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降低 COVID-19 的基本再生数:一项基于 QALYs、住院、生产力成本和最佳(软性)封锁的模型模拟。

Reducing the basic reproduction number of COVID-19: a model simulation focused on QALYs, hospitalisation, productivity costs and optimal (soft) lockdown.

机构信息

Health Economics and Health Technology Assessment, School of Health & Wellbeing, University of Glasgow, Glasgow, United Kingdom.

HCD Economics, Daresbury, United Kingdom.

出版信息

Eur J Health Econ. 2023 Jun;24(4):647-659. doi: 10.1007/s10198-022-01500-7. Epub 2022 Aug 2.

DOI:10.1007/s10198-022-01500-7
PMID:35916992
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9344232/
Abstract

Even if public health interventions are successful at reducing the spread of COVID-19, there is no guarantee that they will bring net benefits to the society because of the dynamic nature of the pandemic, e.g., the risk of a second outbreak if those interventions are stopped too early, and the costs of a continued lockdown. In this analysis, a discrete-time dynamic model is used to simulate the effect of reducing the effective reproduction number, driven by lockdowns ordered in March 2020 in four European countries (UK, France, Italy and Spain), on QALYs and hospitalisation costs. These benefits are valued in monetary terms (€30,000 per QALY assumed) and compared to productivity costs due to reduced economic activity during the lockdown. An analysis of the optimal duration of lockdown is performed where a net benefit is maximised. The switch to a soft lockdown is analysed and compared to a continued lockdown or no intervention. Results vary for two assumptions about hospital capacity of the health system: (a) under unlimited capacity, average benefit ranges from 8.21 to 14.21% of annual GDP, for UK and Spain, respectively; (b) under limited capacity, average benefits are higher than 30.32% of annual GDP in all countries. The simulation results imply that the benefits of lockdown are not substantial unless continued until vaccination of high-risk groups is complete. It is illustrated that lockdown may not bring net benefits under some scenarios and a soft lockdown will be a more efficient alternative from mid-June 2020 only if the basic reproduction number is maintained low (not necessarily below 1) and productivity costs are sufficiently reduced.

摘要

即使公共卫生干预措施成功地减少了 COVID-19 的传播,也不能保证它们会给社会带来净效益,因为大流行的性质是动态的,例如,如果过早停止干预措施,可能会有第二波疫情爆发的风险,以及持续封锁的成本。在这项分析中,使用离散时间动态模型来模拟 2020 年 3 月在四个欧洲国家(英国、法国、意大利和西班牙)下令封锁对有效繁殖数的影响,以 QALY 和住院费用为衡量标准。这些收益以货币形式(假设每 QALY 价值 30,000 欧元)进行评估,并与封锁期间因经济活动减少而产生的生产力成本进行比较。对封锁的最佳持续时间进行了分析,以实现净效益最大化。还分析并比较了向软封锁的转变与持续封锁或不干预的情况。基于对卫生系统医院容量的两种假设,结果有所不同:(a)在无限容量的情况下,英国和西班牙的平均收益分别占年度 GDP 的 8.21%至 14.21%;(b)在有限容量的情况下,所有国家的平均收益均高于年度 GDP 的 30.32%。模拟结果表明,除非继续封锁直到高风险人群接种疫苗完成,否则封锁的收益不会很大。结果表明,在某些情况下,封锁可能不会带来净效益,只有在基本繁殖数保持较低(不一定低于 1)且生产力成本得到充分降低的情况下,从 2020 年 6 月中旬开始,软封锁才是一种更有效的替代方案。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1e23/10175415/524f1701a999/10198_2022_1500_Fig5_HTML.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1e23/10175415/524f1701a999/10198_2022_1500_Fig5_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1e23/10175415/08d71e8670c4/10198_2022_1500_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1e23/10175415/091bcb28548e/10198_2022_1500_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1e23/10175415/d5bddaec834a/10198_2022_1500_Fig3_HTML.jpg
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