Synergistic Antimicrobial Effect of Photodynamic Inactivation and Sweeps in Combined Treatment Against Enterococcus Faecalis in a Root Canal Biofilm Model: An in Vitro Study

Synergistic Antimicrobial Effect of Photodynamic Inactivation and Sweeps in Combined Treatment Against Enterococcus Faecalis in a Root Canal Biofilm Model: An in Vitro Study Publisher

Afrasiabi S¹ ; Parker S² ; Chiniforush N¹

Show Affiliations

1. Laser Research Center of Dentistry, Dentistry Research Institute, Tehran University of Medical Sciences, Tehran, 1441987566, Iran
2. Faculty of Health Sciences, De Montfort University, Leicester, LE1 9BH, United Kingdom

Source: Applied Sciences (Switzerland) Published:2023

Abstract

Background: Persistent bacterial infections caused by biofilm-associated Enterococcus faecalis are a global public health concern. This study aims to compare the biofilm removal effects of methylene blue (MB) or hydrogen peroxide (HP) mediated photodynamic inactivation (PDI) with a shock wave enhanced emission photoacoustic streaming (SWEEPS) method laser irradiation enhanced bactericidal activity. Methods: A total of fifty extracted single-rooted human teeth were used. Each canal was then inoculated with a bacterial suspension of E. faecalis and left for ten days to induce biofilm formation. The antibacterial effects within treated root canals using MB or HP + diode laser or SWEEPS alone or in combination were assessed and compared with 5.25% sodium hypochlorite (NaOCl) as the positive control group. Data were analyzed using one-way ANOVA and Tukey’s post hoc test. Results: The MB + diode laser + SWEEPS and HP + diode laser + SWEEPS groups displayed significantly lower amounts of bacteria than either the MB + diode laser or SWEEPS and HP + diode laser or SWEEPS groups (p < 0.001). There was no statistically significant difference detected between the diode laser and SWEEPS groups (p = 0.982). Conclusions: SWEEPS can enhance the photosensitizer distribution in the root canal, leading to effective biofilm removal. This technique could thus help promote the future development of endodontic treatments. © 2023 by the authors.

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Style	Citing Format
MLA	Afrasiabi S, Parker S, Chiniforush N. "Synergistic Antimicrobial Effect of Photodynamic Inactivation and Sweeps in Combined Treatment Against Enterococcus Faecalis in a Root Canal Biofilm Model: An in Vitro Study." Applied Sciences (Switzerland), vol. 13, no. 9, 2023, pp. -.
APA	Afrasiabi S, Parker S, Chiniforush N (2023). Synergistic Antimicrobial Effect of Photodynamic Inactivation and Sweeps in Combined Treatment Against Enterococcus Faecalis in a Root Canal Biofilm Model: An in Vitro Study. Applied Sciences (Switzerland), 13(9), -.
Chicago	Afrasiabi S, Parker S, Chiniforush N. "Synergistic Antimicrobial Effect of Photodynamic Inactivation and Sweeps in Combined Treatment Against Enterococcus Faecalis in a Root Canal Biofilm Model: An in Vitro Study." Applied Sciences (Switzerland) 13, no. 9 (2023): -.
Harvard	Afrasiabi S, Parker S, Chiniforush N (2023) 'Synergistic Antimicrobial Effect of Photodynamic Inactivation and Sweeps in Combined Treatment Against Enterococcus Faecalis in a Root Canal Biofilm Model: An in Vitro Study', Applied Sciences (Switzerland), 13(9), pp. -.
Vancouver	Afrasiabi S, Parker S, Chiniforush N. Synergistic Antimicrobial Effect of Photodynamic Inactivation and Sweeps in Combined Treatment Against Enterococcus Faecalis in a Root Canal Biofilm Model: An in Vitro Study. Applied Sciences (Switzerland). 2023;13(9):-.
BibTex	@article{ author = {Afrasiabi S and Parker S and Chiniforush N}, title = {Synergistic Antimicrobial Effect of Photodynamic Inactivation and Sweeps in Combined Treatment Against Enterococcus Faecalis in a Root Canal Biofilm Model: An in Vitro Study}, journal = {Applied Sciences (Switzerland)}, volume = {13}, number = {9}, pages = {-}, year = {2023} }
RIS	TY - JOUR AU - Afrasiabi S AU - Parker S AU - Chiniforush N TI - Synergistic Antimicrobial Effect of Photodynamic Inactivation and Sweeps in Combined Treatment Against Enterococcus Faecalis in a Root Canal Biofilm Model: An in Vitro Study JO - Applied Sciences (Switzerland) VL - 13 IS - 9 SP - EP - PY - 2023 ER -

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