Stem cell-based strategies for bone regeneration, which use calcium phosphate (CaP)-based biomaterials in combination with developmentally relevant progenitor populations, have significant potential for clinical repair of skeletal defects. However, the exact mechanism of action and the stem cell-host-material interactions are still poorly understood. We studied if pre-conditioning of human periosteum-derived cells (hPDCs) in vitro could enhance, in combination with a CaP-based biomaterial carrier, ectopic bone formation in vivo. By culturing hPDCs in a biomimetic calcium (Ca(2+)) and phosphate (P(i)) enriched culture conditions, we observed an enhanced cell proliferation, decreased expression of mesenchymal stem cell (MSC) markers and upreg...
The development of osteoinductive calcium phosphate- (CaP) based biomaterials has, and continues to ...
Introduction: A strategy for bone tissue engineering is to combine osteochondroprogenitor cells, ost...
In this study, we investigated a clinically relevant model of in vivo ectopic bone formation utilizi...
Stem cell-based strategies for bone regeneration, which use calcium phosphate (CaP)-based biomateria...
peer reviewedWhen combining osteogenic progenitor cells such as human periosteum derived cells (hPDC...
Over 18 % of annual fractures of the tibia lead to non-unions, commonly caused by the critical size ...
Cell based combination products with growth factors on optimal carriers represent a promising tissue...
When combining osteogenic progenitor cells such as human periosteum derived cells (hPDCs) with osteo...
When combining osteogenic progenitor cells such as human periosteum derived cells (hPDCs) with osteo...
Current knowledge suggests that the periosteum, a fibrous tissue which covers the surface of all bon...
The development of osteoinductive calcium phosphate- (CaP) based biomaterials has, and continues to ...
The development of osteoinductive calcium phosphate- (CaP) based biomaterials has, and continues to ...
Current knowledge suggests that the periosteum, a fibrous tissue which covers the surface of all bon...
peer reviewedCell based combination products with growth factors on optimal carriers represent a pro...
Cell based combination products with growth factors on optimal carriers represent a promising tissue...
The development of osteoinductive calcium phosphate- (CaP) based biomaterials has, and continues to ...
Introduction: A strategy for bone tissue engineering is to combine osteochondroprogenitor cells, ost...
In this study, we investigated a clinically relevant model of in vivo ectopic bone formation utilizi...
Stem cell-based strategies for bone regeneration, which use calcium phosphate (CaP)-based biomateria...
peer reviewedWhen combining osteogenic progenitor cells such as human periosteum derived cells (hPDC...
Over 18 % of annual fractures of the tibia lead to non-unions, commonly caused by the critical size ...
Cell based combination products with growth factors on optimal carriers represent a promising tissue...
When combining osteogenic progenitor cells such as human periosteum derived cells (hPDCs) with osteo...
When combining osteogenic progenitor cells such as human periosteum derived cells (hPDCs) with osteo...
Current knowledge suggests that the periosteum, a fibrous tissue which covers the surface of all bon...
The development of osteoinductive calcium phosphate- (CaP) based biomaterials has, and continues to ...
The development of osteoinductive calcium phosphate- (CaP) based biomaterials has, and continues to ...
Current knowledge suggests that the periosteum, a fibrous tissue which covers the surface of all bon...
peer reviewedCell based combination products with growth factors on optimal carriers represent a pro...
Cell based combination products with growth factors on optimal carriers represent a promising tissue...
The development of osteoinductive calcium phosphate- (CaP) based biomaterials has, and continues to ...
Introduction: A strategy for bone tissue engineering is to combine osteochondroprogenitor cells, ost...
In this study, we investigated a clinically relevant model of in vivo ectopic bone formation utilizi...