Currently implanted prosthetic heart valves, both mechanical or biological ones, are used to restore the proper blood hemodynamics when the native valves fail. However, these medical devices are not free from drawbacks, such as hemolysis or calcification, also presenting the relevant disadvantage of being unable to growth, repair and remodel. An improvement could be represented by bioresorbable polymeric tissue-engineered heart valves. In this paper a poly(e-caprolactone) (PCL) heart valve prosthesis, realized by means of electrospinning, and its in vitro functional characterization in a pulse duplicator, resembling pulmonary conditions, is presented. Morphological examination revealed polymeric micrometric fibers randomly oriented with an ...
The concept of tissue-engineered heart valves offers an alternative to current heart valve replaceme...
In this thesis a flexible leaflet polymeric prosthetic aortic heart valve was designed, manufactured...
Valvular heart disease is an increasing population health problem and, especially in the elderly, a ...
Currently implanted prosthetic heart valves, both mechanical or biological ones, are used to restore...
Currently marketed mechanical or biological prosthetic heart valves are regarded as valid substitute...
Valvular heart disease (VHD) is a serious health burden affecting morbidity and mortality worldwide....
In this paper, a novel combination method of electrospinning and rapid prototyping (RP) fused deposi...
The potential of polymeric heart valves (PHV) prostheses is to combine the hemodynamic performances ...
A new prototype of a heart valve prosthesis has been developed and tested. The valve consists of a n...
Tissue Engineered Heart Valvs (TEHVs) have the potential to replace synthetic and non-bioactive pros...
Tissue engineered heart valves (TEHV) can be useful in the repair of congenital or acquired valvular...
BACKGROUND: Previous tissue engineering approaches to create heart valves have been limited by the s...
Tissue engineered heart valves (TEHVs) that can grow and remodel have the potential to serve as perm...
The potential of Polymeric Heart Valves (PHV) is to combine the good haemodynamic performances of bi...
The concept of tissue-engineered heart valves offers an alternative to current heart valve replaceme...
In this thesis a flexible leaflet polymeric prosthetic aortic heart valve was designed, manufactured...
Valvular heart disease is an increasing population health problem and, especially in the elderly, a ...
Currently implanted prosthetic heart valves, both mechanical or biological ones, are used to restore...
Currently marketed mechanical or biological prosthetic heart valves are regarded as valid substitute...
Valvular heart disease (VHD) is a serious health burden affecting morbidity and mortality worldwide....
In this paper, a novel combination method of electrospinning and rapid prototyping (RP) fused deposi...
The potential of polymeric heart valves (PHV) prostheses is to combine the hemodynamic performances ...
A new prototype of a heart valve prosthesis has been developed and tested. The valve consists of a n...
Tissue Engineered Heart Valvs (TEHVs) have the potential to replace synthetic and non-bioactive pros...
Tissue engineered heart valves (TEHV) can be useful in the repair of congenital or acquired valvular...
BACKGROUND: Previous tissue engineering approaches to create heart valves have been limited by the s...
Tissue engineered heart valves (TEHVs) that can grow and remodel have the potential to serve as perm...
The potential of Polymeric Heart Valves (PHV) is to combine the good haemodynamic performances of bi...
The concept of tissue-engineered heart valves offers an alternative to current heart valve replaceme...
In this thesis a flexible leaflet polymeric prosthetic aortic heart valve was designed, manufactured...
Valvular heart disease is an increasing population health problem and, especially in the elderly, a ...