Add to ORKGCalcification risk and immune response are reduced after cardiac valve decellulariztion and subsequent repopulation with recipient cells can provide durable, autogenic-like implants. Previously, we showed that porcine aortic valve leaflets subjected to decellularization (Spina et al., 2003) allowed proper in vitro colonization by valve-derived porcine fibroblasts/myofibroblasts with additional re-expression of endothelial cells and smooth muscle cells (Bertipaglia et al., 2003). Here, we used human mesenchymal stem cells (hBM-MSC) to repopulate human valve homografts that had undergone decellularization with Triton-X-100/sodium-cholate and aspecific benzonase treatments and incubation in fetal bovine serum (FBS) and bovine fibronectin (50 u...
Introduction. In heart valve surgical replacement, the most suitable hemodynamic properties and mech...
In the last two decades, clinical demand of allogeneic valve substitutes exceeded cryobank supply of...
In this study, we tissue-engineered heart valves in vivo using autologous bone marrow-derived cells ...
The potential for in vitro colonization of decellularized valves by human bone marrow mesenchymal st...
Background and aim of the study: The adult human heart contains a cardiac mesenchymal stromal cell (...
The purpose was the attainment of acellular valve substitutes amenable to acquire postimplantation a...
Bioprostheses are widely used to replace cardiac valves. Besides favorable hemodynamic properties, h...
The potential for in vitro colonization of decellularized valves by human bone marrow mesenchymal st...
Tissue-engineered heart valves are proposed as novel viable replacements granting longer durability ...
Tissue-engineered heart valves are proposed as novel viable replacements granting longer durability ...
Cardiac valve replacement is the second most common heart operation in the Western World. Valve repl...
Introduction: Fundamental prerequisites for prosthetic valvulated conduits (VVSs) consist in preserv...
Heart valve disease is a major public health problem, with surgical valve replacement still represen...
Heart valve tissue engineering based on decellularized xenogenic or allogenic starter matrices has s...
This work is aimed to the production of acellular valve substitutes which can acquire post-implantat...
Introduction. In heart valve surgical replacement, the most suitable hemodynamic properties and mech...
In the last two decades, clinical demand of allogeneic valve substitutes exceeded cryobank supply of...
In this study, we tissue-engineered heart valves in vivo using autologous bone marrow-derived cells ...
The potential for in vitro colonization of decellularized valves by human bone marrow mesenchymal st...
Background and aim of the study: The adult human heart contains a cardiac mesenchymal stromal cell (...
The purpose was the attainment of acellular valve substitutes amenable to acquire postimplantation a...
Bioprostheses are widely used to replace cardiac valves. Besides favorable hemodynamic properties, h...
The potential for in vitro colonization of decellularized valves by human bone marrow mesenchymal st...
Tissue-engineered heart valves are proposed as novel viable replacements granting longer durability ...
Tissue-engineered heart valves are proposed as novel viable replacements granting longer durability ...
Cardiac valve replacement is the second most common heart operation in the Western World. Valve repl...
Introduction: Fundamental prerequisites for prosthetic valvulated conduits (VVSs) consist in preserv...
Heart valve disease is a major public health problem, with surgical valve replacement still represen...
Heart valve tissue engineering based on decellularized xenogenic or allogenic starter matrices has s...
This work is aimed to the production of acellular valve substitutes which can acquire post-implantat...
Introduction. In heart valve surgical replacement, the most suitable hemodynamic properties and mech...
In the last two decades, clinical demand of allogeneic valve substitutes exceeded cryobank supply of...
In this study, we tissue-engineered heart valves in vivo using autologous bone marrow-derived cells ...