Fabrication and characterization of porous EH scaffolds and EH-PEG bilayers

## Abstract Hyaluronic acid (HA) plays a vital role in many tissues, influencing water content and mechanical function, and has been shown to have positive biological effects on cell behavior __in vitro__. To begin to determine whether these benefits can be accessed if HA is incorporated into colla

## 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

The development of blended biomacromolecule and polyester scaffolds can potentially be used in many tissue engineering applications. This study was to develop a poly(gamma-glutamic acid)-graft-chondroitin sulfate-blend-poly(epsilon-caprolactone) (gamma-PGA-g-CS/PCL) composite biomaterial as a scaffo

## Abstract To combine the individual advantages of synthetic and natural polymers, poly(L‐lactic acid) (PLLA)–chitosan hybrid scaffolds were fabricated. PLLA sponges were prepared by particulate‐leaching, and then PLLA–chitosan hybrid scaffolds were obtained by dipping the PLLA sponges in chitosan

## Abstract Electrospun zein membranes were prepared using DMF as solvent. By changing the solution concentration, the electrospinning voltage and the distance between the spinneret and collector, nanofibrous meshes without bead defects could be obtained. In order to improve the mechanical strength