experience". Revue Scientifique et Technique (International Office of Epizootics). 36 (2): 569–578. doi:10.20506/rst.36.2.2675. ISSN 0253-1933. PMID 30152462.
  38. ^ Barberis, I.; Bragazzi, N. L.; Galluzzo, L.; Martini, M. (2017). "The history of tuberculosis: from the first historical records to the isolation of Koch's bacillus". Journal of Preventive Medicine and Hygiene. 58 (1): E9–E12. ISSN 1121-2233. PMC 5432783. PMID 28515626.
  39. ^ Buzic, I.; Giuffra, V. (2020). "The paleopathological evidence on the origins of human tuberculosis: a review". Journal of Preventive Medicine and Hygiene. 61 (1 Suppl 1): E3–E8. doi:10.15167/2421-4248/jpmh2020.61.1s1.1379. ISSN 2421-4248. PMC 7263064. PMID 32529097.
  40. ^ Gianchecchi, Elena; Cianchi, Virginia; Torelli, Alessandro; Montomoli, Emanuele (2022). "Yellow Fever: Origin, Epidemiology, Preventive Strategies and Future Prospects". Vaccines. 10 (3): 372. doi:10.3390/vaccines10030372. ISSN 2076-393X. PMC 8955180. PMID 35335004.
  41. ^ Monot, Marc; Honoré, Nadine; Garnier, Thierry; Araoz, Romulo; Coppée, Jean-Yves; Lacroix, Céline; Sow, Samba; Spencer, John S.; Truman, Richard W.; Williams, Diana L.; Gelber, Robert; Virmond, Marcos; Flageul, Béatrice; Cho, Sang-Nae; Ji, Baohong (2005-05-13). "On the origin of leprosy". Science. 308 (5724): 1040–1042. doi:10.1126/science/1109759. ISSN 1095-9203. PMID 15894530.
  42. ^ Roumagnac, Philippe; Weill, François-Xavier; Dolecek, Christiane; Baker, Stephen; Brisse, Sylvain; Chinh, Nguyen Tran; Le, Thi Anh Hong; Acosta, Camilo J.; Farrar, Jeremy; Dougan, Gordon; Achtman, Mark (2006-11-24). "Evolutionary History of Salmonella Typhi". Science. 314 (5803): 1301–1304. Bibcode:2006Sci...314.1301R. doi:10.1126/science.1134933. ISSN 0036-8075. PMC 2652035. PMID 17124322.
  43. ^ Rothschild, B. M. (2005-05-15). "History of Syphilis". Clinical Infectious Diseases. 40 (10): 1454–1463. doi:10.1086/429626. ISSN 1058-4838. PMID 15844068.
  44. ^ Wertheim, Joel O.; Smith, Martin D.; Smith, Davey M.; Scheffler, Konrad; Kosakovsky Pond, Sergei L. (2014). "Evolutionary Origins of Human Herpes Simplex Viruses 1 and 2". Molecular Biology and Evolution. 31 (9): 2356–2364. doi:10.1093/molbev/msu185. ISSN 1537-1719. PMC 4137711. PMID 24916030.
  45. ^ "Zika virus". www.who.int. Retrieved 2024-05-29.
  46. ^ Timonius, Emmanuel (1714). "An account of procuring Smallpox by incision or inoculation, as it is practised in Constantinople". Philosophical Transactions of the Royal Society. 29 (338–350): 72–82. doi:10.1098/rstl.1714.0010.
  47. ^ Ferguson, Donna (28 March 2021). "How Mary Wortley Montagu's bold experiment led to smallpox vaccine – 75 years before Jenner". the Guardian. Archived from the original on 11 July 2022. Retrieved 11 July 2022.
  48. ^ "How Islamic inventors changed the world". The Independent. London. 11 March 2008. Archived from the original on 25 September 2015. Retrieved 17 February 2012.
  49. ^ Donald R. Hopkins, Princes and Peasants: Smallpox in History (University of Chicago Press, 1983)
  50. ^ Wooton, David (2006). Bad Medicine: Doctors Doing Harm Since Hippocrates. Oxford, England: Oxford University Press. p. 153. ISBN 978-0-19-921279-8.
  51. ^ Strathern, Paul (2005). A Brief History of Medicine. London: Robinson. p. 179. ISBN 978-1-84529-155-6.
  52. ^ Gross & Sepkowitz 1998, p. 56
  53. ^ Silverman, Kenneth. The Life and Times of Cotton Mather, Harper & Row, New York, 1984. ISBN 0-06-015231-1, p. 339.
  54. ^ White, Andrew Dickson (1896). A History of the Warfare of Science with Theology in Christendom. Vol. 2. New York: D. Appleton and Company. p. 57.
  55. ^ Harris DF. "Edward Jenner and Vaccination". Archived from the original on 2001-07-08. Retrieved 2007-03-04.
  56. ^ Lettres Philosophiques. Voltaire. (English translation on-line [1] Archived 2018-10-16 at the Wayback Machine)
  57. ^ Aker, Janet A. (2021-08-16). "Gen. George Washington Ordered Smallpox Inoculations for All Troops". www.health.mil. Archived from the original on 2022-10-11. Retrieved 2022-10-11.
  58. ^ Filsinger, Amy Lynn; Dwek, Raymond (2021-11-19). "George Washington and the First Mass Military Inoculation (John W. Kluge Center, Library of Congress)". www.loc.gov. Archived from the original on 2021-11-19. Retrieved 2022-10-11.
  59. ^ In fact, the mortality rate of the Varoiola Minor form of smallpox then found in Europe was 1–3% as opposed to 30–50% for the Variola Major type found elsewhere; however, blindness, infertility, and severe scarring were common. Figures from "The Search for Immunisation", In Our Time, BBC Radio 4 (2006). [2] Archived 2019-04-03 at the Wayback Machine
  60. ^ David V. Cohn, Ph.D. "Lady Mary Montagu". Founders of Science. Archived from the original on January 2, 2004. In England in 1718 she wrote to various influential persons urging inoculation and sent essays to subject to magazines. She had both her children inoculated – one in Turkey and one in England. Despite opposition from religious and medical groups, inoculation caught on. It was the primary defense against death and serious debilitation by smallpox for the next 80 years until the discovery of vaccination by Jenner.
  61. ^ "Smallpox: Variolation". Nlm.nih.gov. 2003-10-18. Archived from the original on 2019-05-02. Retrieved 2009-11-02.
  62. ^ Wolfe, Robert M; Sharp, Lisa K (24 August 2002). "Anti-vaccinationists past and present". British Medical Journal. 325 (7361). London: 430–32. doi:10.1136/bmj.325.7361.430. PMC 1123944. PMID 12193361.

Further reading

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