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Field trials of pyrethroid impregnated bednets in northern Tanzania—1. Effect on malaria transmission

Published online by Cambridge University Press:  19 September 2011

R. J. A. Njau
Affiliation:
Tropical Pesticides Research InstituteP. O. Box 3024, Arusha, Tanzania
F. W. Mosha
Affiliation:
Tropical Pesticides Research InstituteP. O. Box 3024, Arusha, Tanzania
J. F. M. Nguma
Affiliation:
Tropical Pesticides Research InstituteP. O. Box 3024, Arusha, Tanzania
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Abstract

Studies involved the evaluation of two types of pyrethroids and two controls in a single study village settlement. A total of 1277 bednets were distributed to 75% of 420 houses in the village, in July 1989, 378 were treated with lambda cyhalothrin (Icon°), 411 with deltamethrin and 331 were untreated. A total of 336 people were not given any nets. Entomological evaluation showed that both pyrethroids have an excito-repellent and lethal effect on mosquito vector species. In assessment of malaria reduction in children as the target group, those sleeping in deltamethrin treated houses showed a greater reduction in parasite rate than those sleeping in lambda cyhalothrin nets: Overall reduction of malaria parasite rate of school children examined was 68%. Biological efficacy in both pyrethroid treated nets persisted over a period of 6 months. Another added advantage was that the individual using the net was protected against mosquitoes and other pests such as cockroaches, fleas, lice and bedbugs. Incorporation of pyrethroid impregnated nets in malaria control programmes involving community participation is recommended.

Résumé

Les études abstraits concernant l'evaluation de deux types de “pyrethroids” et de deux contrôles dans un seul village établi.

Un total de 1277 (lit) moustiques était distribué à 75% de 420 maisons dans le village en juillet 1989; 378 était traités avec “lambda cyhalothrin (Icon®)”, 411 avec “deltamethrin” et 331 n'étaient pas traités. 336 personnes au total n'avaient pas eu un moustiquaire.

L'evaluation entomologique a montré que les deux “pyrethroids” ont un effet stimulant et toxique sur le vecteur des moustiques. Parlant de l'evaluation sur la reduction de la malaria en considérant les enfants comme groupe cible, ceux qui dorment dans des maisons traités sous “deltamethrin”, montrent une plus grande réduction du taux de parasite que ceux qui dorment sous les moustiquaires “lambda cyhalothrin”. Au-dessus de toute la reduction du taux de la malaria des élèves examinés était de 68%. L'efficacité biologique dans le 2 “pyrethroides” avec moustiquaires traités persistait au-delà d'une période de 6 mois. Un autre avantage ajouté à cela était que l'utilisation individuelle de moustiquaire était protégé contre les moustiques et autres pestes tels que les cancrelats, insectes fournis et pinaises, I'incorporation de “pyrethroid” dans les programmes de contrôle de la malaria tenant compte de la participation de la communauté est très recommandé.

Type
Research Articles
Copyright
Copyright © ICIPE 1993

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References

REFERENCES

Curtis, C. F., Lines, J. D., Carnevale, P., Robert, V., Boudin, C., Haina, J. M., Pazart, L., Gazin, P., Richard, A., Mouchet, J., Charlwood, J. D., Graves, P. M., Hossain, M. L., Kurihara, T., Ichimori, K., Baolin, Li Zuzi Lu, Major, G., Sabatinelli, G., Coluzzi, M., Njunwa, K. J., Wilkes, T. J., Snow, R. W. and Lindsay, S. W. (1990) Impregnated bednets and curtains against malaria mosquitoes. In Appropriate Technology in Vector Control (Edited by Curtis, C. F.). C. R. C. Boca Raton, Florida.Google Scholar
Curtis, C. F. (1991) Control of disease vectors in the community (Edited by Wolfe Publishing Ltd, Brook House) England.Google Scholar
Darriet, F., Robert, V., The Vien, N. and Carnevale, P. (1984) Evaluation of the efficacy of permethrin impregnated intact and perforated mosquito nets against vectors of malaria. WHO mimeographed doc. WHO/VBC. 84, 899.Google Scholar
Lines, J. D., Curtis, C. F., Myamba, J. and Njau, R. (1985) Tests of repellents on insecticide impregnated curtains, bednets and anklets against malaria vectors in Tanzania. WHO mimeographed doc., WHO/VBC 85, 920.Google Scholar
Lines, J. D., Myamba, J. and Curtis, C. F. (1987) Experimental hut trials of permethrin impregnated mosquito nets and eave curtains against malaria vectors in Tanzania. Med. Vet. Entomol. 1, 3751.CrossRefGoogle ScholarPubMed
Li, Z., Xu, J., Bi., Li, Zhu, T. and Li, M. (1987) Mosquito nets impregnated with deltamethrin against malaria vectors in China. WHO mimeographed doc, WHO/VBC/ 87, 393.Google Scholar
Magesa, S., Wilkes, T. J., Mnzava, A. E. P., Njunwa, K. J., Myamba, J., Kivuyo, M. D. P., Lines, J. D. and Curtis, C. F. (1990) Trial of pyrethroid impregnated bednets in an area of Tanzania holoendemic for malaria. Part 2. Impact on the mosquito populations. Acta Trop. 49, 97108.CrossRefGoogle Scholar
Mosha, F. W., Njau, R. J. A. and Alfred, J. (1992) Field trials with esbiothrin mosquito coils at community level in Northern Tanzania. Med. Vet. Entomol. 6, 44–6.CrossRefGoogle ScholarPubMed
Rozendaal, J. A. (1989a) Impregnated mosquito nets and curtains for self protection and vector control. Trop. Dis. Bull. 86, No. 7.Google Scholar
Rozendaal, J. A., Voorham, J., Van Hoof, J. P. M. and Oostburg, B. F. J. (1989b) Efficacy of local mosquito nets treated with permethrin in Suriname. Med. Vet. Entomol. In press.CrossRefGoogle Scholar
Shreck, C. E. and Self, L. S. (1985) Treating mosquito nets for better protection from bites and mosquito-borne disease. WHO/VBC, 914.Google Scholar
WHO (1973) Chemotherapy of malaria and resistance of antimalarials. WHO Tech. Rep. Ser., No. 529.Google Scholar
WHO (1981a) Instructions for the bioassay of insecticidal deposits on wall surfaces. WHO mimeographed doc, WHO/VBC, 815.Google Scholar
WHO (1981b) Instructions for determining the susceptibility or resistance of adult mosquitoes to organochlorine, organophosphates and carbamate insecticides establishment of base line data. WHO mimeographed doc., WHO/VBC, 81, 805.Google Scholar
WHO (1982) Instructions for use of the microtest kit for the assessment of the response of P. falciparum to chloroquine and mefloquine in vitro tests. WHO mimeographed doc., MAP. 82, 1.Google Scholar