Surface-functionalization of mesoporous silica films for effective osteoblast-like cell culture

Abstract

Abstract The transparent mesoporous silica (MPS) films prepared by a supramolecular templating method was immersed in simulated body fluid (SBF), and subsequently was sterilized to evaluate the film structural stability. With immersing in SBF, the calcium and phosphate ion adsorption on the film surfaces was promoted and the mesopore structures underwent the expansion, collapse and reconstruction processes for the SBF immersion time of 6 h. The MPS films immersed in SBF for 3 h exhibited the mesostructural stability with the sterilization processes. We also investigated the Fgn adsorption states on the sterilized MPS films, which were clearly changed with the immersion time in SBF because of the different adsorption states of calcium and phosphate ions at the mesopores. Furthermore, the proliferation and differentiation behaviors of the osteoblast-like cells on the sterilized MPS films were investigated to evaluate the cell culture ability. The osteoblast–like cells cultured on the sterilized MPS films had the fibrous morphologies while maintaining the high adhesion density and were promoted to be the bone tissue formation for 14 days, indicating the preferential film environment for the cells. Therefore, it was suggested that the MPS films of this study were useful for the cell culture substrate based on their high transparency, stability against sterilization treatment, and preferential cytocompatibility.