Oluoch George O, Otundo Denis, Nyawacha Seth, Ongeri Derick, Smith Monica, Meta Vivianne, Trelfa Anna, Ahmed Sayem, Harrison Robert A, Lalloo David G, Stienstra Ymkje, Tianyi Frank-Leonel
Kenya Snakebite Research and Intervention Centre, Kenya Institute of Primate Research, Ministry of Health, Karen, Nairobi, Kenya.
Centre for Snakebite Research and Interventions, Liverpool School of Tropical Medicine, Pembroke Place, Liverpool, United Kingdom.
PLoS Negl Trop Dis. 2023 Dec 28;17(12):e0011792. doi: 10.1371/journal.pntd.0011792. eCollection 2023 Dec.
Research on snakebite has mostly been conducted on settled populations and current risk factors and potential interventions are therefore most suited for these populations. There is limited epidemiological data on mobile and nomadic populations, who may have a higher risk of snakebite.
We conducted a scoping review to gather evidence on survey methods used in nomadic populations and compared them with contemporary survey methods used for snakebite research. Only 16 (10.5%) of 154 articles reportedly conducted on pastoralist nomadic populations actually involved mobile pastoralists. All articles describing snakebite surveys (n = 18) used multistage cluster designs on population census sampling frames, which would not be appropriate for nomadic populations. We used geospatial techniques and open-source high-resolution satellite images to create a digital sampling frame of 50,707 households and used a multistage sampling strategy to survey nomadic and semi-nomadic populations in Samburu County, Kenya. From a sample of 900 geo-located households, we correctly identified and collected data from 573 (65.4%) households, of which 409 were in their original locations and 164 had moved within 5km of their original locations. We randomly sampled 302 (34.6%) households to replace completely abandoned and untraceable households.
Highly mobile populations require specific considerations in selecting or creating sampling frames and sampling units for epidemiological research. Snakebite risk has a strong spatial component and using census-based sampling frames would be inappropriate in nomadic populations. We propose using open-source satellite imaging and geographic information systems to improve the conduct of epidemiological research in these populations.
蛇伤研究主要针对定居人口进行,因此当前的风险因素和潜在干预措施最适合这些人群。关于流动人口和游牧人口的流行病学数据有限,这些人群可能面临更高的蛇伤风险。
我们进行了范围界定综述,以收集有关游牧人口中使用的调查方法的证据,并将其与当前用于蛇伤研究的调查方法进行比较。在据报道针对牧民游牧人口进行的 154 篇文章中,只有 16 篇(10.5%)实际上涉及流动牧民。所有描述蛇伤调查的文章(n=18)都在人口普查抽样框架上使用了多阶段聚类设计,这对于游牧人口来说是不合适的。我们使用地理空间技术和开源高分辨率卫星图像创建了一个 50707 户家庭的数字抽样框架,并使用多阶段抽样策略对肯尼亚桑布鲁县的游牧和半游牧人口进行了调查。从 900 个具有地理位置的家庭中,我们正确识别并从 573 个(65.4%)家庭中收集了数据,其中 409 个家庭位于原始位置,164 个家庭在原始位置 5 公里范围内移动。我们随机抽取了 302 个(34.6%)家庭来替换完全废弃和无法追踪的家庭。
高度流动的人口在选择或创建抽样框架和抽样单位进行流行病学研究时需要特别考虑。蛇伤风险具有很强的空间成分,在游牧人口中使用人口普查为基础的抽样框架是不合适的。我们建议使用开源卫星成像和地理信息系统来改善这些人群中的流行病学研究。