Adipose tissue in the small airways: How much is enough to drive functional changes?

IF 2 4区数学 Q2 BIOLOGY Journal of Theoretical Biology Pub Date : 2024-07-07 Epub Date: 2024-04-20 DOI:10.1016/j.jtbi.2024.111835

Graham M. Donovan , Carolyn J. Wang , Peter B. Noble , Kimberley C.W. Wang

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Abstract

Obesity is a contributing factor to asthma severity; while it has long been understood that obesity is related to greater asthma burden, the mechanisms though which this occurs have not been fully elucidated. One common explanation is that obesity mechanically reduces lung volume through accumulation of adipose tissue external to the thoracic cavity. However, it has been recently demonstrated that there is substantial adipose tissue within the airway wall itself, and that the presence of adipose tissue within the airway wall is related to body mass index. This suggests the possibility of an additional mechanism by which obesity may worsen asthma, namely by altering the behaviour of the airways themselves. To this end, we modify Anafi & Wilson’s classic model of the bistable terminal airway to incorporate adipose tissue within the airway wall in order to answer the question of how much adipose tissue would be required in order to drive substantive functional changes. This analysis suggests that adipose tissue within the airway wall on the order of 1%–2% of total airway cross-sectional area could be sufficient to drive meaningful changes, and further that these changes may interact with volume effects to magnify the overall burden.

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小气道中的脂肪组织：多少才足以驱动功能变化？

肥胖是导致哮喘严重程度的一个因素；虽然人们早就知道肥胖与哮喘负担加重有关，但其发生机制尚未完全阐明。一种常见的解释是，肥胖会使胸腔外的脂肪组织堆积，从而机械性地减少肺容量。然而，最近有研究表明，气道壁本身就存在大量脂肪组织，而且气道壁内脂肪组织的存在与体重指数有关。这表明肥胖可能是导致哮喘恶化的另一种机制，即通过改变气道本身的行为。为此，我们修改了 Anafi & Wilson 的经典双稳态末端气道模型，将脂肪组织纳入气道壁，以回答需要多少脂肪组织才能驱动实质性功能变化的问题。该分析表明，气道壁内的脂肪组织约占气道总横截面积的 1%-2%，就足以驱动有意义的变化，而且这些变化可能会与体积效应相互作用，从而放大整体负担。

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

Journal of Theoretical Biology 生物-生物学

CiteScore

4.20

自引率

5.00%

发文量

218

审稿时长

51 days

期刊介绍： The Journal of Theoretical Biology is the leading forum for theoretical perspectives that give insight into biological processes. It covers a very wide range of topics and is of interest to biologists in many areas of research, including: • Brain and Neuroscience • Cancer Growth and Treatment • Cell Biology • Developmental Biology • Ecology • Evolution • Immunology, • Infectious and non-infectious Diseases, • Mathematical, Computational, Biophysical and Statistical Modeling • Microbiology, Molecular Biology, and Biochemistry • Networks and Complex Systems • Physiology • Pharmacodynamics • Animal Behavior and Game Theory Acceptable papers are those that bear significant importance on the biology per se being presented, and not on the mathematical analysis. Papers that include some data or experimental material bearing on theory will be considered, including those that contain comparative study, statistical data analysis, mathematical proof, computer simulations, experiments, field observations, or even philosophical arguments, which are all methods to support or reject theoretical ideas. However, there should be a concerted effort to make papers intelligible to biologists in the chosen field.

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