Analytical insights of the effects of Non-Pharmaceutical Interventions on SRAS-CoV-2 Dynamic with Application to West African Data

IF 0.6 Q3 MATHEMATICS
Kassifou Traore, Djideme F. Houenou, Romain Glèlè Kakaï
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Abstract

The COVID-19 pandemic was caused by the rapid spread of a new coronavirus (SARS-CoV-2) worldwide. COVID-19 pandemic mitigation measures caused significant social and economic disruption, especially in regions with weak economic and fragile healthcare systems like West Africa. Therefore, accurate knowledge of the impact of these measures on its dynamics is important in decision-making. In this study, we formulated and used a deterministic compartmental model, considering two sub-classes of susceptible individuals (S1 and S2), where S1 is the population living around the epicenter of the epidemic and S2 is the population living far from the epicenter of the epidemic. The aim was to (i) theoretically assess the impact of measures reducing the transmission rate of the disease (ψ) on the epidemic dynamics and (ii) analyze the impact of measures reducing the probability of contact between infected and susceptible individuals (detection and isolation rates, θap, θs) on the epidemic dynamics. We determined the expressions of the basic and control reproduction numbers and studied the sensitivity and elasticity of the control reproduction number with respect to ψ, θap, θs, and heterogeneity factor, k(S1/S2). Application to the COVID-19 first-wave data from West Africa revealed that the basic reproduction number was 1.85. Moreover, the results indicated that a 50% reduction in the transmission rate of COVID-19 or the detection and isolation of 10% of infected individuals per day should help to reach the peak of the epidemic. Furthermore, a 100% increase in the heterogeneity factor induces a 16% increase in the control reproduction number when θap = 0.15 and a 14% increase in the control reproduction number when θap = 0.6. These conclusions could help design control measures to curtail future epidemics.
应用西非数据分析非药物干预对 SRAS-CoV-2 动态的影响
COVID-19 大流行是由一种新型冠状病毒(SARS-CoV-2)在全球迅速传播引起的。COVID-19 大流行的缓解措施造成了严重的社会和经济混乱,尤其是在西非等经济薄弱、医疗保健系统脆弱的地区。因此,准确了解这些措施对其动态的影响对决策非常重要。在本研究中,我们制定并使用了一个确定性分区模型,考虑了两个亚类的易感个体(S1 和 S2),其中 S1 是生活在疫情震中附近的人群,S2 是生活在远离疫情震中的人群。我们的目的是:(i) 从理论上评估降低疾病传播率(ψ)的措施对疫情动态的影响;(ii) 分析降低感染者和易感个体之间接触概率(检测率和隔离率,θap,θs)的措施对疫情动态的影响。我们确定了基本繁殖数和控制繁殖数的表达式,并研究了控制繁殖数对ψ、θap、θs和异质性因子k(S1/S2)的敏感性和弹性。对西非 COVID-19 第一波数据的应用表明,基本繁殖数为 1.85。此外,研究结果表明,如果 COVID-19 的传播率降低 50%,或每天发现并隔离 10%的感染者,就能帮助达到疫情高峰。此外,当θap=0.15时,异质性因子增加100%会导致控制繁殖数增加16%,当θap=0.6时,控制繁殖数增加14%。这些结论有助于设计控制措施,以遏制未来的流行病。
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
CiteScore
0.60
自引率
33.30%
发文量
0
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