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A comprehensive mathematical model for cardiac perfusion

Authors :
Zingaro, Alberto
Vergara, Christian
Dede', Luca
Regazzoni, Francesco
Quarteroni, Alfio
Zingaro, Alberto
Vergara, Christian
Dede', Luca
Regazzoni, Francesco
Quarteroni, Alfio
Publication Year :
2023

Abstract

We present a novel mathematical model that simulates myocardial blood perfusion by embedding multiscale and multiphysics features. Our model incorporates cardiac electrophysiology, active and passive mechanics, hemodynamics, reduced valve modeling, and a multicompartment Darcy model of perfusion. We consider a fully coupled electromechanical model of the left heart that provides input for a fully coupled Navier-Stokes - Darcy Model for myocardial perfusion. The fluid dynamics problem is modeled in a left heart geometry that includes large epicardial coronaries, while the multicompartment Darcy model is set in a biventricular domain. Using a realistic and detailed cardiac geometry, our simulations demonstrate the accuracy of our model in describing cardiac perfusion, including myocardial blood flow maps. Additionally, we investigate the impact of a regurgitant aortic valve on myocardial perfusion, and our results indicate a reduction in myocardial perfusion due to blood flow taken away by the left ventricle during diastole. To the best of our knowledge, our work represents the first instance where electromechanics, hemodynamics, and perfusion are integrated into a single computational framework.

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1381612403
Document Type :
Electronic Resource