Flow dynamics in models of intracranial terminal aneurysms.

Alvaro Valencia
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Abstract

Flow dynamics play an important role in the pathogenesis and treatment of intracranial aneurysms. The evaluation of the velocity field in the aneurysm dome and neck is important for the correct placement of endovascular coils, and the temporal and spatial variations of wall shear stress in the aneurysm are correlated with its growth and rupture. This numerical investigation describes the hemodynamic in two models of terminal aneurysm of the basilar artery. Aneurysm models with a aspect ratio of 1.0 and 1.67 were studied. Each model was subject to physiological representative waveform of inflow for a mean Reynolds number of 560. The effects of symmetric and asymmetric outflow conditions in the branches were studied. The three dimensional continuity and Navier-Stokes equations for incompressible, unsteady laminar flow with Newtonian properties were solved with a commercial software using non structured fine grids with 197807 and 202515 tetrahedral cells for the model 1 and 2 respectively. The flow shows complex vortex structure in both models, the inflow and outflow zones in the aneurysm neck were determined. The wall shear stress on the aneurysm showed big temporal and spatial variations. The asymmetric outflow increased the wall shear stress on the aneurysm only in model 1.

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颅内末梢动脉瘤模型的血流动力学。
血流动力学在颅内动脉瘤的发病和治疗中起着重要的作用。动脉瘤顶部和颈部的速度场评价对血管内线圈的正确放置有重要意义,动脉瘤壁面剪应力的时空变化与动脉瘤生长和破裂有关。本数值研究描述了两种基底动脉终末动脉瘤模型的血流动力学。研究宽高比为1.0和1.67的动脉瘤模型。每个模型均受平均雷诺数为560的入流生理代表性波形影响。研究了分支中对称和非对称流出条件的影响。采用商用软件对模型1和模型2分别采用197807和202515四面体单元的非结构化精细网格,求解了具有牛顿性质的不可压缩非定常层流的三维连续性方程和Navier-Stokes方程。两种模型的血流均表现为复杂的涡结构,确定了动脉瘤颈部的流入区和流出区。动脉瘤壁面剪应力表现出较大的时空变化。非对称流出只在模型1中增加了动脉瘤壁面剪应力。
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