带二尖瓣主动脉根部的计算有限元分析

Smiljana Tomasevic, I. Šaveljić, L. Velicki, N. Filipovic
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引用次数: 0

摘要

本研究的目的是通过计算有限元(FE)方法评估双尖瓣主动脉瓣(BAV)对主动脉根部位移、Von Mises应力、剪切应力和压力分布的影响。基于CT扫描图像重建BAV扩张主动脉根部的三维(3D)特异性几何形状,获得三维有限元网格。采用等效材料特性和边界条件,进行了结构分析和计算流体力学(CFD)两类分析。对该病例的初步结果、位移和Von Mises应力分布(用于结构分析)以及剪切应力和压力分布(用于CFD分析)对解剖患者的结构进行量化。双尖瓣不对称打开的主动脉小叶和主动脉环上的异常应力区域与压力和剪切应力的增加有关,并针对本病例进行分析。由于在体外或体内难以获得这些特征,因此所进行的计算分析可以更好地了解BAV主动脉根部的生物力学,这是改进手术修复技术和术前计划所需要的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Computational Finite Element Analysis of Aortic Root with Bicuspid Valve
The aim of this work was to evaluate the impact of Bicuspid Aortic Valve (BAV), on displacements, Von Mises stress, shear stress and pressure distribution within the aortic root by using computational Finite Element (FE) method. The three-dimensional (3D) patient-specific geometry of dilated aortic root with BAV was reconstructed based on Computed Tomography (CT) scan images, in order to obtain the 3D finite element mesh. Two types of analyses: i) structural analysis and ii) computational fluid dynamics (CFD) were performed, with applied equivalent material characteristics of BAV and boundary conditions. The initial results for this single case, displacements and Von Mises stress distribution (for structural analysis), as well as shear stress and pressure distribution (for CFD analysis) were quantified concerning anatomical patient's structures. The regions of abnormal stresses on the aortic leaflets and annulus, with asymmetrically open bicuspid valve, were related to the increased pressures and shear stresses and analyzed for this patient-specific case. Due to the difficulties in obtaining such characteristics in vitro or in vivo, the performed computational analysis gave better insight into the biomechanics of the aortic root with BAV that is needed to achieve improvements in surgical repair techniques and presurgical planning.
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