Stochastic Modeling of Dynamics of the Spread of COVID-19 Infection Taking Into Account the Heterogeneity of Population According To Immunological, Clinical and Epidemiological Criteria

Q3 Mathematics

Mathematical Biology and Bioinformatics Pub Date : 2022-06-20 DOI:10.17537/2022.17.43

N. Pertsev, K. Loginov, A. Lukashev, Y. Vakulenko

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引用次数: 3

Abstract

Here we present a stochastic model of the spread of Covid-19 infection in a certain region. The model is a continuous-discrete random process that takes into account a number of parallel processes, such as the non-stationary influx of latently infected individuals into the region, the passage by individuals of various stages of an infectious disease, the vaccination of the population, and the re-infection of some of the recovered and vaccinated individuals. The duration of stay of individuals in various stages of an infectious disease is described using distributions other than exponential. An algorithm for numerical statistical modeling of the dynamics of the spread of infection among the population of the region based on the Monte Carlo method has been developed. To calibrate the model, we used data describing the level of seroprevalence of the population of the Novosibirsk Region in the first wave of the Covid-19 epidemic in 2020. The results of computational experiments with the model are presented for studying the dynamics of the spread of infection under vaccination of the population of the region.

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根据免疫学、临床和流行病学标准考虑人群异质性的COVID-19感染传播动力学随机建模

在这里，我们提出了Covid-19感染在某一地区传播的随机模型。该模型是一个连续离散的随机过程，它考虑了许多平行过程，如潜伏感染个体进入该地区的非平稳流入，传染病不同阶段的个体通过，群体的疫苗接种，以及一些恢复和接种疫苗的个体的再次感染。个体在传染病不同阶段的停留时间使用分布而不是指数来描述。提出了一种基于蒙特卡罗方法的传染病传播动态数值统计建模算法。为了校准模型，我们使用了描述2020年第一波Covid-19流行期间新西伯利亚地区人口血清患病率水平的数据。给出了该模型的计算实验结果，用于研究该地区人群接种疫苗时感染传播的动力学。

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

Mathematical Biology and Bioinformatics Mathematics-Applied Mathematics

CiteScore

1.10

自引率

0.00%

发文量