Add to ORKGBackground: This work presents a novel artificial prosthetic heart valve designed to be catheter or percutaneously deliverable, and a method for in vitro testing of the device. The device is intended to create superior characteristics in comparison to tissue-based percutaneous valves. Methods: The percutaneous heart valve (PHV) was constructed from state-of-the-art polymers, metals and fabrics. It was tested hydrodynamically using a modified left heart simulator (LHS) and statically using a tensile testing device. Results: The PHV exhibited a mean transvalvular pressure gradient of less than 15 mmhg and a mean regurgitant fraction of less than 5 percent. It also demonstrated a resistance to migration of up to 6 N and a resistance to crushin...
The potential of Polymeric Heart Valves (PHV) is to combine the good haemodynamic performances of bi...
Aim: In order to combine the hemodynamic properties of biological valves with the durability of mech...
In this paper, a hemodynamic comparison of two polyurethane trileaflet heart valve prostheses with c...
Clinically available prosthetic heart valves are life-saving, but imperfect: mechanical valves requi...
Clinically available prosthetic heart valves are life-saving, but imperfect: mechanical valves requi...
Currently, malfunctioning heart valves are replaced via highly invasive and costly open-heart proced...
The research for durable, non-thrombogenic heart valve prostheses able to overcome the limits of bio...
PURPOSE: Only mechanical and biological heart valve prostheses are currently commercially available....
Objective: This study aimed to develop an autologous heart valve without using traditional in vitro ...
In this thesis a flexible leaflet polymeric prosthetic aortic heart valve was designed, manufactured...
A new prototype of a heart valve prosthesis has been developed and tested. The valve consists of a n...
Aim: to evaluate the manipulative properties of the system being developed for cardiac valve re-oper...
The potential of polymeric heart valves (PHV) prostheses is to combine the hemodynamic performances ...
Tissue engineering is currently being actively investigated in order to ascertain if it can offer an...
The potential of Polymeric Heart Valves (PHV) is to combine the good haemodynamic performances of bi...
Aim: In order to combine the hemodynamic properties of biological valves with the durability of mech...
In this paper, a hemodynamic comparison of two polyurethane trileaflet heart valve prostheses with c...
Clinically available prosthetic heart valves are life-saving, but imperfect: mechanical valves requi...
Clinically available prosthetic heart valves are life-saving, but imperfect: mechanical valves requi...
Currently, malfunctioning heart valves are replaced via highly invasive and costly open-heart proced...
The research for durable, non-thrombogenic heart valve prostheses able to overcome the limits of bio...
PURPOSE: Only mechanical and biological heart valve prostheses are currently commercially available....
Objective: This study aimed to develop an autologous heart valve without using traditional in vitro ...
In this thesis a flexible leaflet polymeric prosthetic aortic heart valve was designed, manufactured...
A new prototype of a heart valve prosthesis has been developed and tested. The valve consists of a n...
Aim: to evaluate the manipulative properties of the system being developed for cardiac valve re-oper...
The potential of polymeric heart valves (PHV) prostheses is to combine the hemodynamic performances ...
Tissue engineering is currently being actively investigated in order to ascertain if it can offer an...
The potential of Polymeric Heart Valves (PHV) is to combine the good haemodynamic performances of bi...
Aim: In order to combine the hemodynamic properties of biological valves with the durability of mech...
In this paper, a hemodynamic comparison of two polyurethane trileaflet heart valve prostheses with c...