Design and preparation of μ-bimodal porous scaffold for tissue engineering

## Abstract In the emerging field of tissue engineering and regenerative medicine, new viable and functional tissue is fabricated from living cells cultured on an artificial matrix in a simulated biological environment. It is evident that the specific requirements for the three main components, cel

## Abstract Thiolated chitosan (TCS) was proposed as a promising candidate as scaffold material for tissue engineering. However, a continuous exploration of such material as a three‐dimensional (3D) scaffold with controllable design of microstructure as well as mechanical strength was necessitated.

## 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 The preparation, characterization, and __in vitro__ bone marrow cell culturing on porous PEOT/PBT copolymer scaffolds are described. These scaffolds are meant for use in bone tissue engineering. Previous research has shown that PEOT/PBT copolymers showed __in vivo__ degradation, calcifi