Institute of Biodiversity, Animal Health & Comparative Medicine, University of Glasgow, Glasgow, UK.
Nelson Mandela African Institution of Science and Technology, Arusha, Tanzania.
Sci Rep. 2022 Jun 22;12(1):10514. doi: 10.1038/s41598-022-14081-5.
Disease mapping reveals geographical variability in incidence, which can help to prioritise control efforts. However, in areas where this is most needed, resources to generate the required data are often lacking. Participatory mapping, which makes use of indigenous knowledge, is a potential approach to identify risk areas for endemic diseases in low- and middle-income countries. Here we combine this method with Geographical Information System-based analyses of environmental variables as a novel approach to study endemic anthrax, caused by the spore-forming bacterium Bacillus anthracis, in rural Africa. Our aims were to: (1) identify high-risk anthrax areas using community knowledge; (2) enhance our understanding of the environmental characteristics associated with these areas; and (3) make spatial predictions of anthrax risk. Community members from the Ngorongoro Conservation Area (NCA), northern Tanzania, where anthrax is highly prevalent in both animals and humans, were asked to draw areas they perceived to pose anthrax risks to their livestock on geo-referenced maps. After digitisation, random points were generated within and outside the defined areas to represent high- and low-risk areas, respectively. Regression analyses were used to identify environmental variables that may predict anthrax risk. Results were combined to predict how the probability of being a high-risk area for anthrax varies across space. Participatory mapping identified fourteen discrete high-risk areas ranging from 0.2 to 212.9 km in size and occupying 8.4% of the NCA. Areas that pose a high risk of anthrax were positively associated with factors that increase contact with Bacillus anthracis spores rather than those associated with the pathogen's survival: close proximity to inland water bodies, where wildlife and livestock congregate, and low organic carbon content, which may indicate an increased likelihood of animals grazing close to soil surface and ingesting spores. Predicted high-risk areas were located in the centre of the NCA, which is likely to be encountered by most herds during movements in search for resources. We demonstrate that participatory mapping combined with spatial analyses can provide novel insights into the geography of disease risk. This approach can be used to prioritise areas for control in low-resource settings, especially for diseases with environmental transmission.
疾病制图揭示了发病率的地理变异性,这有助于优先开展控制工作。然而,在最需要的地方,往往缺乏生成所需数据的资源。利用本土知识的参与式制图是确定中低收入国家地方病风险地区的一种潜在方法。在这里,我们将这种方法与基于地理信息系统的环境变量分析相结合,用于研究农村非洲的地方性炭疽病,这种疾病是由形成孢子的细菌炭疽芽孢杆菌引起的。我们的目标是:(1)利用社区知识确定高风险炭疽地区;(2)增强我们对与这些地区相关的环境特征的理解;(3)对炭疽风险进行空间预测。来自坦桑尼亚北部恩戈罗恩戈罗保护区(NCA)的社区成员,那里的动物和人类炭疽病高发,他们被要求在有地理位置的地图上划出他们认为对牲畜构成炭疽风险的区域。数字化后,在定义区域内和外部分别生成随机点,分别代表高风险和低风险区域。回归分析用于确定可能预测炭疽风险的环境变量。结果结合起来预测炭疽高风险区域在空间上的概率变化。参与式制图确定了 14 个离散的高风险区域,面积从 0.2 到 212.9 公里不等,占 NCA 的 8.4%。炭疽高风险区域与增加与炭疽芽孢杆菌孢子接触的因素呈正相关,而与病原体存活相关的因素呈负相关:靠近内陆水体,野生动物和牲畜聚集的地方,以及有机碳含量低,这可能表明动物更有可能靠近土壤表面放牧并摄入孢子。预测的高风险区域位于 NCA 的中心,这是大多数牛群在寻找资源时最有可能遇到的地方。我们证明,参与式制图与空间分析相结合,可以为疾病风险的地理分布提供新的见解。这种方法可用于在资源匮乏的环境中确定控制的优先领域,特别是对于具有环境传播的疾病。
