OBJECTIVE: To evaluate the efficacy of permethrin-treated plastic sheeting (ITPS) applied as a lining to the ceiling or walls of rooms against pyrethroid-susceptible and pyrethroid-resistant Anopheles gambiae. METHOD: Overnight tests were carried out in veranda-trap experimental huts in Vallée du Kou, where two molecular forms of A. gambiae, S and M, occur. The S form is mostly pyrethroid resistant due to the kdr mechanism, and the M form is mostly kdr susceptible. A variety of ITPS covered surfaces were tested, ranging from ceiling only to all walls plus ceiling covered. RESULTS: ITPS had a major effect on the mortality of mosquitoes, the proportion killed being dependent upon the surface area covered. Homozygotes for kdr resistance showed lower rates of mortality than did heterozygotes or homozygotes for susceptibility. Deterred entry of mosquitoes and inhibition of blood feeding were also correlated with surface area covered. The mode of action and efficacy of ITPS seems to bear closer resemblance to that induced by indoor residual spraying (IRS) than to that induced by insecticide-treated nets. CONCLUSIONS: ITPS might be conceived as being equivalent to long-lasting or permanent IRS but without some of the operational constraints normally associated with spraying. High coverage of ITPS could potentially have a mass population effect on mosquitoes and give rise to long-term community protection against malaria. A phase III trial is justified to assess the acceptability of ITPS and its efficacy against malaria.
OBJECTIVE: To evaluate the efficacy of permethrin-treated plastic sheeting (ITPS) applied as a lining to the ceiling or walls of rooms against pyrethroid-susceptible and pyrethroid-resistant Anopheles gambiae. METHOD: Overnight tests were carried out in veranda-trap experimental huts in Vallée du Kou, where two molecular forms of A. gambiae, S and M, occur. The S form is mostly pyrethroid resistant due to the kdr mechanism, and the M form is mostly kdr susceptible. A variety of ITPS covered surfaces were tested, ranging from ceiling only to all walls plus ceiling covered. RESULTS:ITPS had a major effect on the mortality of mosquitoes, the proportion killed being dependent upon the surface area covered. Homozygotes for kdr resistance showed lower rates of mortality than did heterozygotes or homozygotes for susceptibility. Deterred entry of mosquitoes and inhibition of blood feeding were also correlated with surface area covered. The mode of action and efficacy of ITPS seems to bear closer resemblance to that induced by indoor residual spraying (IRS) than to that induced by insecticide-treated nets. CONCLUSIONS:ITPS might be conceived as being equivalent to long-lasting or permanent IRS but without some of the operational constraints normally associated with spraying. High coverage of ITPS could potentially have a mass population effect on mosquitoes and give rise to long-term community protection against malaria. A phase III trial is justified to assess the acceptability of ITPS and its efficacy against malaria.
Authors: Jhibran Ferral; Leysi Chavez-Nuñez; Maria Euan-Garcia; Maria Jesus Ramirez-Sierra; M Rosario Najera-Vazquez; Eric Dumonteil Journal: Am J Trop Med Hyg Date: 2010-01 Impact factor: 2.345
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Authors: Matthew Burns; Mark Rowland; Raphael N'Guessan; Ilona Carneiro; Arlyne Beeche; Stefani Sesler Ruiz; Sarian Kamara; Willem Takken; Pierre Carnevale; Richard Allan Journal: Am J Trop Med Hyg Date: 2012-08 Impact factor: 2.345
Authors: Louisa A Messenger; Abrahan Matias; Antonio Nkulu Manana; Joseph B Stiles-Ocran; Steve Knowles; Daniel A Boakye; Mamadou B Coulibaly; Marie-Louise Larsen; Amadou S Traoré; Bréhima Diallo; Mamadou Konaté; Amadou Guindo; Sékou F Traoré; Chris Eg Mulder; Hoan Le; Immo Kleinschmidt; Mark Rowland Journal: Malar J Date: 2012-10-29 Impact factor: 2.979