ABSTRACT: Treatment of large bone defects using synthetic scaffolds remain a challenge mainly due to insufficient vascularization. This study is to engineer a vascularized bone graft by integrating a vascularized biomimetic cell-sheet-engineered periosteum (CSEP) and a biodegradable macro-porous beta-tricalcium phosphate (β-TCP) scaffold. We first cultured human mesenchymal stem cells (hMSCs) to form cell sheet and human umbilical vascular endothelial cells (HUVECs) were then seeded on the undifferentiated hMSCs sheet to form vascularized cell sheet for mimicking the fibrous layer of native periosteum. A mineralized hMSCs sheet was cultured to mimic the cambium layer of native periosteum. This mineralized hMSCs sheet was first wrapped onto ...
Highlights - Human BM-MSCs transplanted within a star-PEG Heparin hydrogel carrier retained their un...
<b>Highlights</b>\ud \ud - Human BM-MSCs transplanted within a star-PEG Heparin hydrogel carrier re...
The repair of large segmental bone defects remains a big challenge due to limited self-healing capac...
Treatment of large bone defects using synthetic scaffolds remain a challenge mainly due to insuffici...
Abstract Background There is a critical need for the management of large bone defects. The purpose o...
The periosteum plays a critical role in bone homeostasis and regeneration. It contains a vascular co...
Elaborating a bone replacement using tissue-engineering strategies for bone repair seems to be a pro...
Clinical protocols utilize bone marrow to seed synthetic and decellularized allogeneic bone grafts f...
Clinical protocols utilize bone marrow to seed synthetic and decellularized allogeneic bone grafts f...
Highlights - Human BM-MSCs transplanted within a star-PEG Heparin hydrogel carrier retained their un...
Highlights - Human BM-MSCs transplanted within a star-PEG Heparin hydrogel carrier retained their un...
Elaborating a bone replacement using tissue-engineering strategies for bone repair seems to be a pro...
Cell-based tissue engineering offers the potential to greatly improve the treatment of large and com...
Tissue engineering has been a rapidly expanding field dedicated to regeneration of tissue. The field...
Cell-based tissue engineering offers the potential to greatly improve the treatment of large and com...
Highlights - Human BM-MSCs transplanted within a star-PEG Heparin hydrogel carrier retained their un...
<b>Highlights</b>\ud \ud - Human BM-MSCs transplanted within a star-PEG Heparin hydrogel carrier re...
The repair of large segmental bone defects remains a big challenge due to limited self-healing capac...
Treatment of large bone defects using synthetic scaffolds remain a challenge mainly due to insuffici...
Abstract Background There is a critical need for the management of large bone defects. The purpose o...
The periosteum plays a critical role in bone homeostasis and regeneration. It contains a vascular co...
Elaborating a bone replacement using tissue-engineering strategies for bone repair seems to be a pro...
Clinical protocols utilize bone marrow to seed synthetic and decellularized allogeneic bone grafts f...
Clinical protocols utilize bone marrow to seed synthetic and decellularized allogeneic bone grafts f...
Highlights - Human BM-MSCs transplanted within a star-PEG Heparin hydrogel carrier retained their un...
Highlights - Human BM-MSCs transplanted within a star-PEG Heparin hydrogel carrier retained their un...
Elaborating a bone replacement using tissue-engineering strategies for bone repair seems to be a pro...
Cell-based tissue engineering offers the potential to greatly improve the treatment of large and com...
Tissue engineering has been a rapidly expanding field dedicated to regeneration of tissue. The field...
Cell-based tissue engineering offers the potential to greatly improve the treatment of large and com...
Highlights - Human BM-MSCs transplanted within a star-PEG Heparin hydrogel carrier retained their un...
<b>Highlights</b>\ud \ud - Human BM-MSCs transplanted within a star-PEG Heparin hydrogel carrier re...
The repair of large segmental bone defects remains a big challenge due to limited self-healing capac...