Within-host infection dynamics with master equations and the method of moments: A case study of human papillomavirus in the epithelium

arXiv - QuanBio - Populations and Evolution Pub Date : 2024-08-09 DOI:arxiv-2408.05298

Mariah C. Boudreau, Jamie A. Cohen, Laurent Hébert-Dufresne

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Abstract

Master equations provide researchers with the ability to track the distribution over possible states of a system. From these equations, we can summarize the temporal dynamics through a method of moments. These distributions and their moments capture the stochastic nature of a system, which is essential to study infectious diseases. In this paper, we define the states of the system to be the number of infected cells of a given type in the epithelium, the hollow organ tissue in the human body. Epithelium found in the cervix provides a location for viral infections to live and persist, such as human papillomavirus (HPV). HPV is a highly transmissible disease which most commonly affects biological females and has the potential to progress into cervical cancer. By defining a master equation model which tracks the infected cell layer dynamics, information on disease extinction, progression, and viral output can be derived from the method of moments. From this methodology and the outcomes we glean from it, we aim to inform differing states of HPV infected cells, and assess the effects of structural information for each outcome.

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使用主方程和矩量法的宿主内感染动力学：上皮细胞中人类乳头瘤病毒的案例研究

主方程为研究人员提供了跟踪系统可能状态分布的能力。从这些方程中，我们可以通过矩方法总结出时间动态。分布及其矩捕捉到了系统的随机性质，这对研究传染病至关重要。在本文中，我们将系统的状态定义为人体中空器官组织--上皮细胞中特定类型的受感染细胞数量。宫颈上皮为病毒感染（如人类乳头瘤病毒（HPV））提供了生存和持续存在的场所。人乳头瘤病毒是一种传播性极强的疾病，最常见于生物女性，并有可能发展成宫颈癌。通过定义一个跟踪受感染细胞层动态的主方程模型，可以用矩法得出疾病消亡、发展和病毒输出的信息。从这一方法及其得出的结果中，我们旨在了解 HPV 感染细胞的不同状态，并评估结构信息对每种结果的影响。

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arXiv - QuanBio - Populations and Evolution

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