In vitro assessment of degradation and bioactivity of robocast bioactive glass scaffolds in simulated body fluid

Abstract

In this study porous three-dimensional scaffolds of borate (13-93B3) bioactive glass were prepared by robocasting and in vitro degradation and bioactivity was evaluated. Grid like scaffolds with interconnected pores was assembled using robotic deposition technique which is a direct ink writing method. After binder burnout, the constructs were sintered for 1h at 560°C to produce scaffolds (porosity≈60%) consisting of dense glass struts (300±20μm in diameter) and interconnected pores of width 580±20μm. Hydroxyapatite formation on borate bioactive glass scaffolds was investigated in simulated body fluid (SBF) using three different scaffold/SBF (S/S) ratios (1, 2 and 10mg/ml) at 37°C. When immersed in SBF, degradation rate of the scaffolds and conversion to a calcium phosphate material showed a strong dependence to the S/S ratio. At high solid concentration (10mg/ml) surface of the glass scaffolds converted to the calcium rich amorphous calcium phosphate after 30 days. At lower solid concentrations (2 and 1mg/ml) an amorphous calcium phosphate layer formation was observed followed by the conversion to hydroxyapatite.