疟疾风险分层和建模降雨对厄立特里亚疟疾发病率的影响。

Malaria Risk Stratification and Modeling the Effect of Rainfall on Malaria Incidence in Eritrea.

机构信息

Asmara College of Health Sciences, School of Public Health, Department of Epidemiology and Biostatistics, Asmara, Eritrea.

Ministry of Health, Asmara, Eritrea.

出版信息

J Environ Public Health. 2019 Apr 1;2019:7314129. doi: 10.1155/2019/7314129. eCollection 2019.

DOI:10.1155/2019/7314129

PMID:31061663

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6466923/

Abstract

BACKGROUND

Malaria risk stratification is essential to differentiate areas with distinct malaria intensity and seasonality patterns. The development of a simple prediction model to forecast malaria incidence by rainfall offers an opportunity for early detection of malaria epidemics.

OBJECTIVES

To construct a national malaria stratification map, develop prediction models and forecast monthly malaria incidences based on rainfall data.

METHODS

Using monthly malaria incidence data from 2012 to 2016, the district level malaria stratification was constructed by nonhierarchical clustering. Cluster validity was examined by the maximum absolute coordinate change and analysis of variance (ANOVA) with a conservative post hoc test (Bonferroni) as the multiple comparison test. Autocorrelation and cross-correlation analyses were performed to detect the autocorrelation of malaria incidence and the lagged effect of rainfall on malaria incidence. The effect of rainfall on malaria incidence was assessed using seasonal autoregressive integrated moving average (SARIMA) models. Ljung-Box statistics for model diagnosis and stationary -squared and Normalized Bayesian Information Criteria for model fit were used. Model validity was assessed by analyzing the observed and predicted incidences using the spearman correlation coefficient and paired samples -test.

RESULTS

A four cluster map (high risk, moderate risk, low risk, and very low risk) was the most valid stratification system for the reported malaria incidence in Eritrea. Monthly incidences were influenced by incidence rates in the previous months. Monthly incidence of malaria in the constructed clusters was associated with 1, 2, 3, and 4 lagged months of rainfall. The constructed models had acceptable accuracy as 73.1%, 46.3%, 53.4%, and 50.7% of the variance in malaria transmission were explained by rainfall in the high-risk, moderate-risk, low-risk, and very low-risk clusters, respectively.

CONCLUSION

Change in rainfall patterns affect malaria incidence in Eritrea. Using routine malaria case reports and rainfall data, malaria incidences can be forecasted with acceptable accuracy. Further research should consider a village or health facility level modeling of malaria incidence by including other climatic factors like temperature and relative humidity.

摘要

背景

疟疾风险分层对于区分疟疾强度和季节性模式不同的地区至关重要。通过降雨来预测疟疾发病率的简单预测模型的发展为早期发现疟疾流行提供了机会。

目的

构建国家疟疾分层图，开发预测模型，并根据降雨数据预测每月的疟疾发病率。

方法

使用 2012 年至 2016 年的每月疟疾发病率数据，通过非层次聚类构建区级疟疾分层。通过最大绝对坐标变化和方差分析（ANOVA）检验聚类有效性，使用保守的事后检验（Bonferroni）作为多重比较检验。进行自相关和互相关分析以检测疟疾发病率的自相关和降雨对疟疾发病率的滞后效应。使用季节性自回归综合移动平均（SARIMA）模型评估降雨对疟疾发病率的影响。使用Ljung-Box 统计量进行模型诊断，使用平稳 - 平方和标准化贝叶斯信息准则进行模型拟合。通过分析观察到的和预测的发病率使用 Spearman 相关系数和配对样本 t 检验来评估模型的有效性。

结果

对于厄立特里亚报告的疟疾发病率，四个聚类图（高风险、中风险、低风险和极低风险）是最有效的分层系统。每月的发病率受到前几个月发病率的影响。构建的聚类中的疟疾每月发病率与降雨的 1、2、3 和 4 个滞后月相关。所构建的模型具有可接受的准确性，因为在高风险、中风险、低风险和极低风险聚类中，降雨量分别解释了疟疾传播方差的 73.1%、46.3%、53.4%和 50.7%。

结论

降雨模式的变化会影响厄立特里亚的疟疾发病率。使用常规疟疾病例报告和降雨数据，可以以可接受的准确性预测疟疾发病率。进一步的研究应考虑在村庄或卫生设施层面上通过包括温度和相对湿度等其他气候因素来对疟疾发病率进行建模。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b92d/6466923/888315851adf/JEPH2019-7314129.001.jpg

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疟疾风险分层和建模降雨对厄立特里亚疟疾发病率的影响。

Malaria Risk Stratification and Modeling the Effect of Rainfall on Malaria Incidence in Eritrea.

机构信息

出版信息

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目的

方法

结果

结论

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