Effects of vaccination on the two-strain transmission dynamics of COVID-19: Dougherty County, Georgia, USA, as a case study.

Buddhi Pantha, Jemal Mohammed-Awel, Naveen K Vaidya
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Abstract

The emergence of multiple strains of SARS-COV-2 has made it complicated to predict and control the COVID-19 pandemic. Although some vaccines have been effective in reducing the severity of the disease, these vaccines are designed for a specific strain of the virus and are usually less effective for other strains. In addition, the waning of vaccine-induced immunity, reinfection of recovered people, and incomplete vaccination are challenging to the vaccination program. In this study, we developed a detailed model to describe the multi-strain transmission dynamics of COVID-19 under vaccination. We implemented our model to examine the impact of inter-strain transmission competition under vaccination on the critical outbreak indicators: hospitalized cases, undiagnosed cases, basic reproduction numbers, and the overtake-time by a new strain to the existing strain. In particular, our results on the dependence of the overtake-time on vaccination rates, progression-to-infectious rate, and relative transmission rates provide helpful information for managing a pandemic with circulating two strains. Furthermore, our results suggest that a reduction in the relative transmission rates and a decrease in vaccination dropout rates or an increase in vaccination rates help keep the reproduction number of both strains below unity and keep the number of hospitalized cases and undiagnosed cases at their lowest levels. Moreover, our analysis shows that the second and booster-dose vaccinations are useful for further reducing the reproduction number.

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疫苗接种对COVID-19两株传播动态的影响:以美国乔治亚州多尔蒂县为例
多种SARS-COV-2毒株的出现,给COVID-19大流行的预测和控制带来了困难。虽然有些疫苗在降低疾病严重程度方面有效,但这些疫苗是针对特定病毒株设计的,通常对其他病毒株效果较差。此外,疫苗引起的免疫力下降、康复者的再感染以及疫苗接种不完全都是疫苗接种计划面临的挑战。在这项研究中,我们建立了一个详细的模型来描述疫苗接种下COVID-19的多株传播动力学。我们实施了我们的模型来检验疫苗接种下菌株间传播竞争对关键暴发指标的影响:住院病例、未诊断病例、基本繁殖数和新菌株对现有菌株的超越时间。特别是,我们的研究结果表明,疫苗接种率、进展到传染率和相对传播率对接管时间的依赖性为管理两种病毒流行的大流行提供了有用的信息。此外,我们的研究结果表明,相对传播率的降低和疫苗辍接率的降低或疫苗接种率的增加有助于使两种菌株的繁殖数量保持在统一以下,并使住院病例和未确诊病例数保持在最低水平。此外,我们的分析表明,第二剂和加强剂疫苗对进一步减少繁殖数量是有用的。
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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