Effect of pre-treatment of crystallized bioactive glass with cell culture media on structure, degradability, and biocompatibility

The silicate glass 45S5 Bioglass® (BG) is a potential scaffold material for bone regeneration because of its excellent bioactivity, biocompatibility and ability to form a strong bond with bone tissues, via the formation of an apatite layer on its surface. The evaluation of in vitro bioactivity in physiological body fluids, whilst challenging, can offer some insights for developing the bone-bonding ability of these glasses in vivo. In this study, we investigated the influence of three different cell culture and tissue fluid-like solutions on the dissolution and calcium-phosphate (CaP) based re-precipitation behaviour at the glass-liquid interface. We also examined pre-treatment of BG with these biological solutions, and how its influence on bone-forming MG-63 osteoblastic cell proliferation, viability and adhesion. The biological solutions used in this comparative study were: commercial cell culture medium (DMEM), a DMEM solution without organic components (DML) and a simulated body fluid (SBF), incorporating TRIS-buffer. Incubation of BG in these solutions over 28 days resulted in differences in weight loss, solution pH and ion release, and the development of CaP-based surface layers. XRD and FT-IR analyses showed clear differences in the characteristics of the CaP-based coating layers formed by the different solutions. The interfacial reactivity between the glass and the solutions depended on the composition and properties of the solutions. The formation of the CaP layer occurred more rapidly in SBF due to the presence of TRIS-buffer, which also significantly accelerated glass dissolution, further reducing the BG mass in SBF. MG-63 osteoblasts proliferated and spread more rapidly across the surfaces of all pre-conditioned BG, compared to fresh BG. The experimental results of this work help clarify differences between in vitro bioactivity of BG observed in cell culture solutions and in vivo BG bioactivity. Pre-treatment of Bioglass with different cell culture solutions induces development of various calcium phosphate-based coating layers on the glass surface and enhances biocompatibility. [Display omitted] •Pre-treatment with different cell culture solutions controls the surface chemistry of crystallized 45S5 Bioglass®.•XRD and FT-IR show a range of surface calcium phosphate phases are formed.•Pre-treatment conditions also determine bone-forming MG-63 osteoblastic cell proliferation, viability and adhesion.•The results clarify differences between in vitro