National Institute of Malaria Research, Sector 8, Dwarka, New Delhi 110 077, India.
Malar J. 2011 Jan 25;10:16. doi: 10.1186/1475-2875-10-16.
Malaria vectors have acquired widespread resistance to many of the currently used insecticides, including synthetic pyrethroids. Hence, there is an urgent need to develop alternative insecticides for effective management of insecticide resistance in malaria vectors. In the present study, chlorfenapyr was evaluated against Anopheles culicifacies and Anopheles stephensi for its possible use in vector control.
Efficacy of chlorfenapyr against An. culicifacies and An. stephensi was assessed using adult bioassay tests. In the laboratory, determination of diagnostic dose, assessment of residual activity on different substrates, cross-resistance pattern with different insecticides and potentiation studies using piperonyl butoxide were undertaken by following standard procedures. Potential cross-resistance patterns were assessed on field populations of An. culicifacies.
A dose of 5.0% chlorfenapyr was determined as the diagnostic concentration for assessing susceptibility applying the WHO tube test method in anopheline mosquitoes with 2 h exposure and 48 h holding period. The DDT-resistant/malathion-deltamethrin-susceptible strain of An. culicifacies species C showed higher LD50 and LD99 (0.67 and 2.39% respectively) values than the DDT-malathion-deltamethrin susceptible An. culicifacies species A (0.41 and 2.0% respectively) and An. stephensi strains (0.43 and 2.13% respectively) and there was no statistically significant difference in mortalities among the three mosquito species tested (p > 0.05). Residual activity of chlorfenapyr a.i. of 400 mg/m2 on five fabricated substrates, namely wood, mud, mud+lime, cement and cement + distemper was found to be effective up to 24 weeks against An. culicifacies and up to 34 weeks against An. stephensi. No cross-resistance to DDT, malathion, bendiocarb and deltamethrin was observed with chlorfenapyr in laboratory-reared strains of An. stephensi and field-caught An. culicifacies. Potentiation studies demonstrated the antagonistic effect of PBO.
Laboratory studies with susceptible and resistant strains of An. culicifacies and An. stephensi, coupled with limited field studies with multiple insecticide-resistant An. culicifacies have shown that chlorfenapyr can be a suitable insecticide for malaria vector control, in multiple-insecticide-resistant mosquitoes especially in areas with pyrethroid resistant mosquitoes.
疟疾媒介对许多目前使用的杀虫剂,包括合成拟除虫菊酯,已经产生了广泛的抗药性。因此,迫切需要开发替代杀虫剂来有效管理疟疾媒介中的杀虫剂抗性。本研究评估了氯氟吡氧乙酸对致倦库蚊和淡色库蚊的作用,以期将其用于病媒控制。
采用成虫生物测定试验评估氯氟吡氧乙酸对致倦库蚊和淡色库蚊的药效。在实验室中,按照标准程序进行了诊断剂量的确定、不同基质上的残留活性评估、与不同杀虫剂的交叉抗药性模式以及使用增效醚的增效研究。评估了田间种群致倦库蚊的潜在交叉抗药性模式。
在 2 小时暴露和 48 小时保持期的 WHO 管测试方法中,确定 5.0%氯氟吡氧乙酸剂量为评估敏感性的诊断浓度,用于按蚊。DDT 抗性/马拉硫磷/溴氰菊酯敏感的致倦库蚊 C 种显示出高于 DDT/马拉硫磷/溴氰菊酯敏感的致倦库蚊 A 种和淡色库蚊的 LD50 和 LD99(分别为 0.67%和 2.39%)值,与三种植株的死亡率无统计学差异(p>0.05)。在五种人造基质(木材、泥土、泥土+石灰、水泥和水泥+灰泥)上,氯氟吡氧乙酸原药 400mg/m2 的残留活性对致倦库蚊有效,有效期达 24 周,对淡色库蚊达 34 周。在实验室饲养的淡色库蚊和野外捕获的致倦库蚊中,氯氟吡氧乙酸对 DDT、马拉硫磷、丁硫克百威和溴氰菊酯均无交叉抗性。增效研究表明 PBO 具有拮抗作用。
对致倦库蚊和淡色库蚊敏感和抗性株系的实验室研究,以及对具有多种杀虫剂抗性的致倦库蚊的有限田间研究表明,氯氟吡氧乙酸可作为一种适合疟疾媒介控制的杀虫剂,尤其是在具有拟除虫菊酯抗性的蚊子的地区。
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