The opening and closing behavior of the valve is a delicate interaction between blood flow and geometrical and stiffness properties of the heart valve leaflets and aortic root. Numerical analysis of the opening and closing behavior is complicated by the three-dimensional finite motion of the very flexible leaflets in a compliant system of fluid and structure. Fluid-structure interaction models of th
Numerical modeling can provide detailed and quantitative information on aortic root (AR) biomechanic...
The function of native heart valves, when not functioning, can be replicated by heart valve prosthes...
In this article, a three-dimensional transient numerical approach coupled with fluid-structure inter...
Numerical analysis of the aortic valve has mainly been focused on the closing behaviour during the d...
An established therapy for aortic valve stenosis and insufficiency is the transcatheter aortic valve...
Failure of synthetic heart valves is usually caused by tearing and calcification of the leaflets. Le...
The importance of the aortic root compliance in the aortic valve performancehas most frequently been...
Modeling and simulation of heart valves had been a demanding biomechanical problem due to the variat...
The complicated interaction between a fluid flow and a deformable structure is referred to as fluid–...
The development of heart valve stenosis and sclerosis can lead to the development of fatal complicat...
AbstractA new method for the calculation of fluid-structure interaction (FSI) of highly flexible bod...
The aortic valve is a complex and dynamic structure, which, with age, degenerative disease, or gene...
On the analysis of moving heart valves: a numerical fluid-structure interaction model
The main function of the heart valves is to maintain a unidirectional blood flow through the heart c...
The computational fluid dynamics of the heart represents a challenging task both in terms of mathema...
Numerical modeling can provide detailed and quantitative information on aortic root (AR) biomechanic...
The function of native heart valves, when not functioning, can be replicated by heart valve prosthes...
In this article, a three-dimensional transient numerical approach coupled with fluid-structure inter...
Numerical analysis of the aortic valve has mainly been focused on the closing behaviour during the d...
An established therapy for aortic valve stenosis and insufficiency is the transcatheter aortic valve...
Failure of synthetic heart valves is usually caused by tearing and calcification of the leaflets. Le...
The importance of the aortic root compliance in the aortic valve performancehas most frequently been...
Modeling and simulation of heart valves had been a demanding biomechanical problem due to the variat...
The complicated interaction between a fluid flow and a deformable structure is referred to as fluid–...
The development of heart valve stenosis and sclerosis can lead to the development of fatal complicat...
AbstractA new method for the calculation of fluid-structure interaction (FSI) of highly flexible bod...
The aortic valve is a complex and dynamic structure, which, with age, degenerative disease, or gene...
On the analysis of moving heart valves: a numerical fluid-structure interaction model
The main function of the heart valves is to maintain a unidirectional blood flow through the heart c...
The computational fluid dynamics of the heart represents a challenging task both in terms of mathema...
Numerical modeling can provide detailed and quantitative information on aortic root (AR) biomechanic...
The function of native heart valves, when not functioning, can be replicated by heart valve prosthes...
In this article, a three-dimensional transient numerical approach coupled with fluid-structure inter...