Add to ORKGBACKGROUND: Bioengineered living autologous valves with remodeling and growth capacity represent a promising concept for future cardiac and venous valve repair. A meticulous understanding of the mechanisms involved in recellularization and remodeling is essential for the safe and efficient clinical translation of this technology. In this context, the first investigations of bioengineered vascular grafts in immune-incompetent or transgenic rodents represented an important step. However, the in-vivo assessment of bioengineered synthetic scaffold-based (biodegradable) valve replacements in rodent models has not been achieved to date. METHODS: Miniaturized monocuspid PGA (polyglycolic acid)-P4HB (poly-4-hydroxybutyrate)-based valves were creat...
ObjectivesThis study sought to investigate the combination of transcatheter aortic valve implantatio...
Objective: This study aimed to develop an autologous heart valve without using traditional in vitro ...
ObjectivesClinical translation of tissue-engineered heart valves requires valve competency and lack ...
BACKGROUND: Bioengineered living autologous valves with remodeling and growth capacity represent a p...
The objective of the study was to describe a novel small-animal model of tissue-engineered aortic va...
In this thesis, the feasibility of in situ TE for vascular and valvular purposes were tested with th...
AbstractBackground: Allograft heart valves used in cardiac surgery often fail at an unacceptable rat...
Objectives: The aim of this study was to demonstrate the feasibility of combining the novel heart va...
Background and aim of the study: Living tissue-engineered heart valves (TEHVs) based on rapidly degr...
is an approach by which cells are grown in vitro onto biodegradable polymers to construct tissues fo...
BACKGROUND: Previous tissue engineering approaches to create heart valves have been limited by the s...
Tissue engineering is currently being actively investigated in order to ascertain if it can offer an...
Tissue-engineered heart valves (TEHVs), based on polyglycolic acid (PGA) scaffolds coated with poly-...
Tissue-engineered heart valves (TEHVs), based on polyglycolic acid (PGA) scaffolds coated with poly-...
The occurrence of dysfunctional aortic valves is increasing every year, and current replacement hear...
ObjectivesThis study sought to investigate the combination of transcatheter aortic valve implantatio...
Objective: This study aimed to develop an autologous heart valve without using traditional in vitro ...
ObjectivesClinical translation of tissue-engineered heart valves requires valve competency and lack ...
BACKGROUND: Bioengineered living autologous valves with remodeling and growth capacity represent a p...
The objective of the study was to describe a novel small-animal model of tissue-engineered aortic va...
In this thesis, the feasibility of in situ TE for vascular and valvular purposes were tested with th...
AbstractBackground: Allograft heart valves used in cardiac surgery often fail at an unacceptable rat...
Objectives: The aim of this study was to demonstrate the feasibility of combining the novel heart va...
Background and aim of the study: Living tissue-engineered heart valves (TEHVs) based on rapidly degr...
is an approach by which cells are grown in vitro onto biodegradable polymers to construct tissues fo...
BACKGROUND: Previous tissue engineering approaches to create heart valves have been limited by the s...
Tissue engineering is currently being actively investigated in order to ascertain if it can offer an...
Tissue-engineered heart valves (TEHVs), based on polyglycolic acid (PGA) scaffolds coated with poly-...
Tissue-engineered heart valves (TEHVs), based on polyglycolic acid (PGA) scaffolds coated with poly-...
The occurrence of dysfunctional aortic valves is increasing every year, and current replacement hear...
ObjectivesThis study sought to investigate the combination of transcatheter aortic valve implantatio...
Objective: This study aimed to develop an autologous heart valve without using traditional in vitro ...
ObjectivesClinical translation of tissue-engineered heart valves requires valve competency and lack ...