Assessing the Impact of Temperature Change on the Effectiveness of Insecticide-Treated Nets

Gregory J. Davis
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引用次数: 8

Abstract

Malaria is a vector-borne illness affecting millions of lives annually and imposes a heavy financial burden felt worldwide. Moreover, there is growing concern that global climate change, in particular, rising temperature, will increase this burden. As such, policy makers are in need of tools capable of informing them about the potential strengths and weaknesses of intervention and control strategies. A previously developed agent-based model of the Anopheles gambiae mosquito is extended, one of the primary vectors of malaria, to investigate how changes in temperature influence the dynamics of malaria transmission and the effectiveness of a common malaria intervention: insecticide-treated nets ITNs. Results from the simulations suggest two important findings. Consistent with previous studies, an increase in mosquito abundance as temperature increases is observed. However, the increase in mosquito abundance reduces the effectiveness of ITNs at a given coverage level. The implications and limitations of these findings are discussed.
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评估温度变化对驱虫蚊帐效果的影响
疟疾是一种病媒传播的疾病,每年影响数百万人的生命,给全世界带来沉重的经济负担。此外,人们越来越担心,全球气候变化,特别是气温上升,将增加这一负担。因此,决策者需要能够使他们了解干预和控制战略的潜在优势和弱点的工具。该研究扩展了以前开发的冈比亚按蚊(疟蚊的主要传播媒介之一)基于药剂的模型,以研究温度变化如何影响疟疾传播的动态以及一种常见的疟疾干预措施:经杀虫剂处理的蚊帐(ITNs)的有效性。模拟结果显示了两个重要的发现。与先前的研究一致,观察到蚊子数量随着温度升高而增加。然而,在一定的覆盖水平上,蚊子数量的增加降低了ITNs的有效性。讨论了这些发现的意义和局限性。
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