PURPOSE. Superficial bone demineralization has been shown to favor graft consolidation and cell behavior; however, the mechanisms involved are unclear. Therefore, this study aimed to understand the role of bone structural changes on cell biology after demineralization with citric acid. MATERIAL AND METHODS. Bone samples harvested from rats’ calvaria were assigned to receive one of the treatments (n=15): demineralization with 10% citric acid (CA.10), demineralization with 50% citric acid (CA.50), or washing with saline solution (C). MC3T3-E1 cells cultured on treated bone surfaces were analyzed regarding morphology and spreading. SEM and confocal microscopy were used in other samples (n=5) before and after demineralization with CA.10 or CA.50 to access chemical composition (%A) and surface parameters. RESULTS. Cells grown on demineralized bone surfaces were flatter, spread, and presented more elongated filopodia than those cultured on non-demineralized surfaces. The surface area covered by cells was significantly larger after 24h of culture in CA.10 and CA.50 than in the control group. Demineralization had no effect on Ra and Sa parameters, but P-V and P-P decreased significantly. %A was not affected by demineralization. CONCLUSION. Both CA concentrations produced bone surface changes that can promote pre-osteoblast growth and morphology compatible with advanced stages of differentiation.
Keywords: Bone demineralization, Bone regeneration, Cell morphology, Citric acid, Osteoblasts, Surface
