利用谷歌地球增强资源匮乏环境下的公共卫生能力并促进病媒传播疾病的管理。
Use of Google Earth to strengthen public health capacity and facilitate management of vector-borne diseases in resource-poor environments.
作者信息
Lozano-Fuentes Saul, Elizondo-Quiroga Darwin, Farfan-Ale Jose Arturo, Loroño-Pino Maria Alba, Garcia-Rejon Julian, Gomez-Carro Salvador, Lira-Zumbardo Victor, Najera-Vazquez Rosario, Fernandez-Salas Ildefonso, Calderon-Martinez Joaquin, Dominguez-Galera Marco, Mis-Avila Pedro, Morris Natashia, Coleman Michael, Moore Chester G, Beaty Barry J, Eisen Lars
机构信息
Department of Microbiology, Immunology and Pathology, Colorado State University, Fort Collins, CO, United States of America.
出版信息
Bull World Health Organ. 2008 Sep;86(9):718-25. doi: 10.2471/blt.07.045880.
OBJECTIVE
Novel, inexpensive solutions are needed for improved management of vector-borne and other diseases in resource-poor environments. Emerging free software providing access to satellite imagery and simple editing tools (e.g. Google Earth) complement existing geographic information system (GIS) software and provide new opportunities for: (i) strengthening overall public health capacity through development of information for city infrastructures; and (ii) display of public health data directly on an image of the physical environment.
METHODS
We used freely accessible satellite imagery and a set of feature-making tools included in the software (allowing for production of polygons, lines and points) to generate information for city infrastructure and to display disease data in a dengue decision support system (DDSS) framework.
FINDINGS
Two cities in Mexico (Chetumal and Merida) were used to demonstrate that a basic representation of city infrastructure useful as a spatial backbone in a DDSS can be rapidly developed at minimal cost. Data layers generated included labelled polygons representing city blocks, lines representing streets, and points showing the locations of schools and health clinics. City blocks were colour-coded to show presence of dengue cases. The data layers were successfully imported in a format known as shapefile into a GIS software.
CONCLUSION
The combination of Google Earth and free GIS software (e.g. HealthMapper, developed by WHO, and SIGEpi, developed by PAHO) has tremendous potential to strengthen overall public health capacity and facilitate decision support system approaches to prevention and control of vector-borne diseases in resource-poor environments.
目的
在资源匮乏的环境中,需要新颖且低成本的解决方案来改善对媒介传播疾病和其他疾病的管理。新兴的免费软件可提供卫星图像访问和简单编辑工具(如谷歌地球),它补充了现有的地理信息系统(GIS)软件,并为以下方面提供了新机会:(i)通过开发城市基础设施信息来加强整体公共卫生能力;(ii)直接在物理环境图像上显示公共卫生数据。
方法
我们使用免费获取的卫星图像和该软件中包含的一组特征制作工具(可生成多边形、线条和点)来生成城市基础设施信息,并在登革热决策支持系统(DDSS)框架中显示疾病数据。
研究结果
墨西哥的两个城市(切图马尔和梅里达)被用于证明,作为DDSS空间骨干的城市基础设施的基本表示可以以最低成本快速开发。生成的数据层包括代表城市街区的带标签多边形、代表街道的线条以及显示学校和健康诊所位置的点。城市街区用颜色编码以显示登革热病例的存在情况。这些数据层以一种称为shapefile的格式成功导入到GIS软件中。
结论
谷歌地球与免费GIS软件(如世界卫生组织开发的HealthMapper和泛美卫生组织开发的SIGEpi)的结合,在加强整体公共卫生能力以及促进资源匮乏环境中媒介传播疾病预防和控制的决策支持系统方法方面具有巨大潜力。
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