(1) Background: The realization of appropriate aortic replicas for in vitro experiments requires a suitable choice of both the material and geometry. The matching between the grade of details of the geometry and the mechanical response of the materials is an open issue that deserves attention. (2) Methods: To explore this issue, we performed a series of Fluid–Structure Interaction simulations, which compared the dynamics of three aortic models. Specifically, we reproduced a patient-specific geometry with a wall of biological tissue or silicone, and a parametric geometry based on in vivo data made in silicone. The biological tissue and the silicone were modeled with a fiber-oriented anisotropic and isotropic hyperelastic model, respectively....
Numerical models are increasingly used in the cardiovascular field to reproduce, study and improve d...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
Vascular diseases such as aortic dissections, aneurysms and stenosis are becoming frequent disorders...
(1) Background: The realization of appropriate aortic replicas for in vitro experiments requires a s...
We design and manufacture a silicone model of the human aorta, able to mimic both the geometrical an...
We design and manufacture a silicone model of the human aorta, able to mimic both the geometrical an...
The evolution of pressure-flow geometry in the aortic arch is increasingly understood as a key eleme...
The correct estimation of the distensibility of deformable aorta replicas is a challenging issue, in...
International audienceIn vitro aortic flow simulators allow studying hemodynamics with a wider range...
International audienceArterial hemodynamics are essential in the development of cardiovascular patho...
Compliant phantoms of the human aortic arch can mimic patient specific cardiovascular dysfunctions i...
Numerical modeling can provide detailed and quantitative information on aortic root (AR) biomechanic...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
The goal of this study has been to develop a numerical model of the aortic valve, to validate it wit...
International audienceBackground: Computational models of abdominal aortic aneurysm (AAA) have aimed...
Numerical models are increasingly used in the cardiovascular field to reproduce, study and improve d...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
Vascular diseases such as aortic dissections, aneurysms and stenosis are becoming frequent disorders...
(1) Background: The realization of appropriate aortic replicas for in vitro experiments requires a s...
We design and manufacture a silicone model of the human aorta, able to mimic both the geometrical an...
We design and manufacture a silicone model of the human aorta, able to mimic both the geometrical an...
The evolution of pressure-flow geometry in the aortic arch is increasingly understood as a key eleme...
The correct estimation of the distensibility of deformable aorta replicas is a challenging issue, in...
International audienceIn vitro aortic flow simulators allow studying hemodynamics with a wider range...
International audienceArterial hemodynamics are essential in the development of cardiovascular patho...
Compliant phantoms of the human aortic arch can mimic patient specific cardiovascular dysfunctions i...
Numerical modeling can provide detailed and quantitative information on aortic root (AR) biomechanic...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
The goal of this study has been to develop a numerical model of the aortic valve, to validate it wit...
International audienceBackground: Computational models of abdominal aortic aneurysm (AAA) have aimed...
Numerical models are increasingly used in the cardiovascular field to reproduce, study and improve d...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
Vascular diseases such as aortic dissections, aneurysms and stenosis are becoming frequent disorders...