Poly(lactide-co-glycolide)/titania composite microsphere-sintered scaffolds for bone tissue engineering applications

## Abstract Bone tissue engineering offers promising alternatives to repair and restore tissues. Our laboratory has employed poly(lactid‐co‐glycolide) PLAGA microspheres to develop a three dimensional (3‐D) porous bioresorbable scaffold with a biomimetic pore structure. Osseous healing and integrat

## Abstract Novel 3‐D porous scaffolds made of sintered poly(lacide‐__co__‐glycolide) (PLGA)/lecithin hybrid microspheres (PLGA/Lec‐SMS) were developed and investigated. The addition of lecithin in PLGA bulk successfully managed the desired hydrophilic modification without sacrificing bulk properti

## Abstract The long‐term goal of this work is to develop biomimetic polymer‐based systems for bone regeneration that both allow for neutral pH degradation products and have the ability to nucleate bonelike apatite. In this study, the etheric biodegradable polyphosphazene, poly[(50%ethyl glycinato)

## Abstract P‐15 modified poly(L‐lactide‐__co__‐ε‐caprolactone) (PLCL) microspheres were investigated as scaffolds for tissue engineering applications. PLCL copolymer was synthesized by ring opening polymerization and was composed of a soft matrix of mainly ε‐caprolactone moieties and hard domains

## Abstract A series of elastic polymer and composite scaffolds for bone tissue engineering applications were designed. Two crosslinked copolymer matrices with 90/10 and 30/70 mol % of ϵ‐caprolactone (CL) and D,L‐lactide (DLLA) were prepared with porosities from 45 to 85 vol % and their mechanical

## Abstract Conventional methods in fabrication of scaffolds based on polymer/bioceramic composites frequently make use of solution casting then particle leaching. The residues of common organic solvents can get trapped in this technique hence provide safety concerns on final scaffold. In this stud