Ronald Ross
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For the shinty player, see Ronald Ross (shinty player); for the politician, see Ronald Deane Ross.
Ronald Ross  |
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| Born | 13 May 1857 Almora, India |
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| Died | 16 September, 1932 London, England |
| Nationality | British |
| Fields | Medicine |
| Alma mater | St. Bartholomew's Hospital |
| Known for | Malaria discovery. |
| Notable awards | Nobel prize for Physiology or Medicine, 1902 |
| Religious stance | Christian |
Sir Ronald Ross KCB, (13 May 1857 – 16 September 1932) was a British physician. He was awarded the Nobel prize for Physiology or Medicine in 1902 for discovering the life cycle of the malarial parasite Plasmodium
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[edit] Early life
Ronald Ross was born in Almora, India. He was the eldest son of General Sir Campbell Claye Grant Ross of the Indian Army and Matilda Charlotte Elderton. His grandfather was Lieutenant Colonel Hugh Ross.
At the age of ten, Ross was sent to England for his education. After completing his early education in two small schools at Ryde, he was sent to a boarding school at Springhill, near Southampton in 1869.
Ross commenced his study of medicine at St. Bartholomew's Hospital in London on October 29, 1875. He passed his final examination in 1880 and qualified as MRCS and LSA. He joined the Indian Medical Service in 1881. His first posting was in Madras.
[edit] Discovery
Ross studied malaria between 1881 and 1899. He worked on malaria in Calcutta at the Presidency General Hospital. In 1883, Ross was posted as the Acting Garrison Surgeon at Bangalore during which time he noticed the possibility of controlling mosquitoes by controlling their access to water.
In 1897, Ross was posted in Ooty and fell ill with malaria. After this he was transferred to Secunderabad, he discovered the presence of the malarial parasite within a specific species of mosquito, the Anopheles. He initially called them dapple-wings and he was able to find the malaria parasite in a mosquito that he artificially fed on a malaria patient named Hussain Khan. Later using birds that were sick with malaria, he was soon able to ascertain the entire life cycle of the malarial parasite, including its presence in the mosquito's salivary glands. He demonstrated that malaria is transmitted from infected birds to healthy ones by the bite of a mosquito, a finding that suggested the disease's mode of transmission to humans.
In 1902, Ross was awarded the Nobel Prize in Physiology or Medicine for his remarkable work on malaria.
In 1899, Ross went back to Britain and joined Liverpool School of Tropical Medicine as a professor of tropical medicine. In 1901 Ross was elected a Fellow of the Royal College of Surgeons and also a Fellow of the Royal Society, of which he became Vice-President from 1911 to 1913. In 1902 he was appointed a Companion of the Most Honourable Order of Bath by King Edward VII. In 1911 he was elevated to the rank of Knight Commander of the same Order.
During his active career Ross advocated the task of prevention of malaria in different countries. He carried out surveys and initiated schemes in many places, including West Africa, the Suez Canal zone, Greece, Mauritius, Cyprus, and in the areas affected by the First World War. He also initiated organizations, which have proved to be well established, for the prevention of malaria within the planting industries of India and Ceylon. He made many contributions to the epidemiology of malaria and to methods of its survey and assessment, but perhaps his greatest was the development of mathematical models for the study of its epidemiology, initiated in his report on Mauritius in 1908, elaborated in his Prevention of malaria in 1911 and further elaborated in a more generalized form in scientific papers published by the Royal Society in 1915 and 1916. These papers represented a profound mathematical interest which was not confined to epidemiology, but led him to make material contributions to both pure and applied mathematics.
Through these works Ross continued his great contribution in the form of the discovery of the transmission of malaria by the mosquito, but he also found time and mental energy for many other pursuits, being poet, playwright, writer and painter. Particularly, his poetic works gained him wide acclamation which was independent of his medical and mathematical standing.
[edit] Recognition
Sir Ronald Ross received many honours in addition to the Nobel Prize, and was given Honorary Membership of learned societies of most countries of Europe, and of many other continents. He got an honorary M.D. degree in Stockholm in 1910 at the centenary celebration of the Caroline Institute and his 1923 autobiography Memoirs, Etc. was awarded that year's James Tait Black Memorial Prize. Whilst his vivacity and single-minded search for truth caused friction with some people, he enjoyed a vast circle of friends in Europe, Asia and the United States who respected him for his personality as well as for his genius.
Ross married Rosa Bessie Bloxam in 1889. They had two sons, Ronald and Charles, and two daughters, Dorothy and Sylvia. His wife died in 1931. Ross survived her until a year later, when he died after a long illness, at the Ross Institute, London, in 1932.
In India Sir Ronald Ross is remembered with great respect. Because of his relentless work on malaria, the deadly epidemic which used to claim thousands of lives every year could be successfully controlled. There are roads named after him in many Indian towns and cities. In Calcutta the road linking Presidency General Hospital with Kidderpore Road has been renamed after him as Sir Ronald Ross Sarani. Earlier this road was known as Hospital Road.
[edit] See also
[edit] References
- This article incorporates text from the Encyclopædia Britannica Eleventh Edition, a publication now in the public domain.
- The Calcutta Chromosome by Amitav Ghosh
- Capanna, Ernesto (2006), “Grassi versus Ross: who solved the riddle of malaria?”, Int. Microbiol. 9 (1): 69-74, 2006 Mar, PMID:16636993, <http://www.ncbi.nlm.nih.gov/pubmed/16636993>
- Guillemin, Jeanne (2002), “Choosing scientific patrimony: Sir Ronald Ross, Alphonse Laveran, and the mosquito-vector hypothesis for malaria.”, Journal of the history of medicine and allied sciences 57 (4): 385-409, 2002 Oct, PMID:15182017, <http://www.ncbi.nlm.nih.gov/pubmed/15182017>
- Cook, G C & Webb, A J (2000), “Perceptions of malaria transmission before Ross' discovery in 1897.”, Postgraduate medical journal 76 (901): 738-40, 2000 Nov, PMID:11060174, <http://www.ncbi.nlm.nih.gov/pubmed/11060174>
- Bynum, W F (1999), “Ronald Ross and the malaria-mosquito cycle.”, Parassitologia 41 (1-3): 49-52, 1999 Sep, PMID:10697833, <http://www.ncbi.nlm.nih.gov/pubmed/10697833>
- Rajakumar, K & Weisse, M (1999), “Centennial year of Ronald Ross' epic discovery of malaria transmission: an essay and tribute.”, South. Med. J. 92 (6): 567-71, 1999 Jun, PMID:10372849, <http://www.ncbi.nlm.nih.gov/pubmed/10372849>
- Martin, N (1999), “Surgeon-Major Ronald Ross, IMS Nobel laureate in medicine (1902) for his work on malaria.”, Journal of the Royal Army Medical Corps 145 (1): 40-1, 1999 Feb, PMID:10216850, <http://www.ncbi.nlm.nih.gov/pubmed/10216850>
- Janssens, P G (1998), “[Ronald Ross: a century of the transfer of malaria by mosquitoes]”, Verh. K. Acad. Geneeskd. Belg. 60 (5): 387-440, 1998, PMID:9989333, <http://www.ncbi.nlm.nih.gov/pubmed/9989333>
- Bendiner, E (1994), “Ronald Ross and the mystery of malaria.”, Hosp. Pract. (Off. Ed.) 29 (10): 95-7, 102, 105 passim, 1994 Oct 15, PMID:7929680, <http://www.ncbi.nlm.nih.gov/pubmed/7929680>
- Cook, G C (1994), “Manson's demonstration of the malaria parasite 100 years ago: the major stimulus for Ross' discovery?”, J. Infect. 28 (3): 333-4, 1994 May, PMID:7916371, <http://www.ncbi.nlm.nih.gov/pubmed/7916371>
- Bloch, H (1992), “Sir Ronald Ross, FRS, KCMG, KGB, and the conquest of malaria.”, South. Med. J. 85 (4): 407-10, 1992 Apr, PMID:1566144, <http://www.ncbi.nlm.nih.gov/pubmed/1566144>
- Nye, E R (1991), “Ronald Ross: discoverer of the role of the mosquito in the transmission of malaria.”, N. Z. Med. J. 104 (919): 386-7, 1991 Sep 11, PMID:1681486, <http://www.ncbi.nlm.nih.gov/pubmed/1681486>
- Chernin, E (1988), “Sir Ronald Ross, malaria, and the rewards of research.”, Medical history 32 (2): 119-41, 1988 Apr, PMID:3287057, <http://www.ncbi.nlm.nih.gov/pubmed/3287057>
- Metcalf, C D (1979), “CAPS jottings on malaria. 4. Ronald Ross.”, The Central African journal of medicine 25 (11): 253-60, 1979 Nov, PMID:396986, <http://www.ncbi.nlm.nih.gov/pubmed/396986>
- Bruce-Chwatt, L J (1977), “Ronald Ross, William Gorgas, and malaria eradication.”, Am. J. Trop. Med. Hyg. 26 (5 Pt 2 Suppl): 1071-9, 1977 Sep, PMID:333967, <http://www.ncbi.nlm.nih.gov/pubmed/333967>
- Yoeli, M (1973), “Sir Ronald Ross and the evolution of malaria research.”, Bulletin of the New York Academy of Medicine 49 (8): 722-35, 1973 Aug, PMID:4580853, <http://www.ncbi.nlm.nih.gov/pubmed/4580853>
- Yoeli, M (1973), “[The development of malaria research before and since Ronald Ross]”, Münchener medizinische Wochenschrift (1950) 115 (5): 151-8, 1973 Feb 2, PMID:4633457, <http://www.ncbi.nlm.nih.gov/pubmed/4633457>
- Kenéz, J (1967), “[Sir Ronald Ross--dilettant parasitologist--solves the malaria problem]”, Orvosi hetilap 108 (37): 1764-7, 1967, PMID:4862909, <http://www.ncbi.nlm.nih.gov/pubmed/4862909>
- JUHN, B (1957), “[Ronald Ross, the conqueror of malaria.]”, Wiener medizinische Wochenschrift (1946) 107 (27): 558-9, 1957 Jul 6, PMID:13456540, <http://www.ncbi.nlm.nih.gov/pubmed/13456540>
[edit] External links
- History
- Anecdotes from Ronald Ross' life
- History
- Royal Society citation (1901)
- Nobel prize page
- Ross and the Discovery that Mosquitoes Transmit Malaria Parasites
- Ross's three part paper on the theory of epidemics is available on the web
- Ronald Ross, "An Application of the Theory of Probabilities to the Study of a priori Pathometry. Part I", Proceedings of the Royal Society of London. Series A, Vol. 92 (1916)pp. 204-230.
- Ronald Ross; Hilda P. Hudson, "An Application of the Theory of Probabilities to the Study of a priori Pathometry. Part II", Proceedings of the Royal Society of London. Series A, Vol. 93 (1917)pp. 212-225.
- Ronald Ross; Hilda P. Hudson, "An Application of the Theory of Probabilities to the Study of a priori Pathometry. Part III", Proceedings of the Royal Society of London. Series A, Vol. 93 (1917)pp. 225-240.
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