伊朗南部疟疾空间模拟与疟疾消除计划的实施:贝叶斯泊松-伽马随机场模型。

Pub Date : 2021-03-31 eCollection Date: 2021-03-01 DOI:10.18502/jad.v15i1.6490
Amin Ghanbarnejad, Habibollah Turki, Mehdi Yaseri, Ahmad Raeisi, Abbas Rahimi-Foroushani
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引用次数: 5

摘要

背景:疟疾是世界上第三大传染病。世卫组织提出控制和消除该病的规划。从2010年起,伊朗开始了第一阶段的疟疾消除项目。气候因素在疟疾感染的传播和发生中起着重要作用。主要目的是调查2011年4月至2018年3月霍尔木兹甘省疟疾发病率的空间分布及其与气候协变量的关系。方法:收集霍尔木兹甘医科大学疾病预防控制中心确诊病例882例。采用贝叶斯方法的泊松-伽玛随机场模型对数据进行建模,得到平滑标准化发病率(SIR)。结果:Abu Musa和Haji Abad地区疟疾的SIR值为0 ~ 280.57。根据模型,温度(RR= 2.29;95%可信区间:(1.92-2.78))和湿度(RR= 1.04;95%可信区间:(1.03-1.06))对疟疾发病率有正向影响,但降雨(RR= 0.92;95%可信区间:(0.90-0.95))有负面影响。此外,平滑的地图表示该省东部和格什姆岛的热点。结论:通过对研究结果的分析,发现该地区的生态条件(温度、湿度和降雨量)和人口迁移对疟疾的发病有重要影响。因此,疟疾监测系统应继续在该区域活跃,重点放在疟疾高危地区。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Spatial Modelling of Malaria in South of Iran in Line with the Implementation of the Malaria Elimination Program: A Bayesian Poisson-Gamma Random Field Model.

Spatial Modelling of Malaria in South of Iran in Line with the Implementation of the Malaria Elimination Program: A Bayesian Poisson-Gamma Random Field Model.

Spatial Modelling of Malaria in South of Iran in Line with the Implementation of the Malaria Elimination Program: A Bayesian Poisson-Gamma Random Field Model.

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Spatial Modelling of Malaria in South of Iran in Line with the Implementation of the Malaria Elimination Program: A Bayesian Poisson-Gamma Random Field Model.

Background: Malaria is the third most important infectious disease in the world. WHO propose programs for controlling and elimination of the disease. Malaria elimination program has begun in first phase in Iran from 2010. Climate factors play an important role in transmission and occurrence of malaria infection. The main goal is to investigate the spatial distribution of incidence of malaria during April 2011 to March 2018 in Hormozgan Province and its association with climate covariates.

Methods: The data included 882 confirmed cases gathered from CDC in Hormozgan University of Medical Sciences. A Poisson-Gamma Random field model with Bayesian approach was used for modeling the data and produces the smoothed standardized incidence rate (SIR).

Results: The SIR for malaria ranged from 0 (Abu Musa and Haji Abad districts) to 280.57 (Bandar-e-Jask). Based on model, temperature (RR= 2.29; 95% credible interval: (1.92-2.78)) and humidity (RR= 1.04; 95% credible interval: (1.03-1.06)) had positive effect on malaria incidence, but rainfall (RR= 0.92; 95% credible interval: (0.90-0.95)) had negative impact. Also, smoothed map represent hot spots in the east of the province and in Qeshm Island.

Conclusion: Based on the analysis of the study results, it was found that the ecological conditions of the region (temperature, humidity and rainfall) and population displacement play an important role in the incidence of malaria. Therefore, the malaria surveillance system should continue to be active in the region, focusing on high-risk areas of malaria.

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