肯尼亚西部三个疟疾流行地区的遥感环境条件与疟疾死亡率

Remotely Sensed Environmental Conditions and Malaria Mortality in Three Malaria Endemic Regions in Western Kenya.

作者信息

Sewe Maquins Odhiambo, Ahlm Clas, Rocklöv Joacim

机构信息

Centre for Global Health Research, Kenya Medical Research Institute, Kisumu, Kenya.

Department of Public Health and Clinical Medicine, Epidemiology and Global Health, Umeå University, Umeå, Sweden.

出版信息

PLoS One. 2016 Apr 26;11(4):e0154204. doi: 10.1371/journal.pone.0154204. eCollection 2016.

DOI:10.1371/journal.pone.0154204

PMID:27115874

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4845989/

Abstract

BACKGROUND

Malaria is an important cause of morbidity and mortality in malaria endemic countries. The malaria mosquito vectors depend on environmental conditions, such as temperature and rainfall, for reproduction and survival. To investigate the potential for weather driven early warning systems to prevent disease occurrence, the disease relationship to weather conditions need to be carefully investigated. Where meteorological observations are scarce, satellite derived products provide new opportunities to study the disease patterns depending on remotely sensed variables. In this study, we explored the lagged association of Normalized Difference Vegetation Index (NVDI), day Land Surface Temperature (LST) and precipitation on malaria mortality in three areas in Western Kenya.

METHODOLOGY AND FINDINGS

The lagged effect of each environmental variable on weekly malaria mortality was modeled using a Distributed Lag Non Linear Modeling approach. For each variable we constructed a natural spline basis with 3 degrees of freedom for both the lag dimension and the variable. Lag periods up to 12 weeks were considered. The effect of day LST varied between the areas with longer lags. In all the three areas, malaria mortality was associated with precipitation. The risk increased with increasing weekly total precipitation above 20 mm and peaking at 80 mm. The NDVI threshold for increased mortality risk was between 0.3 and 0.4 at shorter lags.

CONCLUSION

This study identified lag patterns and association of remote- sensing environmental factors and malaria mortality in three malaria endemic regions in Western Kenya. Our results show that rainfall has the most consistent predictive pattern to malaria transmission in the endemic study area. Results highlight a potential for development of locally based early warning forecasts that could potentially reduce the disease burden by enabling timely control actions.

摘要

背景

疟疾是疟疾流行国家发病和死亡的重要原因。疟疾蚊媒的繁殖和生存依赖于温度和降雨等环境条件。为了调查天气驱动的预警系统预防疾病发生的潜力，需要仔细研究疾病与天气条件的关系。在气象观测稀缺的地方，卫星衍生产品为根据遥感变量研究疾病模式提供了新机会。在本研究中，我们探讨了归一化植被指数（NVDI）、日间陆地表面温度（LST）和降水对肯尼亚西部三个地区疟疾死亡率的滞后关联。

方法与结果

使用分布滞后非线性建模方法对每个环境变量对每周疟疾死亡率的滞后效应进行建模。对于每个变量，我们在滞后维度和变量上都构建了一个具有3个自由度的自然样条基。考虑了长达12周的滞后期。日间LST的影响在不同地区有所不同，滞后期更长。在所有三个地区，疟疾死亡率都与降水有关。每周总降水量超过20毫米时风险增加，并在80毫米时达到峰值。在较短滞后期时，死亡率风险增加的NDVI阈值在0.3至0.4之间。

结论

本研究确定了肯尼亚西部三个疟疾流行地区遥感环境因素与疟疾死亡率的滞后模式和关联。我们的结果表明，降雨在流行研究区域对疟疾传播具有最一致的预测模式。结果突出了开发基于当地的早期预警预报的潜力，这可能通过及时采取控制行动来减轻疾病负担。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2803/4845989/51b64a5aca00/pone.0154204.g001.jpg

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肯尼亚西部三个疟疾流行地区的遥感环境条件与疟疾死亡率

Remotely Sensed Environmental Conditions and Malaria Mortality in Three Malaria Endemic Regions in Western Kenya.

作者信息

机构信息

出版信息

BACKGROUND

METHODOLOGY AND FINDINGS

CONCLUSION

背景

方法与结果

结论

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