Simulations of coupled problems such as fluid-structure interaction (FSI) are becoming more and more important for engineering purposes. This is particularly true when modeling the aortic valve, where the FSI between the blood and the valve determines the valve movement and the valvular hemodynamics. Nevertheless only a few studies are focusing on the opening and closing behavior during the ejection phase (systole). In this paper, we present the validation of a FSI model using the dynamic mesh method of Fluent for the two-dimensional (2D) simulation of mechanical heart valves during the ejection phase of the cardiac cycle. The FSI model is successfully validated by comparing simulation results to experimental data obtained from in vitro stu...
Computational modeling of heart valve dynamics incorporating both fluid dynamics and valve structura...
Purpose: The performance of heart valves, either native or artificial, can be evaluated by means of ...
Numerical analysis of the aortic valve has mainly been focused on the closing behaviour during the d...
Simulations of coupled problems such as fluid-structure interaction (FSI) are becoming more and more...
Modeling and simulation of heart valves had been a demanding biomechanical problem due to the variat...
In recent years the role of FSI (fluid-structure interaction) simulations in the analysis of the flu...
The main purpose of this study is to reproduce in silico the dynamics of a bileaflet mechanical hear...
The main purpose of this study is to reproduce in silico the dynamics of a bileaflet mechanical hear...
An established therapy for aortic valve stenosis and insufficiency is the transcatheter aortic valve...
AbstractA new method for the calculation of fluid-structure interaction (FSI) of highly flexible bod...
In this study, we present a fully-coupled fluid-structure interaction (FSI) framework that combines ...
The development of heart valve stenosis and sclerosis can lead to the development of fatal complicat...
In this study, we present a fully-coupled fluid-structure interaction (FSI) framework that combines ...
Failure of synthetic heart valves is usually caused by tearing and calcification of the leaflets. Le...
The opening and closing behavior of the valve is a delicate interaction between blood flow and geome...
Computational modeling of heart valve dynamics incorporating both fluid dynamics and valve structura...
Purpose: The performance of heart valves, either native or artificial, can be evaluated by means of ...
Numerical analysis of the aortic valve has mainly been focused on the closing behaviour during the d...
Simulations of coupled problems such as fluid-structure interaction (FSI) are becoming more and more...
Modeling and simulation of heart valves had been a demanding biomechanical problem due to the variat...
In recent years the role of FSI (fluid-structure interaction) simulations in the analysis of the flu...
The main purpose of this study is to reproduce in silico the dynamics of a bileaflet mechanical hear...
The main purpose of this study is to reproduce in silico the dynamics of a bileaflet mechanical hear...
An established therapy for aortic valve stenosis and insufficiency is the transcatheter aortic valve...
AbstractA new method for the calculation of fluid-structure interaction (FSI) of highly flexible bod...
In this study, we present a fully-coupled fluid-structure interaction (FSI) framework that combines ...
The development of heart valve stenosis and sclerosis can lead to the development of fatal complicat...
In this study, we present a fully-coupled fluid-structure interaction (FSI) framework that combines ...
Failure of synthetic heart valves is usually caused by tearing and calcification of the leaflets. Le...
The opening and closing behavior of the valve is a delicate interaction between blood flow and geome...
Computational modeling of heart valve dynamics incorporating both fluid dynamics and valve structura...
Purpose: The performance of heart valves, either native or artificial, can be evaluated by means of ...
Numerical analysis of the aortic valve has mainly been focused on the closing behaviour during the d...