Dimensional reduction of a poromechanical cardiac model for myocardial perfusion studies

IF 2.2 Q2 ENGINEERING, MULTIDISCIPLINARY
Radomír Chabiniok , Bruno Burtschell , Dominique Chapelle , Philippe Moireau
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引用次数: 2

Abstract

In this paper, we adapt a previously developed poromechanical formulation to model the perfusion of myocardium during a cardiac cycle. First, a complete model is derived in 3D. Then, we perform a dimensional reduction under the assumption of spherical symmetry and propose a numerical algorithm that enables us to perform simulations of the myocardial perfusion throughout the cardiac cycle. These simulations illustrate the use of the proposed model to represent various physiological and pathological scenarios, specifically the vasodilation in the coronary network (to reproduce the standard clinical assessment of myocardial perfusion and perfusion reserve), the stenosis of a large coronary artery, an increased vascular resistance in the microcirculation (microvascular disease) and the consequences of inotropic activation (increased myocardial contractility) particularly at the level of the systolic flow impediment. Our results show that the model gives promising qualitative reproductions of complex physiological phenomena. This paves the way for future quantitative studies using clinical or experimental data.

用于心肌灌注研究的孔隙力学心脏模型的降维
在本文中,我们采用先前开发的孔隙力学公式来模拟心脏周期期间心肌的灌注。首先,建立完整的三维模型。然后,我们在球对称假设下进行降维,并提出一种数值算法,使我们能够在整个心脏周期中进行心肌灌注的模拟。这些模拟说明了所提出的模型用于表示各种生理和病理情景的使用,特别是冠状动脉网络中的血管舒张(再现心肌灌注和灌注储备的标准临床评估),大冠状动脉狭窄,微循环血管阻力增加(微血管疾病)和肌力激活(心肌收缩力增加)的后果,特别是在收缩血流障碍水平。我们的结果表明,该模型对复杂的生理现象给出了有希望的定性再现。这为将来使用临床或实验数据进行定量研究铺平了道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Applications in engineering science
Applications in engineering science Mechanical Engineering
CiteScore
3.60
自引率
0.00%
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审稿时长
68 days
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