疟疾的多物种和菌株的动态

Q3 Mathematics

Letters in Biomathematics Pub Date : 2016-01-01 DOI:10.1080/23737867.2016.1157449

E. Agyingi, M. Ngwa, T. Wiandt

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引用次数: 8

摘要

疟疾是一种由蚊子传播的威胁生命的疾病，本文提出了疟疾传播动力学的确定性SIS模型。已知四种疟原虫属寄生虫可引起人类疟疾。某些种类的寄生虫已经进化成对治疗有抗药性的菌株。虽然不同地理区域间疟原虫种类的比例差异很大，但在一些群落内确实存在多种和多种菌株共存。这里导出的数学模型包括了给定群落的所有可用物种和品系。该模型具有无病平衡点，当每个物种或品系的繁殖数小于1时，该平衡点为全局吸引子。该模型具有准地方性均衡;建立了两个物种的局部渐近稳定性，数值模拟表明繁殖数量最高的物种或品系表现出竞争排斥。

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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The dynamics of multiple species and strains of malaria

This paper presents a deterministic SIS model for the transmission dynamics of malaria, a life-threatening disease transmitted by mosquitos. Four species of the parasite genus Plasmodium are known to cause human malaria. Some species of the parasite have evolved into strains that are resistant to treatment. Although proportions of Plasmodium species vary considerably between geographic regions, multiple species and strains do coexist within some communities. The mathematical model derived here includes all available species and strains for a given community. The model has a disease-free equilibrium, which is a global attractor when the reproduction number of each species or strain is less than one. The model possesses quasi-endemic equilibria; local asymptotic stability is established for two species, and numerical simulations suggest that the species or strain with the highest reproduction number exhibits competitive exclusion.

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来源期刊

Letters in Biomathematics Mathematics-Statistics and Probability

CiteScore

2.00

自引率

0.00%

发文量

审稿时长

14 weeks