Multivariate resilience indicators to anticipate vector-borne disease outbreaks: A West Nile virus case-study.

IF 3.6 2区生物学 Q1 BIOCHEMICAL RESEARCH METHODS

PLoS Computational Biology Pub Date : 2025-10-13 DOI:10.1371/journal.pcbi.1012703

Clara Delecroix, Quirine Ten Bosch, Egbert H Van Nes, Ingrid A van de Leemput

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引用次数: 0

Abstract

Background and aim: To prevent the spread of infectious diseases, successful interventions require early detection. The timing of implementation of preventive measures is crucial, but as outbreaks are hard to anticipate, control efforts often start too late. This applies to mosquito-borne diseases, for which the multifaceted nature of transmission complicates surveillance. Resilience indicators have been studied as a generic, model-free early warning method. However, the large data requirements limit their use in practice. In the present study, we compare the performance of multivariate indicators of resilience, combining the information contained in multiple data sources, to the performance of univariate ones focusing on one single time series. Additionally, by comparing various monitoring scenarios, we aim to find which data sources are the most informative as early warnings.

Methods and results: West Nile virus was used as a case study due to its complex transmission cycle with different hosts and vectors interacting. A synthetic dataset was generated using a compartmental model under different monitoring scenarios, including data-poor scenarios. Multivariate indicators of resilience relied on different data reduction techniques such as principal component analysis (PCA) and Max Autocorrelation Factor analysis (MAF). Multivariate indicators outperformed univariate ones, especially in data-poor scenarios such as reduced resolution or observation probabilities. This finding held across the different monitoring scenarios investigated. In the explored system, species that were more involved in the transmission cycle or preferred by the mosquitoes were not more informative for early warnings.

Implications: Overall, these results indicate that combining multiple data sources into multivariate indicators can help overcome the challenges of data requirements for resilience indicators. The final decision should be based on whether the additional effort is worth the gain in prediction performance. Future studies should confirm these findings in real-world data and estimate the sensitivity, specificity, and lead time of multivariate resilience indicators.

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预测媒介传播疾病暴发的多变量恢复力指标：西尼罗河病毒案例研究。

背景和目的：为了防止传染病的传播，成功的干预措施需要早期发现。实施预防措施的时机至关重要，但由于疫情难以预测，控制工作往往开始得太晚。这适用于蚊媒疾病，其传播的多面性使监测复杂化。弹性指标作为一种通用的、无模型的预警方法进行了研究。然而，大数据需求限制了它们在实践中的使用。在本研究中，我们比较了多元弹性指标的表现，结合了多个数据源中包含的信息，与单变量的表现集中在一个单一的时间序列。此外，通过比较各种监测方案，我们的目标是找出哪些数据源作为早期预警信息最多。方法与结果：西尼罗病毒传播周期复杂，不同宿主和媒介相互作用。在不同的监控场景（包括数据贫乏的场景）下，使用分区模型生成合成数据集。弹性的多变量指标依赖于不同的数据约简技术，如主成分分析（PCA）和最大自相关因子分析（MAF）。多变量指标优于单变量指标，特别是在数据匮乏的情况下，如分辨率降低或观察概率降低。这一发现适用于所调查的不同监测方案。在探索的系统中，更多参与传播周期或蚊虫偏好的物种对早期预警的信息不高。启示：总体而言，这些结果表明，将多个数据源组合成多变量指标有助于克服弹性指标数据需求的挑战。最终的决定应该基于额外的努力是否值得在预测性能上获得收益。未来的研究应该在真实世界的数据中证实这些发现，并估计多变量弹性指标的敏感性、特异性和提前期。

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

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