We provide a computational comparison of the performance of stentless and stented aortic prostheses, in terms of aortic root displacements and internal stresses. To this aim, we consider three real patients; for each of them, we draw the two prostheses configurations, which are characterized by different mechanical properties and we also consider the native configuration. For each of these scenarios, we solve the fluid-structure interaction problem arising between blood and aortic root, through Finite Elements. In particular, the Arbitrary Lagrangian-Eulerian formulation is used for the numerical solution of the fluid-dynamic equations and a hyperelastic material model is adopted to predict the mechanical response of the aortic wall and the...
Bio-inspired polymeric heart valves (PHVs) are excellent candidates to mimic the structural and the ...
Numerical modeling can provide detailed and quantitative information on aortic root (AR) biomechanic...
Background. Finite element models of the aortic heart valve have been successfully used in the past ...
We provide a computational comparison of the performance of stentless and stented aortic prostheses,...
The importance of the aortic root compliance in the aortic valve performancehas most frequently been...
Improving artificial valve design is of paramount importance considering that bio-prosthetic aortic ...
An established therapy for aortic valve stenosis and insufficiency is the transcatheter aortic valve...
The aortic valve is a complex and dynamic structure, which, with age, degenerative disease, or gene...
In some cases of aortic valve leaflet disease, the implant of a stentless biological prosthesis repr...
In this paper the fluid structure interaction in stentless aortic heart valve during acceleration ph...
The in vivo evaluation of prosthetic device performance is often difficult, if not impossible. In pa...
In some cases of aortic valve leaflet disease, the implant of a stentless biological prosthesis repr...
Valvular heart disorders represent a remarkable contribution to cardiovascular diseases; in fact, mo...
We study the nonlinear interaction of an aortic heart valve, composed of hyperelastic corrugated lea...
The development of heart valve stenosis and sclerosis can lead to the development of fatal complicat...
Bio-inspired polymeric heart valves (PHVs) are excellent candidates to mimic the structural and the ...
Numerical modeling can provide detailed and quantitative information on aortic root (AR) biomechanic...
Background. Finite element models of the aortic heart valve have been successfully used in the past ...
We provide a computational comparison of the performance of stentless and stented aortic prostheses,...
The importance of the aortic root compliance in the aortic valve performancehas most frequently been...
Improving artificial valve design is of paramount importance considering that bio-prosthetic aortic ...
An established therapy for aortic valve stenosis and insufficiency is the transcatheter aortic valve...
The aortic valve is a complex and dynamic structure, which, with age, degenerative disease, or gene...
In some cases of aortic valve leaflet disease, the implant of a stentless biological prosthesis repr...
In this paper the fluid structure interaction in stentless aortic heart valve during acceleration ph...
The in vivo evaluation of prosthetic device performance is often difficult, if not impossible. In pa...
In some cases of aortic valve leaflet disease, the implant of a stentless biological prosthesis repr...
Valvular heart disorders represent a remarkable contribution to cardiovascular diseases; in fact, mo...
We study the nonlinear interaction of an aortic heart valve, composed of hyperelastic corrugated lea...
The development of heart valve stenosis and sclerosis can lead to the development of fatal complicat...
Bio-inspired polymeric heart valves (PHVs) are excellent candidates to mimic the structural and the ...
Numerical modeling can provide detailed and quantitative information on aortic root (AR) biomechanic...
Background. Finite element models of the aortic heart valve have been successfully used in the past ...