Effects of ultraviolet irradiation equipment on endodontic disease–related bacteria

Introduction Dental caries and apical periodontitis are ones of the most prevalent chronic diseases and involve infection by cariogenic and endodontic bacteria. It can be said that the most required to cure is disinfection. We hypothesized that NB-UVB could be used for intraoral disinfection without...

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Published in:Lasers in dental science 2022-03, Vol.6 (1), p.31-40
Main Authors: Haraguchi, Akira, Yoshida, Shinichiro, Takeshita, Masaaki, Sumi, Yasunori, Mitarai, Hiromi, Yuda, Asuka, Wada, Hiroko, Nishimura, Fusanori, Maeda, Hidefumi, Wada, Naohisa
Format: Article
Language:English
Subjects:
Bacteria
Cell growth
Cytotoxicity
Dental caries
Dental pulp
Dentistry
Endodontics
Gum disease
Laboratories
Lasers
Light emitting diodes
Medicine
Optical Devices
Optics
Original Article
Oxidation
Photocatalysis
Photonics
Ultraviolet radiation
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Summary:Introduction Dental caries and apical periodontitis are ones of the most prevalent chronic diseases and involve infection by cariogenic and endodontic bacteria. It can be said that the most required to cure is disinfection. We hypothesized that NB-UVB could be used for intraoral disinfection without affecting cells, and that it could be used in combination with TiO 2 to disinfect complex root canals. The objectives were to investigate the effects of UV on dental pulp cells and oral bacteria and to evaluate the enhancement effect of a photocatalyst on bactericidal effects of UV irradiation. Methods UV irradiation devices of UVB (310, 285 nm) and UVC (265 nm) were prepared. Cell proliferation and cytotoxicity assays after UV irradiation were performed using human dental pulp cells. The antibacterial activity of UV irradiation was investigated in Streptococcus mutans , Staphylococcus aureus , Enterococcus faecalis , Actinomyces naeslundii , Porphyromonas gingivalis , and Fusobacterium nucleatum. A curved simulated root canal with plastic training block was used to evaluate the effect of combined UV and TiO 2 treatment. Data were analyzed by one-way ANOVA ( p < 0.05) followed by Tukey’s post hoc tests ( p < 0.05). Results Human dental pulp cell proliferation was decreased by 265 nm, 285 nm, and 310 nm UV irradiation, although 310 nm UV irradiation did not show cytotoxic effects on these cells. Oral bacterial growth was suppressed following UV irradiation at 285 nm and 265 nm. Viability of all bacteria significantly decreased with UV irradiation. In the curved simulated root canal, viability of E. faecalis in UV irradiation at 285 nm with long taper fibers was significantly decreased in the 300 s irradiation group. E. faecalis proliferation was inhibited by combined UV irradiation and TiO 2 application with long taper fibers in the curved simulated root canal. Conclusions The wavelength of UVB and UVC showed bactericidal effects on oral bacteria including caries-related bacteria and apical periodontitis–related bacteria while NB-UVB did not. UVB with longer fibers was more effective in disinfection on E. faecalis in curved simulated root canal, and the combined use of photocatalyst further improved the disinfection effect.
ISSN:2367-2587
2367-2587
DOI:10.1007/s41547-021-00145-8