In vitro and in vivo evaluation of a novel nanosize hydroxyapatite particles/poly(ester-urethane) composite scaffold 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 A novel scaffold with large dimension of 3–4 cm in length and 1–1.5 cm in diameter was designed and fabricated for engineering large bone tissue __in vivo__. The scaffold was constructed by filling hydroxyapatite (HA) spherules into a porous HA tube. The HA spherules were prepared by ch

## 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

## 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 Achieving functional graft integration with subchondral bone poses a significant challenge for orthopaedic soft tissue repair and reconstruction. Soft tissues such as the anterior cruciate ligament (ACL) integrate with bone through a fibrocartilage interface, which minimizes stress conc