Add to ORKGThree-dimensional (3D) bioprinting is an emerging technology in which scaffolding materials and cell-laden hydrogels may be deposited in a predetermined fashion to create 3D porous constructs. A major challenge in 3D bioprinting is the slow degradation of melt deposited biopolymer. In this research, we describe a new method for printing poly-caprolactone (PCL)/bioactive borate glass composite as a scaffolding material and Pluronic F127 hydrogel as a cell suspension medium. Bioactive borate glass was added to a mixture of PCL and organic solvent to make an extrudable paste using one syringe while hydrogel was extruded and deposited in between the PCL/borate glass filaments using a second syringe. The degradation of the PCL/borate glass compo...
Fabrication of new biodegradable scaffolds that guide and stimulate tissue regeneration is still a m...
Fabrication of new biodegradable scaffolds that guide and stimulate tissue regeneration is still a m...
Fabrication of new biodegradable scaffolds that guide and stimulate tissue regeneration is still a m...
Three-dimensional (3D) bioprinting is an emerging technology in which scaffolding materials and cell...
Bioactive glasses are widely used in tissue engineering because of their several unique and interes...
Bioactive glasses are widely used in tissue engineering because of their several unique and interes...
Bioactive glasses are widely used in tissue engineering because of their several unique and interest...
Bioactive glasses are widely used in tissue engineering because of their several unique and interest...
Bioactive glasses are widely used in tissue engineering because of their several unique and interest...
In traditional tissue engineering, 3D-printed scaffolds are prepared, and then cells are seeded on t...
A major limitation of synthetic bone repair is insufficient vascularization of the interior region ...
A major limitation of synthetic bone repair is insufficient vascularization of the interior region ...
The primary research objective of this project is to investigate the ability of adipose derived mese...
Three-dimensional (3D) bioprinting technologies have shown great potential in the fabrication of 3D ...
Three-dimensional (3D) cell-printed constructs have been recognized as promising biological substitu...
Fabrication of new biodegradable scaffolds that guide and stimulate tissue regeneration is still a m...
Fabrication of new biodegradable scaffolds that guide and stimulate tissue regeneration is still a m...
Fabrication of new biodegradable scaffolds that guide and stimulate tissue regeneration is still a m...
Three-dimensional (3D) bioprinting is an emerging technology in which scaffolding materials and cell...
Bioactive glasses are widely used in tissue engineering because of their several unique and interes...
Bioactive glasses are widely used in tissue engineering because of their several unique and interes...
Bioactive glasses are widely used in tissue engineering because of their several unique and interest...
Bioactive glasses are widely used in tissue engineering because of their several unique and interest...
Bioactive glasses are widely used in tissue engineering because of their several unique and interest...
In traditional tissue engineering, 3D-printed scaffolds are prepared, and then cells are seeded on t...
A major limitation of synthetic bone repair is insufficient vascularization of the interior region ...
A major limitation of synthetic bone repair is insufficient vascularization of the interior region ...
The primary research objective of this project is to investigate the ability of adipose derived mese...
Three-dimensional (3D) bioprinting technologies have shown great potential in the fabrication of 3D ...
Three-dimensional (3D) cell-printed constructs have been recognized as promising biological substitu...
Fabrication of new biodegradable scaffolds that guide and stimulate tissue regeneration is still a m...
Fabrication of new biodegradable scaffolds that guide and stimulate tissue regeneration is still a m...
Fabrication of new biodegradable scaffolds that guide and stimulate tissue regeneration is still a m...