一种用于模拟支气管分叉处黏液纤毛清除的宏观模型：表面张力的作用。

A Macroscopic Model for Simulating the Mucociliary Clearance in a Bronchial Bifurcation: The Role of Surface Tension.

作者信息

Manolidis Michail, Isabey Daniel, Louis Bruno, Grotberg James B, Filoche Marcel

机构信息

Department of Biomedical Engineering, University of Michigan, Ann Arbor, MI 48109;Laboratoire de Physique de la Matière Condensée, Ecole Polytechnique, CNRS, Université Paris-Saclay, Palaiseau Cedex 91128, France e-mail:

Professor Inserm, U955 (Equipe13) and CNRS ERL 7240, Cell and Respiratory Biomechanics, Université Paris Est, Créteil 94010, France e-mail:

出版信息

J Biomech Eng. 2016 Dec 1;138(12). doi: 10.1115/1.4034507.

DOI:10.1115/1.4034507

PMID:27551810

Abstract

The mucociliary clearance in the bronchial tree is the main mechanism by which the lungs clear themselves of deposited particulate matter. In this work, a macroscopic model of the clearance mechanism is proposed. Lubrication theory is applied for thin films with both surface tension effects and a moving wall boundary. The flow field is computed by the use of a finite-volume scheme on an unstructured grid that replicates a bronchial bifurcation. The carina in bronchial bifurcations is of special interest because it is a location of increased deposition of inhaled particles. In this study, the mucus flow is computed for different values of the surface tension. It is found that a minimal surface tension is necessary for efficiently removing the mucus while maintaining the mucus film thickness at physiological levels.

摘要

支气管树中的黏液纤毛清除是肺部清除沉积颗粒物的主要机制。在这项工作中，提出了一种清除机制的宏观模型。润滑理论应用于具有表面张力效应和移动壁边界的薄膜。通过在非结构化网格上使用有限体积格式来计算流场，该网格复制了支气管分叉。支气管分叉处的隆凸特别受关注，因为它是吸入颗粒沉积增加的部位。在本研究中，针对不同表面张力值计算了黏液流动。结果发现，在将黏液膜厚度维持在生理水平的同时，有效清除黏液需要最小表面张力。

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一种用于模拟支气管分叉处黏液纤毛清除的宏观模型：表面张力的作用。

A Macroscopic Model for Simulating the Mucociliary Clearance in a Bronchial Bifurcation: The Role of Surface Tension.

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