We developed a new fabrication technique for 3-dimensional scaffolds for tissue engineering of human heart valve tissue. A human aortic homograft was scanned with an X-ray computer tomograph. The data derived from the X-ray computed tomogram were processed by a computer-aided design program to reconstruct a human heart valve 3-dimensionally. Based on this stereolithographic model, a silicone valve model resembling a human aortic valve was generated. By taking advantage of the thermoplastic properties of polyglycolic acid as scaffold material, we molded a 3-dimensional scaffold for tissue engineering of human heart valves. The valve scaffold showed a deviation of only +/- 3-4% in height, length and inner diameter compared with the homograft....
Tissue engineered heart valves (TEHVs) that can grow and remodel have the potential to serve as perm...
In the industrialized world, cardiovascular disease alone is responsible for almost half of all deat...
Objective: This study aimed to develop an autologous heart valve without using traditional in vitro ...
We developed a new fabrication technique for 3-dimensional scaffolds for tissue engineering of human...
The occurrence of dysfunctional aortic valves is increasing every year, and current replacement hear...
The concept of tissue-engineered heart valves offers an alternative to current heart valve replaceme...
This dissertation describes strategies that I have developed to introduce mechanical and biochemical...
Valvular heart disease is an important cause of morbidity and mortality, and currently available sub...
This review discusses strategies that may address some of the limitations associated with replacing ...
Heart valve disease is a tremendous national and global burden. Prosthetic replacement is essentiall...
Recent advances in tissue engineering have demonstrated the potential of the technique in developing...
Background— Tissue engineering represents a promising approach for the development of living heart v...
Abstract Digitalization of health care practices is substantially manifesting itself as an effective...
Cardiac tissue engineering (TE) is an emerging field, whose main goal is the development of innovati...
Tissue engineering appears as a promising option to create new heart valve substitutes able to overc...
Tissue engineered heart valves (TEHVs) that can grow and remodel have the potential to serve as perm...
In the industrialized world, cardiovascular disease alone is responsible for almost half of all deat...
Objective: This study aimed to develop an autologous heart valve without using traditional in vitro ...
We developed a new fabrication technique for 3-dimensional scaffolds for tissue engineering of human...
The occurrence of dysfunctional aortic valves is increasing every year, and current replacement hear...
The concept of tissue-engineered heart valves offers an alternative to current heart valve replaceme...
This dissertation describes strategies that I have developed to introduce mechanical and biochemical...
Valvular heart disease is an important cause of morbidity and mortality, and currently available sub...
This review discusses strategies that may address some of the limitations associated with replacing ...
Heart valve disease is a tremendous national and global burden. Prosthetic replacement is essentiall...
Recent advances in tissue engineering have demonstrated the potential of the technique in developing...
Background— Tissue engineering represents a promising approach for the development of living heart v...
Abstract Digitalization of health care practices is substantially manifesting itself as an effective...
Cardiac tissue engineering (TE) is an emerging field, whose main goal is the development of innovati...
Tissue engineering appears as a promising option to create new heart valve substitutes able to overc...
Tissue engineered heart valves (TEHVs) that can grow and remodel have the potential to serve as perm...
In the industrialized world, cardiovascular disease alone is responsible for almost half of all deat...
Objective: This study aimed to develop an autologous heart valve without using traditional in vitro ...