Fabrication and in vitro characterization of porous biodegradable composites based on phosphate glasses and oligolactide-containing polymer networks

Degradable porous composite materials for use as temporary bone replacement or tissue engineering scaffolds were produced using a methacrylate-modified oligolactide polymer network and phosphate invert glasses in the system P2O5-CaO-MgO-Na2O-(TiO2). Porous glasses with an open interconnective porosity were produced by a salt sintering process. Compressive strengths were significantly enhanced by polymer coating of the inner surface of the porous glasses or by fabrication of glass powder-reinforced porous polymer specimens. In vitro degradation in simulated body fluid showed a degradation pattern of the composites which could be modulated by the composition and resulting solubility of the incorporated glass phase. Cytocompatibility of the composites was investigated in a FDA/EtBr viability assay using an MC3T3-E1 osteoblast-like cell line and showed good biocompatibility of the materials in vitro. (c) 2006 Wiley Periodicals, Inc.