Kim Minsuok, Taulbee Dale B, Tremmel Markus, Meng Hui
Department of Mechanical and Aerospace Engineering, University at Buffalo, State University of New York, Buffalo, NY 14260, USA.
Ann Biomed Eng. 2008 May;36(5):726-41. doi: 10.1007/s10439-008-9449-4. Epub 2008 Feb 9.
There is a general lack of quantitative understanding about how specific design features of endovascular stents (struts and mesh design, porosity) affect the hemodynamics in intracranial aneurysms. To shed light on this issue, we studied two commercial high-porosity stents (Tristar stent and Wallstent) in aneurysm models of varying vessel curvature as well as in a patient-specific model using Computational Fluid Dynamics. We investigated how these stents modify hemodynamic parameters such as aneurysmal inflow rate, stasis, and wall shear stress, and how such changes are related to the specific designs. We found that the flow damping effect of stents and resulting aneurysmal stasis and wall shear stress are strongly influenced by stent porosity, strut design, and mesh hole shape. We also confirmed that the damping effect is significantly reduced at higher vessel curvatures, which indicates limited usefulness of high-porosity stents as a stand-alone treatment. Finally, we showed that the stasis-inducing performance of stents in 3D geometries can be predicted from the hydraulic resistance of their flat mesh screens. From this, we propose a methodology to cost-effectively compare different stent designs before running a full 3D simulation.
对于血管内支架的特定设计特征(支柱和网孔设计、孔隙率)如何影响颅内动脉瘤的血流动力学,目前普遍缺乏定量认识。为了阐明这一问题,我们使用计算流体动力学,在不同血管曲率的动脉瘤模型以及一个患者特异性模型中研究了两种商用高孔隙率支架(三星支架和Wallstent)。我们研究了这些支架如何改变血流动力学参数,如动脉瘤流入率、血流淤滞和壁面剪应力,以及这些变化如何与特定设计相关。我们发现,支架的流动阻尼效应以及由此产生的动脉瘤血流淤滞和壁面剪应力受支架孔隙率、支柱设计和网孔形状的强烈影响。我们还证实,在较高血管曲率下,阻尼效应会显著降低,这表明高孔隙率支架作为单一治疗手段的有效性有限。最后,我们表明,可以根据支架平面网筛的水力阻力预测其在三维几何形状中导致血流淤滞的性能。据此,我们提出了一种在进行完整三维模拟之前,以经济有效的方式比较不同支架设计的方法。