Evaluation of the toxic activity of the pyrethroid insecticides deltamethrin and lambdacyhalothrin in two Panamanian field populations of Rhodnius pallescens (Hemíptera: Reduviidae)
Keywords:
Rhodnius, insecticides/toxicity, insecticide resistance, Chagas disease, Panamá
Abstract
Introduction. Systematic evaluation of the susceptibility of disease vectors to insecticides permits the detection of the development of insecticide resistance over time. This is necessary to evaluate the effectiveness of control methods and to plan management strategies of the resistance.Objective. The baseline susceptibility was determined for I and V instar nymphs of Rhodnius pallescens to the active ingredients of the insecticides deltamethrin and lambdacyhalothrin.Materials and methods. The bioassays were applied to two field populations of R. pallescens collected in Chilibre and Cerro Cama, Panamá. A standard protocol for topical application was adapted from that developed for Rhodnius prolixus. Bioassays were performed using topical applications on the dorsal abdominal surface, with volumes of 0.1 μl and 0.5 μl acetone solution of insecticide for nymphs of stage I and V respectively, using 5 μl and 25 μl Hamilton microsyringes with a repeating dispenser. Ten nymphs were used for each insecticide concentration.Results. With the topical application of lambdacyhalothrin on first-instar nymphs from Chilibre and Cerro Cama, the LD50 values expressed in ng/insect were 0.13 and 0.11 respectively. In fifth-instar nymphs the LD50 values were 1.71 and 3.48, respectively. For deltamethrin, the topical application on first-instar nymphs resulted in LD50 values of 0.02 and 0.02, and in fifth-instar nymphs the LD50 values were 2.11 and 1.55, respectively.Conclusions. In I and V instar nymphs from the two R. pallescens populations, resistance factor values demonstrated no significant difference in the toxic effects of the two insecticides and indicated that the R. pallescens populations were susceptible them.Downloads
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References
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24. World Health Organization. Taller sobre la evaluación de efecto insecticida en triatominos. Acta Toxicol Argent. 1994;2:29-32.
25. Finny DJ. Probit analysis. Cambridge: Cambridge University Press; 1971. p. 400.
26. Raymond M. Presentation d´un programme d´analyse log-probit pour micro-ordinateur. Cah Orstom Ser Entomol Med Parasitol. 1985;22:117-21.
27. Roush RT, Tabashnick BE. Pesticide resistance in arthropods. New York: Chapman and Hall; 1990. p. 153-82.
28. Zerba EN. Evaluación biológica en el laboratorio de la actividad triatomicida. Acta Toxicol Argent. 1994;2:50-1.
29. Cecere MC, Gürtler RE, Canale D, Chuit R, Cohen JE. The role of the peridomiciliary area in the elimination of Triatoma infestans from rural Argentine communities. Pan Am J Public Health. 1997;1:273-9.
30. Molina D, Soto Vivas A, Barazarte H. Susceptibilidad a insecticidas piretroides en cepas de campo de Rhodnius prolixus Stål (Hemiptera: Reduviidae) de Venezuela. Entomotropica. 2004;19:1-5.
2. Zerba EN. Chemical control of Chagas disease vectors. Biomed Environ Sci. 1989;2:24-9.
3. Dujardin JP, Schofield CJ, Panzera F. Les vecteurs de la maladie de Chagas. Recherches taxonomiques, biologiques et génétiques. Bruxelles: Academie Royale des Sciences doutre Mer; 2000. p.162.
4. World Health Organization. Chagas disease. Strategic direction for research. Fecha de consulta: 16 de noviembre de 2009. Disponible en: http://www.who.int/tdrold/diseases/chagas/direction.htm
5. Rojas A, Ferro EA, Ferreira ME, Simancas LC. Chagas disease vector control through different intervention modalities in endemic localities of Paraguay. Bull Word Health Organ. 1999;77:331-9.
6. Garisto-Risco J, Saldaña A, Zebede S, Calzada J. Alteraciones cardíacas en pacientes seropositivos a la infección chagásica en Panamá. Rev Esp Cardiol. 2009;62:941-54.
7. Miller JW. Chagas disease in Panama: Report of three cases. South Med J. 1931;24:645-7.
8. Mendez E, Sousa OE, Turner AY. Caracterización, biología y ecología de los triatominos panameños (Hemiptera: Reduviidae). Scientia, Sistemática y Morfología (Panamá). 1997;12:7-66.
9. World Health Organization. Control of Chagas disease. Second report of the WHO Expert Committee. WHO Technical Report Series. No. 907. Geneve: WHO; 2002.
10. Guillen G, Díaz R, Jemio A, Cassab JA, Teixeira G, Schofield CJ. Chagas disease vector control in Tupiza, Southern Bolivia. Mem Inst Oswaldo Cruz. 1997;92:1-8.
11. Vassena CV, Picollo MI. Monitoreo de resistencia a insecticidas en poblaciones de campo de Triatoma infestans y Rhodnius prolixus, insectos vectores de la enfermedad de Chagas. Revista de Toxicología (en línea). 2003;(3). Fecha de consulta: 16 de noviembre de 2009. Disponible en: http://www.sertox.com.ar/modules.php?name=Content&pa=showpage&pid=104
12. Zerba EN. Insecticidal activity of pyrethroids on insects of medical importance. Parasitol Today. 1988;4:53-7.
13. Casabé N, Melgar F, Wood EJ, Zerba EN. Insecticidal activity of pyrethroids against Triatoma infestans. Insect Sci Applic. 1988;9:233-6.
14. Dias J, Schofield CJ. The evolution of Chagas diseases (American tripanosomiasis) control after 90 year since Carlos Chagas's discovery. Mem Inst Oswaldo Cruz. 1999;94:103-21.
15. Oliveira Filho AM. Differences of susceptibility of five triatomine species to pyrethroid insecticides-implications for Chagas disease vector control. Mem Inst Oswaldo Cruz. 1999;94(Suppl.I):425-8.
16. Zerba EN. Past and present of Chagas vector control and future needs. Document WHO/CDC/WHOPES/GCDPP/99.1. Geneva: WHO; 1999.
17. Zerba EN, Wallace G, Picollo MI, Casabé N, de Licastro S, Wood E, et al. Evaluación de β-cipermetrina para el control de Triatoma infestans, vector de la enfermedad de Chagas. Rev Panam Salud Pública. 1997;1:133-7.
18. González-Valdiviezo F, Sánchez D, Nocerino F. Susceptibility of Rhodnius prolixus chlorinated hydrocarbon insecticides in Venezuela. Unpublished document WHO/VBC/71.264. Geneva: WHO; 1971.
19. Molina D, Sotovivas A. Monitoreo de la resistencia a insecticidas en cepas de campo de Rhodnius prolixus de Venezuela. En: Monitoreo de la resistencia a insecticidas en triatominos en América Latina. Red Latinoamericana de Control de Triatominos RELCOT. Serie Enfermedades Transmisibles. Buenos Aires: Fundación Mundo Sano; 2001. p. 33-7.
20. Nocerino F. Susceptibilidad de Rhodnius prolixus y Triatoma maculata a los insecticidas en Venezuela. Bol Dir Malariol San Amb. 1976;16:276-83.
21. Vassena C, Picollo M, Zerba E. Insecticide resistance in Brazilian Triatoma infestans and Venezuelan Rhodnius prolixus. Med Vet Entomol. 2000;14:51-5.
22. Picollo M, Vassena C, Santo P, Barrios S, Zaidemberg M, Zerba E. High resistance to pyrethroids insecticides associated with ineffective field treatments in Triatoma infestans (Hemiptera: Reduviidae) from northern Argentina. J Med Entomol. 2005;42:637-42.
23. Nakagagua J, Cordón-Rosales C, Juárez J, Itzep C, Nonami T. Impact of residual spraying on Rhodnius prolixus and Triatoma dimidiata in the department of Zacapa in Guatemala. Mem Inst Oswaldo Cruz. 2003;98:277-81.
24. World Health Organization. Taller sobre la evaluación de efecto insecticida en triatominos. Acta Toxicol Argent. 1994;2:29-32.
25. Finny DJ. Probit analysis. Cambridge: Cambridge University Press; 1971. p. 400.
26. Raymond M. Presentation d´un programme d´analyse log-probit pour micro-ordinateur. Cah Orstom Ser Entomol Med Parasitol. 1985;22:117-21.
27. Roush RT, Tabashnick BE. Pesticide resistance in arthropods. New York: Chapman and Hall; 1990. p. 153-82.
28. Zerba EN. Evaluación biológica en el laboratorio de la actividad triatomicida. Acta Toxicol Argent. 1994;2:50-1.
29. Cecere MC, Gürtler RE, Canale D, Chuit R, Cohen JE. The role of the peridomiciliary area in the elimination of Triatoma infestans from rural Argentine communities. Pan Am J Public Health. 1997;1:273-9.
30. Molina D, Soto Vivas A, Barazarte H. Susceptibilidad a insecticidas piretroides en cepas de campo de Rhodnius prolixus Stål (Hemiptera: Reduviidae) de Venezuela. Entomotropica. 2004;19:1-5.
How to Cite
1.
Cáceres L, Rovira JR, Calzada J, Saldaña A. Evaluation of the toxic activity of the pyrethroid insecticides deltamethrin and lambdacyhalothrin in two Panamanian field populations of Rhodnius pallescens (Hemíptera: Reduviidae). biomedica [Internet]. 2011 Apr. 16 [cited 2024 May 18];31(1):8-14. Available from: https://revistabiomedica.org/index.php/biomedica/article/view/330
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