Biotin is one of the water-soluble B-complex group of vitamins. Recent studies have found that the relative protein expression of BMP2, BSP and OPG in MC3T3-E1 cells is prominent after 14 days of co-culture with biotin film, especially for BMP2. It is also found that the rapid degradation of biotin film in vivo limits its application value. In this work, magnesium-doped hydroxyapatite (MgHA) film can form a porous network structure as a biological sustained-release film. Therefore, the multilayer (MgHA|biotin|MgHA|biotin) film was prepared by pulsed laser assisted electron beam deposition technique. The morphology, structure and properties of biotin film and multilayer film were analyzed and characterized. Also, the osteogenic effect of biotin film and multilayer film was evaluated after implantation into the femoral bone marrow cavity of SD rats. The results of micro-CT scan and 3D reconstruction showed that there were a large number of trabecular bones around the multilayer film, which was superior to biotin film in osteogenesis. Hematoxylin-eosin staining showed cancellous bone structure and intact bone marrow structure around the multilayer film, and the newly formed bone became lamellar. Masson-trichromatic staining revealed abundant osteoid and braided bone formation around the multilayer film. In conclusion, MgHA sustained release film can realize the continuous release of bioactive drugs, which provides a new route to accelerate the repair of bone defects.
Keywords: Biotin; Hydroxyapatite; Magnesium; Osteogenesis effect; Sustained-release film.
Copyright © 2022 Elsevier B.V. All rights reserved.