Physiological flow waveform in a rigid elliptical vessel.

IMA journal of mathematics applied in medicine and biology Pub Date : 2001-03-01 DOI:10.1093/IMAMMB/18.1.77

M. Robertson, U. Köhler

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引用次数: 2

Abstract

A procedure to model the velocity and wall shear stress for a physiological flow in a non-cylindrical vessel is presented. The work describes how a vessel with an elliptical cross section may be used to represent flow in compressed or partially occluded arteries and veins. The procedure was applied to produce a simulation of a physiological flow in a straight rigid vessel with a slightly elliptical cross section (ellipticity, epsilon = 0.8). Fourier analysis was performed on a physiological flow waveform. Flow in the common carotid artery was satisfactorily represented (Pearson correlation coefficient, r > 95%) with a series of five harmonic terms. Expressions involving a linear combination of ordinary and modified Mathieu functions were used to describe the velocity and wall shear stress for each harmonic. An outline of the procedure, and the expressions, which were used to compute the characteristic Mathieu numbers and coefficients is illustrated with their behaviour at the fundamental and Nyquist frequencies. Superposition of the individual contributions to the velocity and wall shear stress allowed the calculation of the overall properties of the flow.

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刚性椭圆血管的生理血流波形。

提出了一种模拟非圆柱形容器内生理流动的速度和壁面剪应力的方法。这项工作描述了如何用椭圆横截面的血管来表示压缩或部分闭塞的动脉和静脉的流动。该程序被应用于产生一个生理流动的模拟，在一个直的刚性血管有一个略椭圆的横截面(椭圆度，epsilon = 0.8)。对生理血流波形进行傅里叶分析。颈总动脉的血流用一系列的五谐波项令人满意地表示(Pearson相关系数，r > 95%)。采用普通和修正Mathieu函数的线性组合表达式来描述各次谐波的速度和壁面剪应力。本文概述了计算特征马蒂厄数和系数的过程和表达式，并说明了它们在基频和奈奎斯特频率下的行为。对速度和壁面剪切应力的单独贡献的叠加可以计算出流动的总体特性。

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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IMA journal of mathematics applied in medicine and biology

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