We are all different: Modeling key individual differences in physiological systems

IF 1.9 4区数学 Q2 BIOLOGY

Mathematical Biosciences Pub Date : 2024-10-29 DOI:10.1016/j.mbs.2024.109338

Anita T. Layton

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引用次数: 0

Abstract

Mathematical models of whole-body dynamics have advanced our understanding of human integrative systems that regulate physiological processes such as metabolism, temperature, and blood pressure. For most of these whole-body models, baseline parameters describe a 35-year-old young adult man who weighs 70 kg. As such, even among adults those models may not accurately represent half of the population (women), the older population, and those who weigh significantly more than 70 kg. Indeed, sex, age, and weight are known modulators of physiological function. To more accurately simulate a person who does not look like that “baseline person,” or to explain the mechanisms that yield the observed sex or age differences, these factors should be incorporated into mathematical models of physiological systems. Another key modulator is the time of day, because most physiological processes are regulated by the circadian clocks. Thus, ideally, mathematical models of integrative physiological systems should be specific to either a man or woman, of a certain age and weight, and a given time of day. We illustrate the importance of capturing these individual differences, using the blood pressure regulatory system as an example, and explain how that such models can be built.

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我们都与众不同：生理系统的关键个体差异建模。

全身动力学数学模型促进了我们对调节新陈代谢、体温和血压等生理过程的人体综合系统的了解。对于大多数全身模型来说，基线参数描述的是体重 70 公斤的 35 岁年轻成年男子。因此，即使在成年人中，这些模型也可能无法准确代表半数人口（女性）、老年人口和体重明显超过 70 公斤的人群。事实上，性别、年龄和体重是已知的生理功能调节因素。为了更准确地模拟与 "基线人 "不一样的人，或解释产生所观察到的性别或年龄差异的机制，这些因素应被纳入生理系统的数学模型中。另一个关键的调节因素是一天中的时间，因为大多数生理过程都受昼夜节律调节。因此，理想情况下，综合生理系统的数学模型应针对特定年龄、体重和特定时间的男性或女性。我们以血压调节系统为例，说明了捕捉这些个体差异的重要性，并解释了如何建立此类模型。

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 Biosciences 生物-生物学

CiteScore

7.50

自引率

2.30%

发文量

审稿时长

18 days

期刊介绍： Mathematical Biosciences publishes work providing new concepts or new understanding of biological systems using mathematical models, or methodological articles likely to find application to multiple biological systems. Papers are expected to present a major research finding of broad significance for the biological sciences, or mathematical biology. Mathematical Biosciences welcomes original research articles, letters, reviews and perspectives.