J B Linger1, J A Molinari, W C Forbes, C F Farthing, W J Winget. 1. Department of Restorative Dentistry, University of Detroit Mercy, School of Dentistry, 8200 W. Outer Drive, Detroit, Mich. 48219-0900, USA. lingerjb@udmercy.edu
Abstract
BACKGROUND: The purpose of this study was to investigate the use of a hydrogen peroxide-based dental unit waterline, or DUWL, treatment to reduce the colonization and growth of heterotrophic bacteria. METHODS: Twenty-three dental units with self-contained water systems were randomly selected. Three of the units and tap water served as controls. Twenty-four water samples were taken at baseline and once a week for five weeks. They were serially diluted, spread-plated in duplicate onto R2A agar plates and incubated at 37 C for seven days. RESULTS: At baseline, the tap water control had a mean count of 0 colony-forming units/milliliter, or CFU/mL, the three control DUWLs had a median count of 8,440 CFU/mL and the 20 treated DUWLs had a median count of 9,760 CFU/mL. By week 1, 19 (95 percent) of the 20 treated DUWLs had counts of less than 200 CFU/mL, and by week 4, the median count for all of the treated DUWLs was 0 CFU/mL. The measurement at week 5 showed that the reduction to below 200 CFU/mL had been maintained. Scanning electron micrographs from processed DUWL tubing samples revealed a similar pattern of results, with biofilm accumulation more evident in the untreated control specimens. CONCLUSIONS: Following the parameters of this study, the authors used a hydrogen peroxide-based disinfectant to achieve the ADA goal of no more than 200 CFU of heterotrophic, mesophilic bacteria per milliliter of unfiltered output water. CLINICAL IMPLICATIONS: An easy-to-use hydrogen peroxide-based DUWL disinfectant demonstrated effectiveness in improving the quality of water used for intraoral procedures. Protocol compliance meets the ADA year 2000 goal.
BACKGROUND: The purpose of this study was to investigate the use of a hydrogen peroxide-based dental unit waterline, or DUWL, treatment to reduce the colonization and growth of heterotrophic bacteria. METHODS: Twenty-three dental units with self-contained water systems were randomly selected. Three of the units and tapwater served as controls. Twenty-four water samples were taken at baseline and once a week for five weeks. They were serially diluted, spread-plated in duplicate onto R2A agar plates and incubated at 37 C for seven days. RESULTS: At baseline, the tapwater control had a mean count of 0 colony-forming units/milliliter, or CFU/mL, the three control DUWLs had a median count of 8,440 CFU/mL and the 20 treated DUWLs had a median count of 9,760 CFU/mL. By week 1, 19 (95 percent) of the 20 treated DUWLs had counts of less than 200 CFU/mL, and by week 4, the median count for all of the treated DUWLs was 0 CFU/mL. The measurement at week 5 showed that the reduction to below 200 CFU/mL had been maintained. Scanning electron micrographs from processed DUWL tubing samples revealed a similar pattern of results, with biofilm accumulation more evident in the untreated control specimens. CONCLUSIONS: Following the parameters of this study, the authors used a hydrogen peroxide-based disinfectant to achieve the ADA goal of no more than 200 CFU of heterotrophic, mesophilic bacteria per milliliter of unfiltered output water. CLINICAL IMPLICATIONS: An easy-to-use hydrogen peroxide-based DUWL disinfectant demonstrated effectiveness in improving the quality of water used for intraoral procedures. Protocol compliance meets the ADA year 2000 goal.
Authors: A J Schel; P D Marsh; D J Bradshaw; M Finney; M R Fulford; E Frandsen; E Østergaard; J M ten Cate; W R Moorer; A Mavridou; J J Kamma; G Mandilara; L Stösser; S Kneist; R Araujo; N Contreras; P Goroncy-Bermes; D O'Mullane; F Burke; P O'Reilly; G Hourigan; M O'Sullivan; R Holman; J T Walker Journal: Appl Environ Microbiol Date: 2006-02 Impact factor: 4.792
Authors: Laura Dallolio; Amalia Scuderi; Maria S Rini; Sabrina Valente; Patrizia Farruggia; Maria A Bucci Sabattini; Gianandrea Pasquinelli; Anna Acacci; Greta Roncarati; Erica Leoni Journal: Int J Environ Res Public Health Date: 2014-02-18 Impact factor: 3.390