对健康肺和患病肺的肺泡上皮施加的剪切应力进行预测。

IF 3 3区 医学 Q2 BIOPHYSICS
Alexandros Livanos, Konstantinos Bouchoris, Kyriaki-Evangelia Aslani, Konstantinos Gourgoulianis, Vasilis Bontozoglou
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引用次数: 0

摘要

肺泡被模拟为球形帽,内部衬有一层薄薄的表面活性剂液体膜,并计算了肺泡壁在小振幅径向摆动期间沿上皮施加的周期性壁剪应力。应用于边缘的一组新边界条件揭示了马兰戈尼应力的主要作用。由于界面表面活性剂浓度的空间梯度,这些应力沿着空气/液体界面产生,并在粘度的作用下传递到壁面。研究还探讨了各种几何和功能特征的影响,包括边缘间隙厚度、肺泡开口角度以及液膜厚度和粘度,并结合哮喘发作、肺气肿和肺纤维化等急性和慢性肺部疾病的发生和演变对研究结果进行了讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Prediction of shear stress imposed on alveolar epithelium of healthy and diseased lungs

Lung alveoli are modeled as spherical caps, lined internally by a thin surfactant-laden liquid film, and the periodic wall shear stress exerted along the epithelium during small-amplitude radial oscillations of their wall is computed. A novel set of boundary conditions, applied at the rim, reveals the dominant role of Marangoni stresses. These stresses develop along the air/liquid interface due to spatial gradients of interfacial surfactant concentration and are transported to the wall by the action of viscosity. The effect of a variety of geometric and functional characteristics, including rim interstitial thickness, alveolar opening angle and liquid film thickness and viscosity, is interrogated, and the results are discussed in relation to the onset and evolution of acute and chronic lung diseases, such as asthmatic attacks, pulmonary emphysema and pulmonary fibrosis.

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来源期刊
Biomechanics and Modeling in Mechanobiology
Biomechanics and Modeling in Mechanobiology 工程技术-工程:生物医学
CiteScore
7.10
自引率
8.60%
发文量
119
审稿时长
6 months
期刊介绍: Mechanics regulates biological processes at the molecular, cellular, tissue, organ, and organism levels. A goal of this journal is to promote basic and applied research that integrates the expanding knowledge-bases in the allied fields of biomechanics and mechanobiology. Approaches may be experimental, theoretical, or computational; they may address phenomena at the nano, micro, or macrolevels. Of particular interest are investigations that (1) quantify the mechanical environment in which cells and matrix function in health, disease, or injury, (2) identify and quantify mechanosensitive responses and their mechanisms, (3) detail inter-relations between mechanics and biological processes such as growth, remodeling, adaptation, and repair, and (4) report discoveries that advance therapeutic and diagnostic procedures. Especially encouraged are analytical and computational models based on solid mechanics, fluid mechanics, or thermomechanics, and their interactions; also encouraged are reports of new experimental methods that expand measurement capabilities and new mathematical methods that facilitate analysis.
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