Design and in vitro evaluation of novel γ-PGA/hydroxyapatite nanocomposites for bone tissue engineering

## Abstract As reported previously, a porous composite of uncalcined hydroxyapatite (u‐HA) and poly‐DL‐lactide (PDLLA) showed excellent osteoconductivity and biodegradability as a bone substitute in rabbit model. In this study, to investigate the usefulness of this composite as a scaffold loaded wi

## Abstract In this work, the fabrication and __in vitro__ degradation of porous fumarate‐based/alumoxane nanocomposites were evaluated for their potential as bone tissue engineering scaffolds. The biodegradable polymer poly (propylene fumarate)/propylene fumarate‐diacrylate (PPF/PF‐DA), a macrocom

## 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 Dynamic flow culture bioreactor systems have been shown to enhance __in vitro__ bone tissue formation by facilitating mass transfer and providing mechanical stimulation. Our laboratory has developed a biodegradable poly (lactic acid glycolic acid) (PLAGA) mixed scaffold consisting of li