在乌干达消除冈比亚昏睡病的国家采采蝇控制计划的影响:时空模型研究。

IF 7.1 2区 医学 Q1 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH
Joshua Longbottom, Johan Esterhuizen, Andrew Hope, Michael J Lehane, Tn Clement Mangwiro, Albert Mugenyi, Sophie Dunkley, Richard Selby, Inaki Tirados, Steve J Torr, Michelle C Stanton
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引用次数: 0

摘要

简介采采蝇(Glossina)传播布氏甘比坦锥虫,布氏甘比坦锥虫会导致甘比坦非洲锥虫病(gHAT)。作为消除非洲锥虫病这一公共卫生问题的国家努力的一部分,乌干达实施了一项大规模的 "小目标 "计划。在高峰时期,该计划是非洲最大的采采蝇控制行动。在此,我们量化了 "小目标 "和环境变化对乌干达西北部采采蝇数量时空模式的影响:我们利用了一个为期 100 个月的纵向数据集,该数据集详细记录了 2010 年 10 月至 2019 年 12 月间乌干达西北部 7 个地区监测陷阱捕获的 Glossina fuscipes fuscipes。我们拟合了一个评估环境适宜性的增强回归树(BRT)模型,并将其与 Tiny Target 数据一起用于拟合时空地理统计模型,以预测整个研究区域(约 16000 平方公里)的采采蝇丰度。我们利用时空模型来量化小目标和环境变化对采采蝇分布的影响以及不确定性指标:结果:整个研究区域的环境适宜性随着时间的推移保持相对稳定,适宜性主要受海拔高度和河流距离的影响。通过使用拟合的时空地理统计模型进行反事实分析,我们发现在 4000 平方公里的区域内部署 "小目标 "后,采采蝇的总体丰度降至较低水平(日捕获量中位数=1.1 采采蝇/捕获器,IQR=0.85-1.28)。没有任何时空地点的采采蝇数量较高(>10 头采采蝇/捕获器/天),而在反事实中,18% 的地点的采采蝇数量较高:在乌干达,"小目标 "降低了舌蝇的数量,并将舌蝇种群维持在较低水平。我们的模型是首个调查全国采采蝇控制计划效果的时空地理统计模型。其结果为下一步病媒控制和监测工作提供了重要数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact of a national tsetse control programme to eliminate Gambian sleeping sickness in Uganda: a spatiotemporal modelling study.

Introduction: Tsetse flies (Glossina) transmit Trypanosoma brucei gambiense, which causes gambiense human African trypanosomiasis (gHAT). As part of national efforts to eliminate gHAT as a public health problem, Uganda implemented a large-scale programme of deploying Tiny Targets, which comprise panels of insecticide-treated material which attract and kill tsetse. At its peak, the programme was the largest tsetse control operation in Africa. Here, we quantify the impact of Tiny Targets and environmental changes on the spatial and temporal patterns of tsetse abundance across North-Western Uganda.

Methods: We leverage a 100-month longitudinal dataset detailing Glossina fuscipes fuscipes catches from monitoring traps between October 2010 and December 2019 within seven districts in North-Western Uganda. We fitted a boosted regression tree (BRT) model assessing environmental suitability, which was used alongside Tiny Target data to fit a spatiotemporal geostatistical model predicting tsetse abundance across our study area (~16 000 km2). We used the spatiotemporal model to quantify the impact of Tiny Targets and environmental changes on the distribution of tsetse, alongside metrics of uncertainty.

Results: Environmental suitability across the study area remained relatively constant over time, with suitability being driven largely by elevation and distance to rivers. By performing a counterfactual analysis using the fitted spatiotemporal geostatistical model, we show that deployment of Tiny Targets across an area of 4000 km2 reduced the overall abundance of tsetse to low levels (median daily catch=1.1 tsetse/trap, IQR=0.85-1.28). No spatial-temporal locations had high (>10 tsetse/trap/day) numbers of tsetse compared with 18% of locations for the counterfactual.

Conclusions: In Uganda, Tiny Targets reduced the abundance of G. f. fuscipes and maintained tsetse populations at low levels. Our model represents the first spatiotemporal geostatistical model investigating the effects of a national tsetse control programme. The outputs provide important data for informing next steps for vector control and surveillance.

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来源期刊
BMJ Global Health
BMJ Global Health Medicine-Health Policy
CiteScore
11.40
自引率
4.90%
发文量
429
审稿时长
18 weeks
期刊介绍: BMJ Global Health is an online Open Access journal from BMJ that focuses on publishing high-quality peer-reviewed content pertinent to individuals engaged in global health, including policy makers, funders, researchers, clinicians, and frontline healthcare workers. The journal encompasses all facets of global health, with a special emphasis on submissions addressing underfunded areas such as non-communicable diseases (NCDs). It welcomes research across all study phases and designs, from study protocols to phase I trials to meta-analyses, including small or specialized studies. The journal also encourages opinionated discussions on controversial topics.
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