PHLEBOTOMINE VECTORS OF THE LEISHMANIASES - A REVIEW

被引：572

作者：

KILLICKKENDRICK, R

机构：

[1] Department of Pure and Applied Biology, Imperial College at Silwood Park, Ascot, Berkshire

来源：

MEDICAL AND VETERINARY ENTOMOLOGY | 1990年 / 4卷 / 01期

关键词：

Leishmania; leishmaniasis; Lutzomyia; Phlebotomine sandflies; Phlebotomus; vector incrimination;

D O I：

10.1111/j.1365-2915.1990.tb00255.x

中图分类号：

Q96 [昆虫学];

学科分类号：

摘要：

ABSTRACT. An account is given of work published during the past 10 years incriminating species of phlebotomine sandflies as vectors of Leishmania species which infect man. An assessment is made of the degrees of certainty of the vectorial roles of eighty‐one species and subspecies of sandflies (thirty‐seven Old World and forty‐four New World) in the transmission of twenty‐nine leishmanial parasites of mammals. At least one species of sandfly is considered to be a proven vector of each of ten parasites. Of the eighty‐one sandfly taxa, evidence is judged to be sufficient to incriminate nineteen as proven vectors (eleven Phlebotomus species and eight Lutzomyia species or subspecies) and evidence for a further fourteen (nine Phlebotomus species and five Lutzomyia species or subspecies) is considered to be strong. The suggested criteria for incrimination of a vector are anthropophily and common infection with the same leishmanial parasite as that found in man in the same place. More weight should be given to natural infections persisting after the digestion of a bloodmeal than those in the presence of blood. Supporting evidence is a concordance in the distribution of the fly and the disease in man, proof that the fly feeds regularly on the reservoir host, a flourishing development of the parasite in infected flies and the experimental transmission of the parasite by the bite of the fly. Copyright © 1990, Wiley Blackwell. All rights reserved

引用

页码：1 / 24

页数：24

共 153 条

[1] Abonnenc E., (1972)
[2] Adler S., The sandflies of Cyprus (Diptera), Bulletin of Entomological Research, 36, pp. 497-511, (1945)
[3] Adler S., Ber M., The transmission of Leishmania tropica by the bite of Phlebotomus papatasii, Indian Journal of Medical Research, 29, pp. 803-809, (1941)
[4] Adler S., Theodor O., Investigations on Mediterranean Kala Azar. IX. Feeding experiments with Phlebotomus perniciosus and other species on animals infected with Leishmania infantum, Proceedings of the Royal Society B: Biological Sciences, 116, pp. 516-542, (1935)
[5] Adler S., Theodor O., Lourie E.M., On sandflies from Persia and Palestine, Bulletin of Entomological Research, 21, pp. 529-539, (1930)
[6] Adler S., Theodor O., Witenberg G., Investigations on Mediterranean Kala Azar. XI. A study of leishmaniasis in Canea (Crete), Proceedings of the Royal Society B: Biological Sciences, 125, pp. 491-516, (1938)
[7] Aguilar C.M., Fernandez E., De Fernandez R., Deane L.M., Study of an outbreak of cutaneous leishmaniasis in Venezuela. The role of domestic animals, Memorias Instituto Oswaldo Cruz, 79, pp. 181-195, (1984)
[8] Al-Zahrani M.A., Peters W., Evans D.A., Ohing Chin I., Smith V., Lane R.P., Phlebotomus sergenti, a vector of Leishmania tropica in Saudi Arabia, Transactions of the Royal Society of Tropical Medicine and Hygiene, 82, (1988)
[9] Anez N., Cazorla D., Nieves E., Chataing B., Castro M., De Yarbuh A.L., Epidemiologia de la leishmaniasis tegumentaria en Merida Venezuela. 1. Diversidad y dispersion de especies flebotominas en tres pisos altitudinales y su posible role en la transmisión de la enfermedad, Memdrias Instituto Oswaldo Cruz, 83, pp. 455-463, (1988)
[10] Anez N., Nieves F., Scorza J.V., El status taxónomico de Leishmania garnhami, indicado por su patron de desarrollo en el vector, Memorias In-stituto Oswaldo Cruz, 80, pp. 113-119, (1985)

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