Julianne Meisner PhD , Anna Baines DVM , Isaac Ngere PhD , Prof Patricia J Garcia PhD , Chatchawal Sa-Nguansilp MSc , Nguyen Nguyen PhD , Cheikh Niang MS , Kevin Bardosh PhD , Thuy Nguyen MS , Hannah Fenelon MPH , McKenzi Norris MS , Stephanie Mitchell MPH , Cesar V Munayco DrPH , Noah Janzing MPH , Rane Dragovich BS , Elizabeth Traylor BS , Tianai Li BS , Hanh Le MPH , Alyssa Suarez MS , Yassar Sanad PhD , Felix Lankester PhD
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引用次数: 0
Abstract
Background
An increase in pandemics of zoonotic origin has led to a growing interest in using statistical prediction to identify hotspots of zoonotic emergence. However, the rare nature of pathogen emergence requires modellers to impose simplifying assumptions, which limit the model's validity. We present a novel approach to hotspot mapping that aims to improve validity by combining model-based insights with expert knowledge.
Methods
We conducted a systematic literature review to identify predictors for zoonotic emergence events in three priority virus families (Filoviridae, Coronaviridae, and Paramyxoviridae). We searched PubMed, Web of Science, Agricola, medRxiv, bioRxiv, Embase, CAB Global Health, and Google Scholar on Oct 14–28, 2021, with no restrictions on language or the date of publication. Articles suggested by subject matter experts and those identified by a review of reference lists were also included. We used regularised regression to fit a model to the data extracted from the literature and produced maps of ranked risk. In a series of workshops in five countries (Kenya, Peru, Senegal, Thailand, and Viet Nam), experts in zoonotic diseases produced qualitative hotspot maps based on their expertise, which were compared with the model-derived maps.
Findings
425 articles were analysed, from which 19 predictors and 1068 outcome events were identified. The in-sample misclassification error was 0·365, and 89% of participant-selected zones were ranked as moderate or high risk by the model. Participant-selected zones were too large to be actionable without further refinement. Discordance was probably due to missing predictors for which no valid data exist, and homogeneity imposed by our global model.
Interpretation
Concordance between the two sets of maps supports the validity of each. Because model-based and participatory strategies have non-overlapping limitations, the results can be harmonised to minimise bias, and model-based results could be used to refine participant-selected zones. This approach shows potential for refining deployment of countermeasures to prevent future pandemics.
背景:人畜共患病大流行的增加导致人们越来越关注使用统计预测来确定人畜共患病出现的热点。然而,病原体出现的罕见性质要求建模者施加简化的假设,这限制了模型的有效性。我们提出了一种新的热点映射方法,旨在通过将基于模型的见解与专家知识相结合来提高有效性。方法:我们进行了系统的文献综述,以确定三个重点病毒科(丝状病毒科、冠状病毒科和副粘病毒科)的人畜共患突发事件的预测因素。我们于2021年10月14日至28日检索PubMed、Web of Science、Agricola、medRxiv、bioRxiv、Embase、CAB Global Health和谷歌Scholar,没有语言或出版日期限制。题目专家建议的文章和参考书目审查确定的文章也包括在内。我们使用正则化回归对从文献中提取的数据进行模型拟合,并生成风险等级图。在五个国家(肯尼亚、秘鲁、塞内加尔、泰国和越南)举办的一系列讲习班上,人畜共患疾病专家根据他们的专业知识制作了定性热点地图,并将其与模型衍生地图进行了比较。结果:425篇文章被分析,从中确定了19个预测因素和1068个结局事件。样本内误分类误差为0·365,89%的参与者选择的区域被模型评为中度或高风险。参与者选择的区域太大,如果不进一步优化就无法操作。不一致可能是由于缺乏有效数据的预测因子,以及我们的全球模型施加的同质性。解释:两组地图之间的一致性支持每组地图的有效性。由于基于模型的策略和参与性策略具有不重叠的限制,因此可以协调结果以最大限度地减少偏差,并且基于模型的结果可用于改进参与者选择的区域。这种方法显示了改进对策部署以预防未来流行病的潜力。资助:美国国际开发署。
期刊介绍:
The Lancet Planetary Health is a gold Open Access journal dedicated to investigating and addressing the multifaceted determinants of healthy human civilizations and their impact on natural systems. Positioned as a key player in sustainable development, the journal covers a broad, interdisciplinary scope, encompassing areas such as poverty, nutrition, gender equity, water and sanitation, energy, economic growth, industrialization, inequality, urbanization, human consumption and production, climate change, ocean health, land use, peace, and justice.
With a commitment to publishing high-quality research, comment, and correspondence, it aims to be the leading journal for sustainable development in the face of unprecedented dangers and threats.
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