Add to ORKG\u3cp\u3eThe creation of a living heart valve is a much-wanted alternative for current valve prostheses that suffer from limited durability and thromboembolic complications. Current strategies to create such valves, however, require the use of cells for in vitro culture, or decellularized human- or animal-derived donor tissue for in situ engineering. Here, we propose and demonstrate proof-of-concept of in situ heart valve tissue engineering using a synthetic approach, in which a cell-free, slow degrading elastomeric valvular implant is populated by endogenous cells to form new valvular tissue inside the heart. We designed a fibrous valvular scaffold, fabricated from a novel supramolecular elastomer, that enables endogenous cells to enter an...
Aims: The objective was to implant a stented decellularised tissue-engineered heart valve (sdTEHV) p...
Diseased aortic valves often require replacement, with over 30% of the current aortic valve surgerie...
Heart valve tissue engineering based on decellularized xenogenic or allogenic starter matrices has s...
The creation of a living heart valve is a much-wanted alternative for current valve prostheses that ...
In situ heart valve tissue engineering using cell-free synthetic, biodegradable scaffolds is under d...
\u3cp\u3eIn situ heart valve tissue engineering using cell-free synthetic, biodegradable scaffolds i...
In situ heart valve tissue engineering using cell-free synthetic, biodegradable scaffolds is under d...
A tissue engineered heart valve (TEHV) could serve as a living, implantable valve replacement that w...
Objectives: The aim of this study was to demonstrate the feasibility of combining the novel heart va...
BACKGROUND: Previous tissue engineering approaches to create heart valves have been limited by the s...
Heart valve replacement represents the most common surgical therapy for end-stage valvular heart dis...
Aims: The objective was to implant a stented decellularised tissue-engineered heart valve (sdTEHV) p...
Aims: The objective was to implant a stented decellularised tissue-engineered heart valve (sdTEHV) p...
Diseased aortic valves often require replacement, with over 30% of the current aortic valve surgerie...
Heart valve tissue engineering based on decellularized xenogenic or allogenic starter matrices has s...
The creation of a living heart valve is a much-wanted alternative for current valve prostheses that ...
In situ heart valve tissue engineering using cell-free synthetic, biodegradable scaffolds is under d...
\u3cp\u3eIn situ heart valve tissue engineering using cell-free synthetic, biodegradable scaffolds i...
In situ heart valve tissue engineering using cell-free synthetic, biodegradable scaffolds is under d...
A tissue engineered heart valve (TEHV) could serve as a living, implantable valve replacement that w...
Objectives: The aim of this study was to demonstrate the feasibility of combining the novel heart va...
BACKGROUND: Previous tissue engineering approaches to create heart valves have been limited by the s...
Heart valve replacement represents the most common surgical therapy for end-stage valvular heart dis...
Aims: The objective was to implant a stented decellularised tissue-engineered heart valve (sdTEHV) p...
Aims: The objective was to implant a stented decellularised tissue-engineered heart valve (sdTEHV) p...
Diseased aortic valves often require replacement, with over 30% of the current aortic valve surgerie...
Heart valve tissue engineering based on decellularized xenogenic or allogenic starter matrices has s...