In vivo surface activity of a hydroxyapatite alveolar bone substitute

## Abstract Various biomaterials have been used for bone repair and reconstruction of bone defects. Inorganic xenogenic bone substitutes have been intensively studied because they possesses favorable regenerative properties. The purpose of this study was to evaluate the properties of a novel inorga

## Abstract Improvement of synthetic bone graft substitutes as suitable alternatives to a patient's own bone graft remains a challenge in biomaterials research. Our goal was to answer the question of whether improved osteoinductivity of a material would also translate to better bone‐healing orthoto

## Abstract This study was designed to test the hypothesis that the mechanical properties of a trabecular bone substitute can be enhanced through __in vitro__ tissue formation. Our specific objectives were to (1) determine the effects of __in vitro__ marrow stromal cell‐mediated tissue deposition u

## Abstract The nanocrystalline hydroxyapatite paste Ostim® represents a fully degradable synthetic bone substitute for the filling of bone defects. Herein, we investigated __in vivo__ the inflammatory and angiogenic host tissue response to this biomaterial after implantation. For this purpose, Ost

## 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 Posterolateral spinal fusion is used to treat patients with degenerative spinal disorders. We investigated the effectiveness of a mesenchymal stem cell (MSC)/Pluronic F127/Interpore hybrid graft for spinal fusion in rabbits. Spinal fusion was examined using radiography, manual palpation