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Mechanical stimulation enhances development of scaffold-free, 3D-printed, engineered heart tissue grafts.Academic Article Why?
Fibronectin-hepatocyte growth factor enhances reendothelialization in tissue-engineered heart valve.Academic Article Why?
Ota, TakeyoshiPerson Why?
Hibino, NarutoshiPerson Why?
Cardiac tissue engineering for the treatment of hypoplastic left heart syndrome (HLHS).Academic Article Why?
Novel method of decellularization of porcine valves using polyethylene glycol and gamma irradiation.Academic Article Why?
Late-term results of tissue-engineered vascular grafts in humans.Academic Article Why?
Extracardiac total cavopulmonary connection using a tissue-engineered graft.Academic Article Why?
Electromechanical characterization of a tissue-engineered myocardial patch derived from extracellular matrix.Academic Article Why?
A Net Mold-Based Method of Biomaterial-Free Three-Dimensional Cardiac Tissue Creation.Academic Article Why?
Vessel bioengineering.Academic Article Why?
The extracellular matrix patch implanted in the right ventricle evaluated with cardiovascular magnetic resonance protocol to assess regional physio-mechanical properties.Academic Article Why?
[First successful clinical application of tissue engineered blood vessel].Academic Article Why?
In situ constructive myocardial remodeling of extracellular matrix patch enhanced with controlled growth factor release.Academic Article Why?
Patient Specific Tissue Engineered Vascular Graft Creation Using 3D Printing TechnologyGrant Why?
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