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A Hybrid Agent Based and Differential Equation Model of Body Size Effects on Pathogen Replication and Immune System Response

机译：基于混合代理的体型对病原体复制和免疫系统反应的影响的微分方程模型

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摘要

Many emerging pathogens infect multiple host species [1], and multi-host pathogens may have very different dynamics in different host species [2]. This research addresses how pathogen replication rates and Immune System (IS) response times are constrained by host body size. An Ordinary Differential Equation (ODE) model is used to show that pathogen replication rates decline with host body size but IS response rates remain invariant with body size. An Agent-Based Model (ABM) is used to investigate two models of IS architecture that could explain scale invariance of IS response rates. A stage structured hybrid model is proposed that strikes a balance between the detailed representation of an ABM and computational tractability of an ODE, by using them in the initial and latter stages of an infection, respectively.

机译：许多新兴病原体感染多种宿主物种[1]，而多宿主病原体在不同宿主物种中可能具有非常不同的动态[2]。这项研究解决了病原体复制率和免疫系统（IS）反应时间如何受宿主体大小限制。使用常微分方程（ODE）模型显示病原体复制率随宿主体大小而下降，但IS反应率随体大小保持不变。基于代理的模型（ABM）用于研究IS体系结构的两个模型，这些模型可以解释IS响应率的规模不变性。提出了一种阶段结构的混合模型，该模型通过在感染的初始阶段和后期阶段分别使用ABM的详细表示和ODE的计算可处理性之间取得平衡。

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来源
《Artificial immune systems》|2009年|14-18|共5页
会议地点 York(GB);York(GB)
作者
Soumya Banerjee; Melanie E. Moses;
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作者单位

Dept. of Computer Science, University of New Mexico, Albuquerque, New Mexico;

Dept. of Computer Science, University of New Mexico, Albuquerque, New Mexico;

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会议组织
原文格式 PDF
正文语种 eng
中图分类免疫遗传学;
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专利

1. Modelling the effects of phylogeny and body size on within-host pathogen replication and immune response [J] . Banerjee Soumya, Perelson Alan S., Moses Melanie Journal of the Royal Society Interface . 2017,第136期

机译：构建系统发育和体积对宿主内病原体复制和免疫应答的影响
2. Modelling the effects of phylogeny and body size on within-host pathogen replication and immune response [J] . Banerjee Soumya, Perelson Alan S., Moses Melanie Journal of the Royal Society Interface . 2017,第136期

机译：构建系统发育和体积对宿主内病原体复制和免疫应答的影响
3. Stability Analysis of Mathematical Model including Pathogen-Specific Immune System Response with Fractional-Order Differential Equations [J] . Bahatdin Daba Computational and mathematical methods in medicine . 2018,第5期

机译：具有分数阶微分方程的特定病原体免疫系统响应数学模型的稳定性分析
4. A Hybrid Agent Based and Differential Equation Model of Body Size Effects on Pathogen Replication and Immune System Response [C] . Soumya Banerjee, Melanie E. Moses International Conference on Artificial Immune Systems . 2009

机译：基于杂化剂的体积效应杂交剂和微分方程模型对病原体复制和免疫系统应答
5. Modeling the artificial immune system to the human immune system with the use of agents. [D] . Barrishi, Bashar. 2004

机译：使用代理将人工免疫系统建模为人类免疫系统。
6. Modelling the effects of phylogeny and body size on within-host pathogen replication and immune response [O] . Soumya Banerjee, Alan S. Perelson, Melanie Moses 2017

机译：系统发育和体型对宿主内病原体复制和免疫反应的影响建模
7. A Hybrid Agent Based and Differential Equation Model of Body Size Effects on Pathogen Replication and Immune System Response [O] . Banerjee, Soumya, Moses, Melanie 2009

机译：基于混合智能体的体尺度微分方程模型对病原体复制和免疫系统反应的影响
8. Comparison of the Immune Response To Coxiella burnetii and Burkholderia mallei in Balb/C Mice: A Differential Response by Two Diverse Biological Agents; Conference paper [R] . Amemiya, K., Bush, G. V., DeShazer, D., 2003

机译：Balb / C小鼠对Coxiella burnetii和Burkholderia mallei的免疫应答比较：两种不同生物制剂的差异反应;会议文件

A Hybrid Agent Based and Differential Equation Model of Body Size Effects on Pathogen Replication and Immune System Response

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