Add to ORKGA major limitation of synthetic bone repair is insufficient vascularization of the interior region of the scaffold. In this study, we investigated the 3D printing of adipose derived mesenchymal stem cells (AD-MSCs) with polycaprolactone (PCL)/bioactive glass composite in a single process. This offered a three-dimensional environment for complex and dynamic interactions that govern the cell’s behavior in vivo. Borate based bioactive (13-93B3) glass of different concentrations (10 to 50 weight %) was added to a mixture of PCL and organic solvent to make an extrudable paste. AD-MSCs suspended in Matrigel was extruded as droplets using a second syringe. Scaffolds measuring 10x10x1 mm3 in overall dimensions with a filament width of ~500 μm and p...
Large bone defects are commonly treated by replacement with auto- and allografts, which have substan...
Large bone defects are commonly treated by replacement with auto- and allografts, which have substan...
Bioactive glasses are widely used in tissue engineering because of their several unique and interes...
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 ...
A major limitation of using synthetic scaffolds in tissue engineering applications is insufficient a...
The primary research objective of this project is to investigate the ability of adipose derived mese...
Over the last years, three-dimensional (3D) printing has been successfully applied to produce suitab...
Polycaprolactone (PCL) is widely used in additive manufacturing for the construction of scaffolds fo...
Polycaprolactone (PCL) is widely used in additive manufacturing for the construction of scaffolds fo...
3D printed bioactive glass or bioceramic particle reinforced composite scaffolds for bone tissue eng...
3D printed bioactive glass or bioceramic particle reinforced composite scaffolds for bone tissue eng...
Here we fabricate and characterise bioactive composite scaffolds for bone tissue engineering applica...
Here we fabricate and characterise bioactive composite scaffolds for bone tissue engineering applica...
Three-dimensional (3D) bioprinting is an emerging technology in which scaffolding materials and cell...
Large bone defects are commonly treated by replacement with auto- and allografts, which have substan...
Large bone defects are commonly treated by replacement with auto- and allografts, which have substan...
Bioactive glasses are widely used in tissue engineering because of their several unique and interes...
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 ...
A major limitation of using synthetic scaffolds in tissue engineering applications is insufficient a...
The primary research objective of this project is to investigate the ability of adipose derived mese...
Over the last years, three-dimensional (3D) printing has been successfully applied to produce suitab...
Polycaprolactone (PCL) is widely used in additive manufacturing for the construction of scaffolds fo...
Polycaprolactone (PCL) is widely used in additive manufacturing for the construction of scaffolds fo...
3D printed bioactive glass or bioceramic particle reinforced composite scaffolds for bone tissue eng...
3D printed bioactive glass or bioceramic particle reinforced composite scaffolds for bone tissue eng...
Here we fabricate and characterise bioactive composite scaffolds for bone tissue engineering applica...
Here we fabricate and characterise bioactive composite scaffolds for bone tissue engineering applica...
Three-dimensional (3D) bioprinting is an emerging technology in which scaffolding materials and cell...
Large bone defects are commonly treated by replacement with auto- and allografts, which have substan...
Large bone defects are commonly treated by replacement with auto- and allografts, which have substan...
Bioactive glasses are widely used in tissue engineering because of their several unique and interes...