A novel porous scaffold fabrication technique for epithelial and endothelial tissue engineering

## Abstract The aim of this study was to fabricate bioactive porous CaSiO~3~ scaffolds and examine their effects on proliferation and differentiation of osteoblast‐like cells. In this study, porous CaSiO~3~ scaffolds were obtained by sintering a ceramic slip‐coated polymer foam at 1350°C. X‐ray dif

## Abstract This article reports the mechanical properties and __in vitro__ evaluation of a collagen scaffold fabricated using an indirect 3D printing technique. Collagen scaffolds, featuring predefined internal channels and capillary networks, were manufactured using phase change printing. It was

## Abstract Tissue‐engineering scaffold‐based strategies have suffered from limited cell depth viability when cultured __in vitro__, with viable cells existing within the outer periphery of the fluid–scaffold interface. This is primarily believed to be due to the lack of nutrient delivery into and

## Abstract **Summary:** Scaffold based tissue engineering strategies use cells, biomolecules and a scaffold to promote the repair and regeneration of tissues. Although scaffold‐based tissue engineering approaches are being actively developed, most are still experimental, and it is not yet clear wh