Add to ORKGExperimental evidence indicates a key role for calcium ions in mesenchymal stem cell (MSC)-driven bone formation in calcium phosphate (CaP) scaffolds. The current computational models of bone formation and regeneration in CaP scaffolds do not include the influence of the local Ca2+ concentration on cellular activities and bone formation. This study aims to develop a computational model of MSC-driven bone formation in CaP scaffolds with an emphasis on the role of Ca2+.status: accepte
Cell based combination products with growth factors on optimal carriers represent a promising tissue...
Cell based combination products with growth factors on optimal carriers represent a promising tissue...
peer reviewedCell based combination products with growth factors on optimal carriers represent a pro...
Experimental evidence indicates a key role for calcium ions in mesenchymal stem cell (MSC)-driven bo...
Although in literature several mechanisms have been proposed to explain the role of calcium phosphat...
In tissue engineering applications, scaffolds act as carriers for cells and growth factors that rest...
Bone formation is a very complex physiological process, involving the participation of many differen...
Calcium phosphate (CaP) has traditionally been used for the repair of bone defects because of its st...
This study describes the development and implementation of a bio-regulatory model that focuses on th...
Bone regeneration is a complex process that involves regulation of different cell types by multiple ...
Calcium phosphate (CaP) has traditionally been used for the repair of bone defects because of its st...
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 ...
The development of osteoinductive calcium phosphate- (CaP) based biomaterials has, and continues to ...
Objective: The purpose of this study was to review the current status of calcium phosphate (CaP) sca...
Cell based combination products with growth factors on optimal carriers represent a promising tissue...
Cell based combination products with growth factors on optimal carriers represent a promising tissue...
peer reviewedCell based combination products with growth factors on optimal carriers represent a pro...
Experimental evidence indicates a key role for calcium ions in mesenchymal stem cell (MSC)-driven bo...
Although in literature several mechanisms have been proposed to explain the role of calcium phosphat...
In tissue engineering applications, scaffolds act as carriers for cells and growth factors that rest...
Bone formation is a very complex physiological process, involving the participation of many differen...
Calcium phosphate (CaP) has traditionally been used for the repair of bone defects because of its st...
This study describes the development and implementation of a bio-regulatory model that focuses on th...
Bone regeneration is a complex process that involves regulation of different cell types by multiple ...
Calcium phosphate (CaP) has traditionally been used for the repair of bone defects because of its st...
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 ...
The development of osteoinductive calcium phosphate- (CaP) based biomaterials has, and continues to ...
Objective: The purpose of this study was to review the current status of calcium phosphate (CaP) sca...
Cell based combination products with growth factors on optimal carriers represent a promising tissue...
Cell based combination products with growth factors on optimal carriers represent a promising tissue...
peer reviewedCell based combination products with growth factors on optimal carriers represent a pro...