An effectiveness study of vaccination and quarantine combination strategies for containing mpox transmission on simulated college campuses

IF 8.8 3区 医学 Q1 Medicine Infectious Disease Modelling Pub Date : 2024-04-16 DOI:10.1016/j.idm.2024.04.004
Qiangru Huang , Yanxia Sun , Mengmeng Jia , Mingyue Jiang , Yunshao Xu , Luzhao Feng , Weizhong Yang
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Abstract

The ongoing transmission of mpox in specific countries and regions necessitates urgent action. It is essential to implement targeted containment strategies that concentrate on high-risk populations and critical locations, such as college campuses, to effectively curb the spread of mpox. This study is dedicated to evaluating the performance of various vaccination and quarantine strategies in curbing the spread of mpox and estimating the outbreak risk. To accomplish this, we constructed a stochastic, agent-based, discrete-time susceptible-latent-infectious-recovered (SLIR) model, to examine mpox transmission on a simulated college campus. Our findings reveal that relying solely on PEP is insufficient in containing mpox effectively. To bolster the population immunity and protect the vulnerable, pre-exposure vaccination among high-risk populations prior to an outbreak is imperative. Our study demonstrates that a pre-exposure vaccination rate of 50% in high-risk populations can led to a remarkable 74.2% reduction of infections. This translated to a mere 1.0% cumulative infection incidence in the overall population. In cases where the desired vaccination coverage is not attainable, enhancing case detection and isolation measures can serve as an effective emergency response to contain mpox outbreaks. For pre-exposure vaccination coverage of 20% or lower, a 40% isolation ratio is necessary to keep the cumulative number of infections in check. However, when the coverage exceeds 30%, a reduced isolation ratio of 20% becomes sufficient to manage the outbreak effectively. These insights underscore the importance of strategic pre-exposure vaccination in conjunction with robust surveillance and isolation protocols to safeguard public health and prevent the escalation of mpox outbreaks.

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疫苗接种与隔离相结合策略在模拟大学校园遏制麻疹传播的有效性研究
天花在特定国家和地区的持续传播要求我们采取紧急行动。必须实施有针对性的遏制策略,集中应对高危人群和关键地点(如大学校园),以有效遏制天花的传播。本研究致力于评估各种疫苗接种和检疫策略在遏制天花传播和估计疫情风险方面的表现。为此,我们构建了一个基于随机、代理、离散时间的易感-潜伏-感染-恢复(SLIR)模型,以检验天花在模拟大学校园中的传播情况。我们的研究结果表明,仅仅依靠 PEP 并不足以有效遏制天花的传播。为了增强人群免疫力并保护易感人群,在疫情爆发前对高危人群进行暴露前疫苗接种势在必行。我们的研究表明,在高危人群中进行 50%的暴露前疫苗接种可显著减少 74.2% 的感染。这意味着整个人群的累计感染率仅为 1.0%。在无法达到理想疫苗接种覆盖率的情况下,加强病例检测和隔离措施可作为遏制麻痘爆发的有效应急措施。如果暴露前疫苗接种覆盖率为 20% 或更低,则需要 40% 的隔离率来控制累计感染人数。然而,当覆盖率超过 30% 时,降低 20% 的隔离率就足以有效控制疫情。这些见解强调了战略性暴露前疫苗接种与强有力的监控和隔离规程相结合对保障公共卫生和防止麻痘疫情升级的重要性。
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来源期刊
Infectious Disease Modelling
Infectious Disease Modelling Mathematics-Applied Mathematics
CiteScore
17.00
自引率
3.40%
发文量
73
审稿时长
17 weeks
期刊介绍: Infectious Disease Modelling is an open access journal that undergoes peer-review. Its main objective is to facilitate research that combines mathematical modelling, retrieval and analysis of infection disease data, and public health decision support. The journal actively encourages original research that improves this interface, as well as review articles that highlight innovative methodologies relevant to data collection, informatics, and policy making in the field of public health.
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