Abstract

Various attempts to modify the surface of dental implants have been made in order to improve the adhesion of osteocytes. Plasma treatment on dental implants has been suggested to improve osseointegration. This study examined the effect on cell viability with the passage of time after atmospheric plasma treatment. An atmospheric plasma generator (PGS-200 Plasma generator, Expantech Co., Korea) was used and the gas was mixed with the Ar₂(99%)/O₂(1%) composition and applied to the specimens. The passage of time was set to 7 immediately after treatment, after 30 minutes of treatment, after 60 minutes of treatment, after 90 minutes of treatment, after 24 hours of treatment, and after 48 hours of treatment. Surface property change with the passage of time after plasma treatment were confirmed by FE-SEM, surface roughness and X-ray photoelectron spectroscopy. Cell viability was evaluated by the WST-8 assay. The data were analyzed statistically using a 1-way ANOVA and Tukey's multiple comparisons test (α = .05). It was confirmed that the chemical composition of the surface changes as the passage of time increases after plasma treatment. The viability of L-929 cells was the highest immediately after plasma treatment, and cell viability decreased with increasing the passage of time. As a result of this study, it was confirmed that passage of time is a very important factor for the plasma treated surface.

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