Publication date: Available online 20 October 2017
Source:Dental Materials
Author(s): Rino Harada, Eitoyo Kokubu, Hideaki Kinoshita, Masao Yoshinari, Kazuyuki Ishihara, Eiji Kawada, Shinji Takemoto
ObjectiveTo investigate the effects of sulfides produced by Porphyromonas gingivalis (P. gingivalis) on the corrosion behavior of titanium.MethodsCommercially pure titanium disks were mirror-polished and immersed in culture medium (BHI), spent medium after culturing P. gingivalis (BHI-S), and culture medium with P. gingivalis (BHI-P), and incubated aerobically at 37°C for 3–14 days. Titanium corrosion was evaluated through surface observation (using scanning electron microscope: SEM), color change (ΔE*ab), glossiness (Gs(20°)), chemical composition and state (using X-ray photoelectron spectroscopy: XPS), and titanium release.ResultsΔE*ab and Gs(20°) did not significantly differ among specimens placed in test mediums for the study duration (p>0.05). SEM images of specimens showed no signs of localized or overall corrosion. XPS analysis indicated showed clear titanium metal state peaks on all specimens in addition to sulfide and sulfate on BHI-S and BHI-P specimens. Valency fraction of titanium decomposed from Ti2p spectrum of BHI-S and BHI-P specimens indicated no progression of oxidation. No significant levels of titanium release were found regardless of the mediums' sulfide content. Results suggested that sulfides produced by P. gingivalis attached on the surface of titanium specimens but did not cause titanium corrosion over the immersion period of 14 days.SignificanceIt is imperative for dental practitioners to be aware of any elements which may influence the clinical success of titanium implants.
Graphical abstract
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