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Evaluation of the flushing out activity of pyrethroids on Triatoma infestans

Published online by Cambridge University Press:  19 September 2011

E. Wood
Affiliation:
Centra de Investigaciones de Plagas e Insecticidas CIPEIN (CITEFA-CONICET), Zufriategui 4380 (1603) V. Martelli, Buenos Aires, Argentina
S. A. De Licastro
Affiliation:
Centra de Investigaciones de Plagas e Insecticidas CIPEIN (CITEFA-CONICET), Zufriategui 4380 (1603) V. Martelli, Buenos Aires, Argentina
N. Casabé
Affiliation:
Centra de Investigaciones de Plagas e Insecticidas CIPEIN (CITEFA-CONICET), Zufriategui 4380 (1603) V. Martelli, Buenos Aires, Argentina
J. Sivori
Affiliation:
Centra de Investigaciones de Plagas e Insecticidas CIPEIN (CITEFA-CONICET), Zufriategui 4380 (1603) V. Martelli, Buenos Aires, Argentina
E. Zerba
Affiliation:
Centra de Investigaciones de Plagas e Insecticidas CIPEIN (CITEFA-CONICET), Zufriategui 4380 (1603) V. Martelli, Buenos Aires, Argentina
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Abstract

Tetramethrin, deltamethrin and cypermethrin formulated as fumigant tablets or spray(ing) solutions showed flushing out activity on Triatoma infestans. Fumes arising from the tablets were analysed by gas chromatography. The proportion of pyrethroid liberated was between 10 and 20% of the original amount formulated. The flushing out activity shown was dependent on the pyrethroid compound, insect stage and sex. In general deltamethrin proved the most active flushing out agent and cypermethrin the least active. Maximal activity was shown in the combination of nymphs and tetramethrin. Nymphs of Rhodnius prolixus were only flushed out by deltamethrin. In all cases, deltamethrin and cypermethrin yielded 100% mortality 7 days after exposure to the pyrethroid fumes, while tetramethrin was not a killing agent.

Résumé

La tetraméthrine, la deltaméthrine et la cyperméthrine sont des pyréthrinoides que, formulées soit comme tablette fumigéne ou comme solutions (spray), ont expurgé des insectes vecteurs de la maladie de Chagas cachés dans des refuges standards. La concentration des pyréthrinoides libèrés des tablettes fumigénes, détecté par la chromatographie gazeuse, a été 10 à 20% l'original. En plus, il a été observé que l'activité d'expurger les insectes (flushing out) produite par les tablettes fumigénes dépend de: type de pyréthrinoide, espéce d'insecte, stade de développement larvaire et sexe. Les résultats observés indiqueraient que la deltaméthrine a l'effet maximal de “flushing out” tandis que l'activité de la cyperméthrine a démontré etre sensiblement inférieur. La tetraméthrine a été la plus active sur le 5 éme stade de Triatoma infestans. D'ail leurs, le 5 éme stade de Rhodnius prolixus a été seulement expurgé par la deltaméthrine. Dans tout les cas, la deltaméthrine et la cyperméthrine ont démontré produire un 100% de mortalité sept jours aprés l'exposition aux pyréthrinoides, autant que la tetraméthrine a été incapable de produire une sensible mortalité.

Type
Research Articles
Copyright
Copyright © ICIPE 1993

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References

REFERENCES

Busvine, J. R. (1971) A Critical Review of the Techniques for Testing Insecticides Chapter XII, pp. 263288. Commonwealth Agricultural Bureaux, London.Google Scholar
Busvine, J. R. and Barons, S. (1947) Observations and mortality among insects exposed to dry insecticidal films. Bull. Entomol. Res. 38, 8183.CrossRefGoogle ScholarPubMed
Casabé, N., Melgar, F., Wood, E. J. and Zerba, E. N. (1988) Insecticidal activity of pyrethroids against Triatoma infestans. Insect. Sci. Applic. 9, 233236.Google Scholar
Dias, J. C. and Silva, J. C. (1969) Sobre algunos aspectos da profilaxia defensiva en doenca de Chagas. Rev. Inst. Med. Trop. Sao Paulo 11, 236244.Google Scholar
Paulini, E., Fomm, A. S. and Guedes, A. S., (1961) Ensaios sobre desalojantes no combate da doenca de Chagas. Rev. Bras. Malariol. e Doencas Trop A 3, 6569.Google Scholar
Perlowagora-Szumlevicz, A. (1954) A eficiencia do expurgo domiciliario com hexaclorociclohexana no controle do vector da doenca de Chagas (a importancia da algumas caracteristicas dos triatomineos no planejamiento do ciclo de aplicacao do insecticida). Rev. Bras. Malariol. e Doencas Trop. 30, 5763.Google Scholar
Picollo, M. I., Wood, E. J., Zerba, E. N., Licastro, S. A., de y Ruveda, M. A. (1976) Métodos de Laboratorio para medir toxicidad de insecticidas en Triatoma infestans (Klug). Acta Bioquim.Clinica Latinoameric. X(1), 6770.Google Scholar
Pinchin, R., de Oliveira Filho, A. M. and Pereira, A. C. B. (1980) The flushing out activity of pyrethrum and synthetic pyrethroids on Pastrongylus megistus, a vector of Chagas disease. Trans. Roy. Soc. Trop. Med. Hyg. 74, 801803.CrossRefGoogle Scholar
Pinchin, R., Fanara, D. M., Castleton, C. W. and Oliveira Filho, A. M. (1981) Comparison of techniques for detection of domestic infestations with Triatoma infestans in Brazil. Trans. Roy. Soc. Trop. Med. Hyg. 75, 691694.CrossRefGoogle ScholarPubMed
Ruigt, G. S. F. (1985) Pyrethroids. In Comprehensive Insect Physiology Biochemistry and Pharmacology, Vol. 12 Chapter 7, pp. 184251, Pergamon Press.Google Scholar
Wisnivesky-Colli, C., Paulone, I., Perez, A., Chuit, R., Gualtieri, J., Solarz, N., Smith, A. and Segura, E. (1987) A new tool for continuous detection of the presence of triatomine bugs, vectors of Chagas' disease, in rural households. Medicine (Bs.As.) 47, 4550.Google ScholarPubMed
Zerba, E. N. (1989) Chemical control of Chagas' Disease vectors. Biomed. Environ. Sci. 2, 2429.Google ScholarPubMed
Zerba, E. N., Licastro, S. A., de Wood, E. J. and Picollo de Villar, M. I. (1987) Insecticides: Mechanism of Action. In Chagas Disease Vectors (Edited by Brenner, R. and Stock, A.), CRC Press. Vol. III, Chapter 5, pp. 101124.Google Scholar