In this study, we present a fully-coupled fluid-structure interaction (FSI) framework that combines smoothed particle hydrodynamics (SPH) and nonlinear finite element (FE) method to investigate the coupled aortic and mitral valves structural response and the bulk intraventricular hemodynamics in a realistic left ventricle (LV) model during the entire cardiac cycle. The FSI model incorporates valve structures that consider native asymmetric leaflet geometries, anisotropic hyperelastic material models and human material properties. Comparison of FSI results with subject-specific echocardiography data demonstrates that the SPH-FE approach is able to quantitatively predict the opening and closing times of the valves, the mitral leaflet opening ...
Mitral valve (MV), together with left atrium (LA) form an important coupled structure inside human h...
Simulations of coupled problems such as fluid-structure interaction (FSI) are becoming more and more...
Background: Understanding the interaction between the mitral valve (MV) and the left ventricle (LV) ...
In this study, we present a fully-coupled fluid-structure interaction (FSI) framework that combines ...
Computational modeling of heart valve dynamics incorporating both fluid dynamics and valve structura...
Understanding the interaction between the valves and walls of the heart is important in assessing an...
<p>Flow velocity through the (a) AV and (b) MV. Doppler echo velocity recordings at c) AV and d) MV....
Heart disease is the leading cause of death in the world. Therefore, numerous studies are undertaken...
The computational fluid dynamics of the heart represents a challenging task both in terms of mathema...
Understanding the interaction between the valves and walls of the heart is important in assessing an...
The mitral valve (MV) is one of the four cardiac valves. It consists of two leaflets that are connec...
5The fluid dynamics inside the left ventricle of the human heart is considered a potential indicator...
Modeling and simulation of heart valves had been a demanding biomechanical problem due to the variat...
An established therapy for aortic valve stenosis and insufficiency is the transcatheter aortic valve...
We present an integrated model of mitral valve coupled with the left ventricle. The model is derived...
Mitral valve (MV), together with left atrium (LA) form an important coupled structure inside human h...
Simulations of coupled problems such as fluid-structure interaction (FSI) are becoming more and more...
Background: Understanding the interaction between the mitral valve (MV) and the left ventricle (LV) ...
In this study, we present a fully-coupled fluid-structure interaction (FSI) framework that combines ...
Computational modeling of heart valve dynamics incorporating both fluid dynamics and valve structura...
Understanding the interaction between the valves and walls of the heart is important in assessing an...
<p>Flow velocity through the (a) AV and (b) MV. Doppler echo velocity recordings at c) AV and d) MV....
Heart disease is the leading cause of death in the world. Therefore, numerous studies are undertaken...
The computational fluid dynamics of the heart represents a challenging task both in terms of mathema...
Understanding the interaction between the valves and walls of the heart is important in assessing an...
The mitral valve (MV) is one of the four cardiac valves. It consists of two leaflets that are connec...
5The fluid dynamics inside the left ventricle of the human heart is considered a potential indicator...
Modeling and simulation of heart valves had been a demanding biomechanical problem due to the variat...
An established therapy for aortic valve stenosis and insufficiency is the transcatheter aortic valve...
We present an integrated model of mitral valve coupled with the left ventricle. The model is derived...
Mitral valve (MV), together with left atrium (LA) form an important coupled structure inside human h...
Simulations of coupled problems such as fluid-structure interaction (FSI) are becoming more and more...
Background: Understanding the interaction between the mitral valve (MV) and the left ventricle (LV) ...