Viability test of hydroxyapatite tooth graft on osteoblast cell culture

Surgery is required to restore bone loss brought on by regenerative periodontal diseases while retaining the patient's aesthetics. The bone deficits caused by periodontal disease have been repaired using a variety of transplant materials. One of the graft materials used is dentin since it resembles bone in terms of both organic and inorganic components. In order to evaluate the viability of dental grafts, this study intended to count the osteoblast cells that were still alive after a specific therapy. Osteoblast cell cultures in 42 well plates were employed in this work. The 42 well plate cell cultures were separated into seven groups for 24 hour examinations and seven groups for 48 hour examinations in order to examine the cells using the MTT assay. Each group contained control cells, control media devoid of cells, and the treatment group, which received tooth transplant at doses of 8, 4, 2, 1, and 0.5mg/mL. Using an ELISA reader with a 595nm wavelength, the optical density of these cells was used to determine the viability of the cells. There are more than 50% of osteoblast cells in all concentrations, which is indicated by the number of these cells. The Shapiro-Wilk, Levene, and Oneway Anova tests were performed to assess the normality, uniformity, and degree of group differences in the data. This study demonstrates the biocompatibility of the tooth graft and the osteoblast cells.