Using Antimicrobial Photodynamic Therapy with Ultrasound Devices and Bioactive Glasses as a Combined Approach for Treating Dentin Caries Lesions

Besegato, João Felipe; Melo, Priscila Borges Gobbo de; Abreu Bernardi, Adilson César; Souza, Marina Trevelin; Zanotto, Edgar Dutra; Bagnato, Vanderlei Salvador; de Souza Rastelli, Alessandra Nara

doi:10.3390/pathogens12081052

Cited by 2 publications

(1 citation statement)

References 68 publications

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“…Antimicrobial photodynamic therapy (aPDT) is known to eliminate bacterial infectious agents using reactive oxygen species (ROS) generated by irradiating a photosensitizer (PS) with a light source, particularly laser, of the same excitation wavelength. In the field of dentistry, aPDT is currently being studied for use to treat periodontal diseases [ 1 , 2 , 3 ], endodontics [ 4 , 5 ], and peri-implantitis [ 3 , 6 , 7 ], as well as dental caries [ 8 , 9 , 10 ]. The mechanism of action of aPDT is that, when PS is excited by laser irradiation at a specific wavelength, it forms an excited triplet state, which transfers energy to oxygen molecules to form highly cytotoxic ROS such as hydroxyl radicals and singlet oxygen [ 11 ].…”

Section: Introductionmentioning

confidence: 99%

Effect of Laser Irradiation Modes and Photosensitizer Types on Antimicrobial Photodynamic Therapy (aPDT) for Streptococcus sobrinus in the Crown Dentin of Bovine Teeth: An Experimental In Vitro Study

Yamaguchi,

Yoshii,

Katsuragi

et al. 2024

Dentistry Journal

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This study aimed to assess the impact of different laser irradiation modes and photosensitizer types on the bactericidal efficacy of antimicrobial photodynamic therapy (aPDT). Dentin plates were prepared by sectioning the crown dentin of bovine teeth infected with Streptococcus sobrinus (n = 11). Nine aPDTs involving the combination of three 1% solutions of photosensitizers (brilliant blue, BB; acid red, AR; and methylene blue, MB) and three irradiation modes of semiconductor lasers (50 mW for 120 s, 100 mW for 60 s, and 200 mW for 30 s) were performed for each infected dentin plate, and the control consisted of the specimens not applied with aPDT. The bactericidal effects in 10 groups were evaluated using both assays of the colony count (colony-forming-unit: CFU) and adenosine triphosphate (ATP) (relative-light-unit: RLU). The data obtained were analyzed using the Kruskal–Wallis test (α = 0.05). The most aPDT groups exhibited significantly lower RLU and CFU values compared with the control (p < 0.05). The effect of irradiation modes on RLU and CFU values was significant in the aPDT group using BB (p < 0.05) but not in the aPDT group using AR or MB. The aPDT performed with AR or MB exerted a remarkable bactericidal effect.

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Section: Introductionmentioning

confidence: 99%

Effect of Laser Irradiation Modes and Photosensitizer Types on Antimicrobial Photodynamic Therapy (aPDT) for Streptococcus sobrinus in the Crown Dentin of Bovine Teeth: An Experimental In Vitro Study

Yamaguchi,

Yoshii,

Katsuragi

et al. 2024

Dentistry Journal

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Possible removal of the quinolone antibiotic moxifloxacin from contaminated water by biogenically synthesized alumina/ZnO/NiO nanocomposites using Commiohora myrrha extract

Al-Mohaimeed

2024

Preprint

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The environmentally friendly synthesis of triple metal oxide nanocomposites incorporating natural gum extract has attracted great interest due to its low cost, environmental friendliness, non-toxicity and as a reversal of many physical and chemical processes. Simple biosynthetic technique using Commiohora myrrha gum extract as a green reducing and stabilizing material has been used to effectively prepare the alumina/ZnO/NiO nanocomposite (alumina/ZnO/NiO NCS). Full confirmation for the synthesized alumina/ZnO/NiO NCS was conducted using optical, elemental, and microscopical detections. The findings indicated that the prepared NCS exhibits high purity with particle size 17.5 nm. The synthesized NCS was applied to remove quinolone antibiotic moxifloxacin toxins from wastewater. Adsorption/desorption efficiency for the removal of the quinolone antibiotic moxifloxacin (MOX) from wastewater under optimal experimental circumstances such as adsorption dose (1.5 mg/L) contact time (3 hours), initial MOX concentration (50 mg/L), agitation speed (250 rpm), and pH 7 has been done. Adsorption kinetics and the adsorption isotherm were investigated, and the results Every adsorbent's removal procedure followed the Langmuir adsorption isotherm. The adsorption kinetic isotherm of the removal of MOX was explained by pseudo-second order. The effectiveness of synthetic nanomaterials in eliminating toxins like MOX from tainted water was demonstrated by this study.

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Using Antimicrobial Photodynamic Therapy with Ultrasound Devices and Bioactive Glasses as a Combined Approach for Treating Dentin Caries Lesions

Cited by 2 publications

References 68 publications

Effect of Laser Irradiation Modes and Photosensitizer Types on Antimicrobial Photodynamic Therapy (aPDT) for Streptococcus sobrinus in the Crown Dentin of Bovine Teeth: An Experimental In Vitro Study

Effect of Laser Irradiation Modes and Photosensitizer Types on Antimicrobial Photodynamic Therapy (aPDT) for Streptococcus sobrinus in the Crown Dentin of Bovine Teeth: An Experimental In Vitro Study

Possible removal of the quinolone antibiotic moxifloxacin from contaminated water by biogenically synthesized alumina/ZnO/NiO nanocomposites using Commiohora myrrha extract

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