使用THINkS对 Willis 环中血流特性进行一维模拟。

1D simulation of blood flow characteristics in the circle of Willis using THINkS.

作者信息

Huang George P, Yu Hongtao, Yang Zifeng, Schwieterman Ryan, Ludwig Bryan

机构信息

a Department of Mechanical and Materials Engineering , Wright State University , Dayton , OH , USA.

b Boonshoft School of Medicine, Wright State University , Dayton , OH , USA.

出版信息

Comput Methods Biomech Biomed Engin. 2018 Mar;21(4):389-397. doi: 10.1080/10255842.2018.1468439.

DOI:10.1080/10255842.2018.1468439

PMID:29722571

Abstract

One-dimensional (1D) simulation of the complete vascular network, so called THINkS (Total Human Intravascular Network Simulation) is developed to investigate changes of blood flow characteristics caused by the variation of CoW. THINkS contains 158 major veins, 85 major arteries, and 77 venous and 43 arterial junctions. THINkS is validated with available in vivo blood flow waveform data. The overall trends of flow rates in variations of the CoW, such as the missing anterior cerebral artery (missing-A1) or missing posterior cerebral artery (missing-P1), are confirmed by in vivo experimental data. It is demonstrated that the CoW has the ability to shunt blood flow to different areas in the brain. Flow rates in efferent arteries remain unaffected under the variation of CoW, while the flow rates in afferent vessels can be subject to substantial changes. The redistribution of blood flow can cause particular vessels to undergo extra flow rate and hemodynamic stresses.

摘要

开发了完整血管网络的一维（1D）模拟，即所谓的THINkS（全人类血管内网络模拟），以研究由大脑动脉环（CoW）变化引起的血流特性变化。THINkS包含158条主要静脉、85条主要动脉以及77个静脉和43个动脉交汇处。THINkS通过可用的体内血流波形数据进行了验证。体内实验数据证实了大脑动脉环变化（如大脑前动脉缺失-A1或大脑后动脉缺失-P1）时血流速度的总体趋势。结果表明，大脑动脉环具有将血流分流到大脑不同区域的能力。在大脑动脉环变化的情况下，传出动脉的血流速度保持不变，而传入血管的血流速度可能会发生显著变化。血流的重新分布可能会导致特定血管承受额外的血流速度和血流动力学应力。

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使用THINkS对 Willis 环中血流特性进行一维模拟。

1D simulation of blood flow characteristics in the circle of Willis using THINkS.

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