Surveillance strategies for the detection of new pathogen variants across epidemiological contexts.

IF 3.8 2区生物学 Q1 BIOCHEMICAL RESEARCH METHODS

PLoS Computational Biology Pub Date : 2024-09-05 eCollection Date: 2024-09-01 DOI:10.1371/journal.pcbi.1012416

Kirstin I Oliveira Roster, Stephen M Kissler, Enoma Omoregie, Jade C Wang, Helly Amin, Steve Di Lonardo, Scott Hughes, Yonatan H Grad

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Abstract

Surveillance systems that monitor pathogen genome sequences are critical for rapidly detecting the introduction and emergence of pathogen variants. To evaluate how interactions between surveillance capacity, variant properties, and the epidemiological context influence the timeliness of pathogen variant detection, we developed a geographically explicit stochastic compartmental model to simulate the transmission of a novel SARS-CoV-2 variant in New York City. We measured the impact of (1) testing and sequencing volume, (2) geographic targeting of testing, (3) the timing and location of variant emergence, and (4) the relative variant transmissibility on detection speed and on the undetected disease burden. Improvements in detection times and reduction of undetected infections were driven primarily by increases in the number of sequenced samples. The relative transmissibility of the new variant and the epidemic context of variant emergence also influenced detection times, showing that individual surveillance strategies can result in a wide range of detection outcomes, depending on the underlying dynamics of the circulating variants. These findings help contextualize the design, interpretation, and trade-offs of genomic surveillance strategies of pandemic respiratory pathogens.

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跨流行病学环境检测新病原体变异的监控策略。

监测病原体基因组序列的监控系统对于快速检测病原体变异体的引入和出现至关重要。为了评估监控能力、变异体特性和流行病学背景之间的相互作用如何影响病原体变异体检测的及时性，我们开发了一个地理明确的随机分区模型，模拟新型 SARS-CoV-2 变异体在纽约市的传播。我们测量了以下因素对检测速度和未检测疾病负担的影响：(1) 检测和测序量；(2) 检测的地理针对性；(3) 变异出现的时间和地点；(4) 变异的相对传播性。检测时间的缩短和未检测到感染病例的减少主要是由于测序样本数量的增加。新变异体的相对传播性和变异体出现的流行环境也会影响检测时间，这表明，根据循环变异体的基本动态，不同的监测策略会产生不同的检测结果。这些发现有助于说明大流行性呼吸道病原体基因组监测策略的设计、解释和权衡。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

PLoS Computational Biology BIOCHEMICAL RESEARCH METHODS-MATHEMATICAL & COMPUTATIONAL BIOLOGY

CiteScore

7.10

自引率

4.70%

发文量

820

审稿时长

2.5 months

期刊介绍： PLOS Computational Biology features works of exceptional significance that further our understanding of living systems at all scales—from molecules and cells, to patient populations and ecosystems—through the application of computational methods. Readers include life and computational scientists, who can take the important findings presented here to the next level of discovery. Research articles must be declared as belonging to a relevant section. More information about the sections can be found in the submission guidelines. Research articles should model aspects of biological systems, demonstrate both methodological and scientific novelty, and provide profound new biological insights. Generally, reliability and significance of biological discovery through computation should be validated and enriched by experimental studies. Inclusion of experimental validation is not required for publication, but should be referenced where possible. Inclusion of experimental validation of a modest biological discovery through computation does not render a manuscript suitable for PLOS Computational Biology. Research articles specifically designated as Methods papers should describe outstanding methods of exceptional importance that have been shown, or have the promise to provide new biological insights. The method must already be widely adopted, or have the promise of wide adoption by a broad community of users. Enhancements to existing published methods will only be considered if those enhancements bring exceptional new capabilities.

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