真实心脏模型固流相互作用的三维重建与计算建模

V. Simić, M. Milošević, I. Šaveljić, B. Milićević, N. Filipovic, M. Kojic
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引用次数: 0

摘要

在本报告中,我们介绍了DICOM图像三维重建过程的基本步骤,并应用我们的有限元(FE)数值程序进行松耦合固流相互作用,以模拟左心脏真实模型的完整心跳周期。被动机械应力采用基于心肌被动材料特性实验研究的正交各向异性材料模型计算,主动应力采用Hunter材料模型计算。总结了固体力学、流体动力学和肌肉激活的基本方程,并在一个复杂的现实模型上说明了模型的适用性,该模型包括左心房、心室、二尖瓣和主动脉瓣(作为流体域)以及具有现实纤维方向的实体壁。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
3D reconstruction and computational modeling of solid-fluid interaction in realistic heart model
In this report we present basic steps in the 3D reconstruction process of DICOM images and application of our finite element (FE) numerical procedure for loose coupling solid-fluid interaction, to simulate a complete heartbeat cycle for a realistic model of the left heart side. Passive mechanical stresses are calculated using an orthotropic material model based on the experimental investigation of passive material properties of the myocardium, while active stresses are calculated using the Hunter material model. The basic equations for solid mechanics, fluid dynamics, and muscle activation are summarized and model applicability is illustrated on a complex realistic model which includes a left atrium, ventricle, mitral and aortic valves (which serve as fluid domain) coupled with solid wall with realistic fiber directions.
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