Monitoring an Emergent Pathogen at Low Incidence in Wastewater Using qPCR: Mpox in Switzerland

IF 4.1 2区 农林科学 Q2 ENVIRONMENTAL SCIENCES Food and Environmental Virology Pub Date : 2024-05-23 DOI:10.1007/s12560-024-09603-5
Timothy R. Julian, Alexander J. Devaux, Laura Brülisauer, Sheena Conforti, Johannes C. Rusch, Charles Gan, Claudia Bagutti, Tanja Stadler, Tamar Kohn, Christoph Ort
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Abstract

Wastewater-based epidemiology offers a complementary approach to clinical case-based surveillance of emergent diseases and can help identify regions with infected people to prioritize clinical surveillance strategies. However, tracking emergent diseases in wastewater requires reliance on novel testing assays with uncertain sensitivity and specificity. Limited pathogen shedding may cause detection to be below the limit of quantification or bordering the limit of detection. Here, we investigated how the definition of limit of detection for quantitative polymerase chain reaction (qPCR) impacts epidemiological insights during an mpox outbreak in Switzerland. 365 wastewater samples from three wastewater treatment plants in Switzerland from 9 March through 31 October 2022 were analyzed for mpox DNA using qPCR. We detected mpox DNA in 22% (79 of 365) wastewater samples based on a liberal definition of qPCR detection as any exponentially increasing fluorescence above the threshold. Based on a more restrictive definition as the lowest concentration at which there is 95% likelihood of detection, detection was 1% (5 of 365). The liberal definition shows high specificity (90%) and accuracy (78%), but moderate sensitivity (64%) when benchmarked against available clinical case reporting, which contrasts with higher specificity (98%) but lower sensitivity (10%) and accuracy (56%) of the 95% likelihood definition. Wastewater-based epidemiology applied to an emergent pathogen will require optimizing public health trade-offs between reporting data with high degrees of uncertainty and delaying communication and associated action. Information sharing with relevant public health stakeholders could couple early results with clear descriptions of uncertainty.

Impact Statement: When a novel pathogen threatens to enter a community, wastewater-based epidemiology offers an opportunity to track its emergence and spread. However, rapid deployment of methods for to detect a novel pathogen may rely on assays with uncertain sensitivity and specificity. Benchmarking the detection of mpox DNA in Swiss wastewaters with reported clinical cases in 2022, we demonstrate how definitions of detection of a qPCR assay influence epidemiological insights from wastewater. The results highlight the need for information sharing between public health stakeholders that couple early insights from wastewater with descriptions of methodological uncertainty to optimize public health actions.

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利用 qPCR 监测废水中发病率较低的新病原体:瑞士的 Mpox。
以废水为基础的流行病学为以临床病例为基础的突发疾病监测提供了一种补充方法,可帮助确定受感染人群所在的区域,从而确定临床监测战略的优先次序。然而,要追踪废水中的突发疾病,需要依赖灵敏度和特异性不确定的新型检测方法。有限的病原体脱落可能导致检测结果低于定量限或接近检测限。在此,我们研究了定量聚合酶链式反应(qPCR)检测限的定义如何影响瑞士麻疹疫情爆发期间的流行病学洞察力。我们使用 qPCR 分析了 2022 年 3 月 9 日至 10 月 31 日期间来自瑞士三家污水处理厂的 365 份废水样本中的天花 DNA。我们在 22% 的废水样本(365 份样本中的 79 份)中检测到了 mpox DNA。如果采用更严格的定义,即有 95% 的可能性检测到的最低浓度,则检测到的比例为 1%(365 份样本中的 5 份)。以现有的临床病例报告为基准,宽泛的定义显示出较高的特异性(90%)和准确性(78%),但灵敏度(64%)一般,这与 95% 可能性定义的较高特异性(98%)但较低灵敏度(10%)和准确性(56%)形成鲜明对比。将基于废水的流行病学应用于突发病原体,需要在报告高度不确定的数据与延迟交流和相关行动之间进行公共卫生权衡。与相关的公共卫生利益相关者共享信息可以将早期结果与对不确定性的明确描述结合起来:当一种新型病原体有可能进入社区时,基于废水的流行病学为追踪其出现和传播提供了机会。然而,快速部署检测新型病原体的方法可能依赖于灵敏度和特异性不确定的检测方法。通过将瑞士废水中 mpox DNA 的检测结果与 2022 年报告的临床病例进行对比,我们展示了 qPCR 检测方法的检测定义如何影响从废水中获得的流行病学见解。结果突出表明,公共卫生利益相关者之间需要共享信息,将废水中的早期发现与方法不确定性的描述结合起来,以优化公共卫生行动。
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来源期刊
Food and Environmental Virology
Food and Environmental Virology ENVIRONMENTAL SCIENCES-MICROBIOLOGY
CiteScore
6.50
自引率
2.90%
发文量
35
审稿时长
1 months
期刊介绍: Food and Environmental Virology publishes original articles, notes and review articles on any aspect relating to the transmission of pathogenic viruses via the environment (water, air, soil etc.) and foods. This includes epidemiological studies, identification of novel or emerging pathogens, methods of analysis or characterisation, studies on survival and elimination, and development of procedural controls for industrial processes, e.g. HACCP plans. The journal will cover all aspects of this important area, and encompass studies on any human, animal, and plant pathogenic virus which is capable of transmission via the environment or food.
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