颈动脉狭窄分叉处过渡流的直接数值模拟。

Direct numerical simulation of transitional flow in a stenosed carotid bifurcation.

作者信息

Lee Seung E, Lee Sang-Wook, Fischer Paul F, Bassiouny Hisham S, Loth Francis

机构信息

Department of Mechanical Engineering, Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, MA 02139, USA.

出版信息

J Biomech. 2008 Aug 7;41(11):2551-61. doi: 10.1016/j.jbiomech.2008.03.038. Epub 2008 Jul 24.

DOI:10.1016/j.jbiomech.2008.03.038

PMID:18656199

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3279123/

Abstract

The blood flow dynamics of a stenosed, subject-specific, carotid bifurcation were numerically simulated using the spectral element method. Pulsatile inlet conditions were based on in vivo color Doppler ultrasound measurements of blood velocity. The results demonstrated the transitional or weakly turbulent state of the blood flow, which featured rapid velocity and pressure fluctuations in the post-stenotic region of the internal carotid artery (ICA) during systole and laminar flow during diastole. High-frequency vortex shedding was greatest downstream of the stenosis during the deceleration phase of systole. Velocity fluctuations had a frequency within the audible range of 100-300Hz. Instantaneous wall shear stress (WSS) within the stenosis was relatively high during systole ( approximately 25-45Pa) compared to that in a healthy carotid. In addition, high spatial gradients of WSS were present due to flow separation on the inner wall. Oscillatory flow reversal and low pressure were observed distal to the stenosis in the ICA. This study predicts the complex flow field, the turbulence levels and the distribution of the biomechanical stresses present in vivo within a stenosed carotid artery.

摘要

采用谱元法对特定个体的狭窄颈动脉分叉处的血流动力学进行了数值模拟。脉动入口条件基于体内彩色多普勒超声对血流速度的测量。结果表明血流处于过渡或弱湍流状态，其特征是在收缩期颈内动脉（ICA）狭窄后区域血流速度和压力快速波动，而在舒张期为层流。在收缩期减速阶段，狭窄下游的高频涡旋脱落最为明显。速度波动的频率在100 - 300Hz的可听范围内。与健康颈动脉相比，狭窄处的瞬时壁面切应力（WSS）在收缩期相对较高（约25 - 45Pa）。此外，由于内壁上的流动分离，存在较高的WSS空间梯度。在ICA狭窄远端观察到振荡性血流逆转和低压。本研究预测了狭窄颈动脉内体内存在的复杂流场、湍流水平和生物力学应力分布。

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