一种针对新冠病毒感染的四室模型——对感染动力学、控制措施和封锁解除策略的影响

A four-compartment model for the COVID-19 infection-implications on infection kinetics, control measures, and lockdown exit strategies.

作者信息

Wang Tianbing, Wu Yanqiu, Lau Johnson Yiu-Nam, Yu Yingqi, Liu Liyu, Li Jing, Zhang Kang, Tong Weiwei, Jiang Baoguo

机构信息

Peking University People's Hospital, Beijing 100044, China.

Department of Applied Biology and Chemical Technology, Hong Kong Polytechnic University, Hong Kong, China.

出版信息

Precis Clin Med. 2020 Jun;3(2):104-112. doi: 10.1093/pcmedi/pbaa018. Epub 2020 May 28.

DOI:10.1093/pcmedi/pbaa018

PMID:35960675

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7313816/

Abstract

OBJECTIVE

To analyse the impact and repercussions of the surge in healthcare demand in response to the COVID-19 pandemic, assess the potential effectiveness of various infection/disease control measures, and make projections on the best approach to exit from the current lockdown.

DESIGN

A four-compartment model was constructed for SARS-CoV-2 infection based on the Wuhan data and validated with data collected in Italy, the UK, and the US. The model captures the effectiveness of various disease suppression measures in three modifiable factors: (a) the per capita contact rate (β) that can be lowered by means of social distancing, (b) infection probability upon contacting infectious individuals that can be lowered by wearing facemasks, personal hygiene, etc., and (c) the population of infectious individuals in contact with the susceptible population, which can be lowered by quarantine. The model was used to make projections on the best approach to exit from the current lockdown.

RESULTS

The model was applied to evaluate the epidemiological data and hospital burden in Italy, the UK, and the US. The control measures were identified as the key drivers for the observed epidemiological data through sensitivity analyses. Analysing the different lockdown exit strategies showed that a lockdown exit strategy with a combination of social separation/general facemask use may work, but this needs to be supported by intense monitoring which would allow re-introduction/tightening of the control measures if the number of new infected subjects increases again.

CONCLUSIONS AND RELEVANCE

Governments should act early in a swift and decisive manner for containment policies. Any lockdown exit will need to be monitored closely, with regards to the potential of lockdown reimplementation. This mathematical model provides a framework for major pandemics in the future.

摘要

目的

分析因应对新冠疫情导致的医疗需求激增所产生的影响及后果，评估各种感染/疾病控制措施的潜在有效性，并预测从当前封锁状态中解除的最佳方法。

设计

基于武汉的数据构建了一个针对新冠病毒感染的四分区模型，并用在意大利、英国和美国收集的数据进行了验证。该模型在三个可调整因素中体现了各种疾病抑制措施的有效性：（a）人均接触率（β），可通过社交距离措施降低；（b）接触感染个体时的感染概率，可通过佩戴口罩、个人卫生等措施降低；（c）与易感人群接触的感染个体数量，可通过隔离降低。该模型用于预测从当前封锁状态中解除的最佳方法。

结果

该模型被用于评估意大利、英国和美国的流行病学数据及医院负担。通过敏感性分析确定控制措施是观察到的流行病学数据的关键驱动因素。对不同的封锁解除策略进行分析表明，结合社交隔离/普遍佩戴口罩的封锁解除策略可能有效，但这需要通过密集监测来支持，以便在新感染病例数再次增加时能够重新引入/加强控制措施。

结论及意义

政府应尽早迅速果断地采取遏制政策。任何封锁的解除都需要密切监测，考虑到重新实施封锁的可能性。这个数学模型为未来的重大疫情提供了一个框架。

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一种针对新冠病毒感染的四室模型——对感染动力学、控制措施和封锁解除策略的影响

A four-compartment model for the COVID-19 infection-implications on infection kinetics, control measures, and lockdown exit strategies.

作者信息

机构信息

出版信息

OBJECTIVE

DESIGN

RESULTS

CONCLUSIONS AND RELEVANCE

目的

设计

结果

结论及意义

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