RRC ID 50652
Author Fujita M, Mashima I, Nakazawa F.
Title Monitoring the decontamination efficacy of the novel Poseidon-S disinfectant system in dental unit water lines.
Journal J Microbiol Immunol Infect
Abstract BACKGROUND:Contaminated dental unit waterlines (DUWLs) are a known source of specific health care-acquired infections because of the difficulty in keeping them clean during routine dental practice. Recently, an electrolysis apparatus that uses only the chlorine normally present in municipal water, the Poseidon-S system, was developed as a novel additive-free disinfectant system to control microbial contamination in DUWLs.
METHODS:The microbiological quality of water samples collected from DUWLs was assessed before and after installation of the Poseidon-S system in terms of the total viable counts (TVCs) of microorganisms. The microbicidal effects of the electrolyzed water against oral organisms and its cytotoxicity against human oral-derived cell lines were also examined.
RESULTS:Water samples from the DUWLs initially had average microbial TVCs of 103-106 colony-forming units (CFU)/mL. After installation of the Poseidon-S system, the number of microorganisms in the water samples decreased to less than 1 × 102 CFU/mL. The electrolyzed water also exhibited remarkable microbicidal effects on the microorganisms present in the DUWLs as well as microorganisms commonly isolated from human oral cavities, but showed low cytotoxicity towards human oral-derived cells.
CONCLUSION:This study demonstrated that routine use of the Poseidon-S system can effectively maintain low microbial levels in DUWLs.
Volume 50(3)
Pages 270-276
Published 2017-6
DOI 10.1016/j.jmii.2015.05.006
PII S1684-1182(15)00756-2
PMID 26066542
MeSH Bacteria / isolation & purification* Cell Line / drug effects Cell Line / physiology Cell Survival / drug effects Colony Count, Microbial Decontamination / methods* Dental Offices* Disinfectants / pharmacology* Disinfectants / toxicity Disinfection / methods* Humans Water Microbiology* Water Supply*
IF 2.094
General Microbes JCM 6328