Photodynamic Therapy 405 nm Diode Laser as Antibacterial for Cavity and Root Canal Sterilization

Tasya Nafatila Chalisha, - and Nadira Nurin Febrianti, - and Sri Kunarti, - and Setyabudi, - (2021) Photodynamic Therapy 405 nm Diode Laser as Antibacterial for Cavity and Root Canal Sterilization. Conservative Dentistry Journal.

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Abstract

Background: The goals of caries restoration and endodontic treatment are to repair and prevent the infection from getting worse and if possible, heal the damaged tissue. To achieve this goal, it is necessary to control the presence of microbes in the cavity or root canals with chemo mechanics prior to filling or obturation of the root canals. Disinfection methods using disinfectants with effective bactericidal activity are mostly used at subtoxic levels and at concentrations where their toxicity is a significant factor. In addition, the disinfection method is considered unable to achieve thorough cavity cleaning and causes secondary infection. A new method to provide better disinfection without cytotoxic effects has recently been discovered using the photodynamic method of 405 nm diode laser therapy. Research continues and is progressing with the existence of various factors that affect the effectiveness of the 405nm diode laser as an antibacterial. Purpose: To evaluate the results of research on photodynamic diode laser therapy with a wavelength of 405 nm as a combination antibacterial therapy in cavity and root canal sterilization techniques. Review(s): Literature study in the form of narrative review using libraries obtained through the PubMed and Google Scholar databases. The optimal bacterial mortality was influenced by the form factor of the target bacteria, the energy dose and duration of laser exposure, and the type of photosensitizer used. Conclusion: The use of a 405 nm diode laser with an energy power of 50 mW with a distance of 20 mm can degrade biofilms Streptococcus mutans up to 100% using erythrosine photosensitizer, for 75 seconds. And with the same power and distance, it can degrade the biofilm of bacteria Enterococcus fecalis up to 97.51%, using a photosensitizer chlorophyll, for 120 seconds.

Item Type: Article
Subjects: R Medicine > RK Dentistry
Divisions: 02. Fakultas Kedokteran Gigi > Ilmu Konservasi Gigi (Spesialis)
Creators:
CreatorsNIM
Tasya Nafatila Chalisha, --
Nadira Nurin Febrianti, --
Sri Kunarti, -NIDN0028035204
Setyabudi, --
Depositing User: Muhammad Fadli Rois
Date Deposited: 17 Apr 2023 00:32
Last Modified: 17 Apr 2023 00:32
URI: http://repository.unair.ac.id/id/eprint/123638
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