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前交通动脉瘤的患者特异性计算流体动力学建模:一项关于瘤内血流模式对颈动脉血流条件敏感性的研究。

Patient-specific computational fluid dynamics modeling of anterior communicating artery aneurysms: a study of the sensitivity of intra-aneurysmal flow patterns to flow conditions in the carotid arteries.

作者信息

Castro M A, Putman C M, Cebral J R

机构信息

College of Sciences, Department of Computational and Data Sciences, George Mason University, Fairfax, VA, USA.

出版信息

AJNR Am J Neuroradiol. 2006 Nov-Dec;27(10):2061-8.

PMID:17110667
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7977194/
Abstract

BACKGROUND AND PURPOSE

The purpose of this study was to investigate the effects of unequal physiologic flow conditions in the internal carotid arteries (ICAs) on the hemodynamics of anterior communicating artery aneurysms.

METHODS

Patient-specific computational fluid dynamics models of 2 cerebral aneurysms were constructed from bilateral 3D rotational angiograms. The flow dynamics of the aneurysm sac were analyzed under the effect of unequal mean flows, phase shifts, and waveforms between the ICAs. A total of 9 simulations were performed for each patient; cine flow velocity simulations and unsteady wall shear stress (WSS) maps were created for each flow condition. Time-dependent curves of average WSS magnitude over selected regions on the aneurysms were constructed.

RESULTS

Mean flow unbalances in the feeding vessels tended to shift the regions of elevated WSS towards the dominating inflow jet and to change the magnitude of the WSS peaks. The overall qualitative appearance of the WSS distribution and velocity simulations was not substantially affected. Phase and waveform asymmetry increased the temporal complexity of the hemodynamic patterns and tended to destabilize the flow pattern.

CONCLUSIONS

Differences in the relative phase and waveform shape in ICAs can significantly affect the complexity and stability of the hemodynamic force distributions. The magnitude of these effects is related to the geometry of the aneurysm and the feeding vessels. Conditions affecting the flow characteristics in the parent arteries of cerebral aneurysms with more than 1 avenue of inflow should be incorporated into flow models.

摘要

背景与目的

本研究旨在探讨颈内动脉(ICA)血流生理条件不均对前交通动脉瘤血流动力学的影响。

方法

根据双侧三维旋转血管造影构建2例脑动脉瘤的个体化计算流体动力学模型。分析了ICA之间平均血流、相移和波形不均等情况下动脉瘤囊内的血流动力学。对每位患者共进行9次模拟;针对每种血流条件创建电影血流速度模拟和非稳态壁面切应力(WSS)图。构建动脉瘤选定区域上平均WSS大小随时间变化的曲线。

结果

供血血管中的平均血流不平衡倾向于将高WSS区域移向占主导的流入射流,并改变WSS峰值的大小。WSS分布和速度模拟的总体定性外观未受到实质性影响。相位和波形不对称增加了血流动力学模式的时间复杂性,并倾向于使血流模式不稳定。

结论

ICA中相对相位和波形形状的差异可显著影响血流动力学力分布的复杂性和稳定性。这些影响的程度与动脉瘤和供血血管的几何形状有关。影响有多条流入途径的脑动脉瘤供血动脉血流特征的条件应纳入血流模型。

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