Abstract:

The hydroxyapatite(HA) nanocrystals of 100—200 nm in length and 20—30 nm in width were hydrothermally synthesized by the reaction of phosphoric acid and calcium hydroxide. Lactic acid oligomer surface grafted HA(op-HA) nanoparticles were obtained by oligomeric lactic acid with a certain molecular weight grafting onto the HA surface to form a Ca carboxylate bond in the absence of any catalyst. The op-HA was further blended with poly(lactide-co-glycolide)(PLGA) to prepare the nanocomposite of op-HA/PLGA. FTIR, TGA, ESEM and EDX were used to analyze grafting reaction, the graft ratio of op-HA, surface topography and calcium deposition of the composites, respectively. The rabbit osteoblasts were seeded and cultured on the surface of composites in vitro. The cell morphology, adhesion, proliferation and gene expression were evaluated with FITC staining, NIH image J software and the analysis of real-time PCR, respectively. The results show that the graft ratio of op-HA is 8.3%(mass fraction). The op-HA/PLGA nanocomposite possessed more suitable surface properties, including roughness and plenty of calcium and phosphor. It exhibited better cell adhesion, spreading and proliferation of rabbit osteoblasts compared to pure PLGA. Its gene expression of Collagen-I, Bone Morphogenetic Protein 2(BMP-2) and Osteonectin were higher than that of PLGA. It indicated that the biocompatibility and osteogenic bioactivity of the op-HA/PLGA nanocomposite were improved obviously than that of the pure PLGA.

Key words: Hydroxyapatite; Poly(lactide-co-glycolide); Surface grafting; Nanocomposite; Osteogenic bioactivity