We design and manufacture a silicone model of the human aorta, able to mimic both the geometrical and the mechanical properties of physiological individuals, with a specific focus on reproducing the compliance. In fact, while the models available in the literature exhibit an unrealistic compliant behavior, though they are detailed from the geometrical viewpoint, here the goal is to provide an accurate compliant tool for in vitro testing the devices that interface with the vascular system. A parametric design of the aortic model is obtained based on the available literature data, and the model is manufactured with a specific silicone mixture using rapid prototyping and molding techniques. The manufactured prototype has been tested by means o...
Background: The use of anatomical models produced by 3D printing technique (rapid prototyping, RP) i...
Heart valve diseases are among the leading causes of cardiac failure around the globe. Current advan...
Abstract—The aortic valve is a compliant biological structure experiencing dynamic cyclic loading. T...
We design and manufacture a silicone model of the human aorta, able to mimic both the geometrical an...
(1) Background: The realization of appropriate aortic replicas for in vitro experiments requires a s...
Adequate in-vitro training in valved stents deployment as well as testing of the latter devices requ...
(1) Background: The realization of appropriate aortic replicas for in vitro experiments requires a s...
Benchtop testing of endovascular medical devices under accurately simulated physiological conditions...
Additive manufacturing (AM) is a useful technology to produce artificial aortic models for the train...
The evolution of pressure-flow geometry in the aortic arch is increasingly understood as a key eleme...
Compliant phantoms of the human aortic arch can mimic patient specific cardiovascular dysfunctions i...
The main problem in the replacement of pathological segments of the aorta with vascular prostheses c...
BACKGROUND: The aim of this study was to manufacture a new aortic model with physiological propertie...
Patient specific surgical simulators can be effective training tools in cardiac surgery. There is cu...
The correct estimation of the distensibility of deformable aorta replicas is a challenging issue, in...
Background: The use of anatomical models produced by 3D printing technique (rapid prototyping, RP) i...
Heart valve diseases are among the leading causes of cardiac failure around the globe. Current advan...
Abstract—The aortic valve is a compliant biological structure experiencing dynamic cyclic loading. T...
We design and manufacture a silicone model of the human aorta, able to mimic both the geometrical an...
(1) Background: The realization of appropriate aortic replicas for in vitro experiments requires a s...
Adequate in-vitro training in valved stents deployment as well as testing of the latter devices requ...
(1) Background: The realization of appropriate aortic replicas for in vitro experiments requires a s...
Benchtop testing of endovascular medical devices under accurately simulated physiological conditions...
Additive manufacturing (AM) is a useful technology to produce artificial aortic models for the train...
The evolution of pressure-flow geometry in the aortic arch is increasingly understood as a key eleme...
Compliant phantoms of the human aortic arch can mimic patient specific cardiovascular dysfunctions i...
The main problem in the replacement of pathological segments of the aorta with vascular prostheses c...
BACKGROUND: The aim of this study was to manufacture a new aortic model with physiological propertie...
Patient specific surgical simulators can be effective training tools in cardiac surgery. There is cu...
The correct estimation of the distensibility of deformable aorta replicas is a challenging issue, in...
Background: The use of anatomical models produced by 3D printing technique (rapid prototyping, RP) i...
Heart valve diseases are among the leading causes of cardiac failure around the globe. Current advan...
Abstract—The aortic valve is a compliant biological structure experiencing dynamic cyclic loading. T...