Influence of mould growth and outdoor exposure on the efficacy of attractive targeted sugar baits against Anopheles arabiensis in western Kenya.

IF 2.9 3区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES

PLoS ONE Pub Date : 2025-07-03 eCollection Date: 2025-01-01 DOI:10.1371/journal.pone.0315472

Nick O Yalla, Jackline Kosgei, Frank Mechan, Daniel P McDermott, Brian Polo, Seline Omondi, Elizabeth Omukunda, Eric Ochomo

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引用次数: 0

Abstract

Introduction: Attractive Targeted Sugar Baits (ATSBs) effectively target Anopheles mosquitoes in semi-arid, low-humidity climates. However, high humidity encourages mould growth on ATSB surfaces, and its effect on the efficacy of ATSBs against malaria vectors is yet to be determined. This study explored how mould growth affects the performance of ATSB version 1.2 by comparing mouldy stations from exposed environments to non-mouldy stations from protected settings through laboratory bioassays on the local malaria vector, Anopheles arabiensis.

Methods: One hundred ATSB stations were deployed in Asembo, Rarieda-Subcounty, Siaya County Six samples, consisting of three mouldy from exposed locations and three non-mouldy from protected locations were collected monthly for laboratory bioassays. These were tested alongside three new laboratory-kept ATSBs and two negative controls (water only and 77% sugar solution with water) to assess mosquito feeding and mortality over 48 hours.

Results: This study found that after 12 months of outdoor exposure, the mouldiest ATSBs from exposed locations showed a non-significant reduction in Anopheles arabiensis feeding rates compared to the least mouldy ATSBs from protected locations 57.42% (95% CI: 45.64-68.85) vs. 74.40% (95% CI: 64.56-82.50), (P = 0.062) respectively. Mosquito mortality significantly declined on mouldy ATSBs compared to laboratory controls 95.35% (95% CI: 92.23-97.48) vs. 98.70% (95% CI: 97.87-99.30), (P = 0.002) respectively. In contrast, protected (non-mouldy) ATSBs showed only a slight reduction in mortality compared to controls 95.94% (95% CI: 90.42-97.46) vs. 98.91% (95% CI: 97.67-99.60) respectively (P = 0.009).

Conclusion: This study provides evidence that environmental exposure post-deployment slightly reduced the efficacy of ATSBs in controlling Anopheles arabiensis, particularly beyond the recommended 6-month period. Although mould may have contributed to this reduction over 12 months, no significant difference was found between mouldy and non-mouldy ATSBs. However, mould invasion and community concerns highlight the need to replace mouldy stations to maintain effectiveness and safety.

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肯尼亚西部地区霉菌生长和室外暴露对定向糖饵对阿拉伯按蚊药效的影响

在半干旱、低湿度气候条件下，有吸引力的定向糖饵（ATSBs）可以有效地瞄准按蚊。然而，高湿度会促进ATSB表面的霉菌生长，其对ATSB对抗疟疾媒介的效果的影响尚不清楚。本研究通过对当地疟疾媒介阿拉伯按蚊（Anopheles arabiensis）进行实验室生物测定，将暴露环境中的发霉站与保护环境中的无发霉站进行比较，探讨霉菌生长如何影响ATSB 1.2版的性能。方法：在Siaya县Rarieda-Subcounty Asembo部署100个ATSB站点，每月收集6份样本进行实验室生物测定，其中3份来自暴露地点霉变，3份来自保护地点非霉变。这些样本与三种新的实验室保存的ATSBs和两种阴性对照（仅用水和77%糖溶液加水）一起进行了检测，以评估48小时内蚊子的摄食和死亡率。结果：本研究发现，室外暴露12个月后，暴露地点霉变最严重的ATSBs对阿拉伯按蚊的取食率比保护地点霉变最少的ATSBs的取食率分别降低了57.42% （95% CI: 45.64 ~ 68.85）和74.40% (95% CI: 64.56 ~ 82.50)，差异无统计学意义（P = 0.062）。与实验室对照相比，霉变ATSBs的蚊虫死亡率分别为95.35% （95% CI: 92.23 ~ 97.48）和98.70% (95% CI: 97.87 ~ 99.30)，差异有统计学意义（P = 0.002）。相比之下，受保护（未发霉）的ATSBs与对照组相比，死亡率仅略有降低，分别为95.94% （95% CI: 90.42-97.46）和98.91% (95% CI: 97.67-99.60) （P = 0.009）。结论：本研究提供的证据表明，部署后的环境暴露略微降低了ATSBs控制阿拉伯按蚊的效果，特别是超过推荐的6个月。虽然霉菌可能在12个月内导致了这种减少，但在发霉和非发霉的ATSBs之间没有发现显着差异。然而，霉菌入侵和社区关注突出了更换发霉站以保持有效性和安全性的必要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

PLoS ONE 生物-生物学

CiteScore

6.20

自引率

5.40%

发文量

14242

审稿时长

3.7 months

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