Preparation and in vitro degradation of novel bioactive polylactide/wollastonite scaffolds

## Abstract Highly porous poly(D,L‐lactide)/Bioglass® composites scaffolds were prepared by thermally induced phase separation process of polymer solutions and subsequent solvent sublimation. A series of composite foams with different polymer/Bioglass® weight ratios was prepared to study the influe

## Abstract Highly porous poly(DL‐lactic acid) (PDLLA) foams and Bioglass®‐filled PDLLA composite foams were characterized and evaluated __in vitro__ as bone tissue engineering scaffolds. The hypothesis was that the combination of PDLLA with Bioglass® in a porous structure would result in a bioreso

## Abstract The engineering of soft tissue would benefit from the development of effective biodegradable scaffolds capable of dynamic, elastic loading. For this purpose, highly porous, elastomeric scaffolds containing microporous struts were prepared using a dual porogen approach and a photocrossli

## Abstract SiO~2~‐CaO‐P~2~O~5~ ternary bioactive glass ceramic (BGC) nanoparticles with different compositions were prepared via a three‐step sol‐gel method. Polyethylene glycol was selected to be used as the surfactant to improve the dispersion of the nanoparticles. The morphology and composition

People's Republic of China SYNOPSIS Polylactide (PLA) and poly (lactide-co-glycolide) (PLGA) were prepared by bulk ringopening polymerization of lactide or lactide/glycolide using stannous octoate as initiator. PLA and PLGA microspheres with an average diameter of 65-100 pm were prepared by a solven