Study on polycaprolactone coated hierarchical meso/macroporous Titania scaffolds for bone tissue engineering

In this study, the effect of PCL coating on the mechanical strength, cell behavior and cell attachment of the hierarchical meso/macroporous Titania scaffold were investigated. The Titania scaffold as the substrate was fabricated through the evaporation-induced self-assembly coupled with the foamy method. Then prepared scaffolds were coated by polycaprolactone solution with three different weight percentages by the dip-coating method. SAXS, WAXRD, SEM, compressive strength, MTT and cell attachment test were applied to characterized the samples. Based on XRD results, as polycaprolactone concentration increased, the intensity of the crystalline polycaprolactone phase increased while the TiO۲ peak intensity decreased due to the covering of mesoporous titania by polycaprolactone. Compressive strength showed that by increasing polycaprolactone percent, the porosity decrease from ۸۹.۵ to ۷۳.۸ % which caused increasing strength from ۰.۲ to ۰.۷۹ MPa. The SEM results illustrated that by increasing polycaprolactone concentration from ۱.۲ to ۱.۵ wt%, the macrospores were filled by polycaprolactone. In this regard, The sample containing ۱wt% polycaprolactone was choosen as the selective sample. Also, the MTT test reported a small trace of cytotoxicity in contact with the L۹۲۹ mouse fibroblast cells. The cell attachment test that was performed by using MG۶۳ cells, showed that the coated samples provided the suitable substrate for cells to attach and also showed cell viability on the surface of the coated substrate. Overall, according to the results, the hierarchical meso/macroporous Titania scaffold coated with ۱ wt% polycaprolactone, could have good potential to use in tissue engineering.