This study addresses the dynamic response to pulsatile physiological blood flow and pressure of a woven Dacron graft currently used in thoracic aortic surgery. The model of the prosthesis assumes a cylindrical orthotropic shell described by means of nonlinear Novozhilov shell theory. The blood flow is modeled as Newtonian pulsatile flow, and unsteady viscous effects are included. Coupled fluid-structure Lagrange equations for open systems with wave propagation subject to pulsatile flow are applied. Physiological waveforms of blood pressure and velocity are approximated with the first eight harmonics of the corresponding Fourier series. Time responses of the prosthetic wall radial displacement are considered for two physiological conditions:...
The project aims at studying fluid dynamics of a prosthetic aortic heart valve through an organized ...
Nowadays, prosthetic heart valves play a very important role in bioengineering, in particular they ...
The fluid dynamics of a natural aortic valve are complicated due to the highly pulsatile flow condit...
In deformable shells conveying pulsatile flow, oscillatory pressure changes cause local movements of...
Woven Dacron grafts are still considered the clinical standard practice in thoracic vascular reconst...
In vascular surgery, most synthetic vascular grafts currently used for large vessels replacements ar...
Woven Dacron grafts are currently used for the surgical treatment of aortic aneurysm and acute disse...
Evaluating the nonlinear dynamics of human descending thoracic aortas is essential for building the ...
Circular cylindrical shells with flexible boundary conditions conveying pulsatile flow and subjected...
International audienceTextile cardiovascular prostheses are tubular structures made of polyester fil...
The results of this work present eleven human thoracic aortas tested on a mock circulatory loop (MCL...
In case of direction-dependent viscoelasticity, a simplified formulation of the three-dimensional qu...
A pulsatile pressure-flow model was developed for in vitro quantitative color Doppler flow mapping s...
The in vivo evaluation of prosthetic device performance is often difficult, if not impossible. In pa...
We study the nonlinear interaction of an aortic heart valve, composed of hyperelastic corrugated lea...
The project aims at studying fluid dynamics of a prosthetic aortic heart valve through an organized ...
Nowadays, prosthetic heart valves play a very important role in bioengineering, in particular they ...
The fluid dynamics of a natural aortic valve are complicated due to the highly pulsatile flow condit...
In deformable shells conveying pulsatile flow, oscillatory pressure changes cause local movements of...
Woven Dacron grafts are still considered the clinical standard practice in thoracic vascular reconst...
In vascular surgery, most synthetic vascular grafts currently used for large vessels replacements ar...
Woven Dacron grafts are currently used for the surgical treatment of aortic aneurysm and acute disse...
Evaluating the nonlinear dynamics of human descending thoracic aortas is essential for building the ...
Circular cylindrical shells with flexible boundary conditions conveying pulsatile flow and subjected...
International audienceTextile cardiovascular prostheses are tubular structures made of polyester fil...
The results of this work present eleven human thoracic aortas tested on a mock circulatory loop (MCL...
In case of direction-dependent viscoelasticity, a simplified formulation of the three-dimensional qu...
A pulsatile pressure-flow model was developed for in vitro quantitative color Doppler flow mapping s...
The in vivo evaluation of prosthetic device performance is often difficult, if not impossible. In pa...
We study the nonlinear interaction of an aortic heart valve, composed of hyperelastic corrugated lea...
The project aims at studying fluid dynamics of a prosthetic aortic heart valve through an organized ...
Nowadays, prosthetic heart valves play a very important role in bioengineering, in particular they ...
The fluid dynamics of a natural aortic valve are complicated due to the highly pulsatile flow condit...