OBJECTIVE: To compare bacterial contamination associated with electronic faucets and manual faucets in wards admitting patients highly susceptible to infection. DESIGN: Water samples from electronic faucets and manual faucets were taken according to the French recommendations on water surveillance in healthcare settings. SETTING: Hematology and intensive care units (ICUs) of a 900-bed university hospital and a 500-bed general hospital. MEASUREMENTS AND RESULTS: Overall 227 water samples were collected, 92 from electronic faucets and 135 from manual faucets. Thirty-six (39%) of the water samples from electronic faucets and 2 (1%) from manual faucets yielded pathogenic bacteria. In hematology wards 17 (30%) samples from electronic faucets and 2 (2%) from manual faucets were contaminated. In ICUs 19 (53%) samples from electronic faucets and none of 48 from manual faucets were contaminated. All samples were contaminated with various strains of Pseudomonas aeruginosa (8 to >100 CFU/100 ml). Despite hyperchlorination the electronic faucets remained contaminated. Replacing the contaminated electronic faucets by manual faucets led to a complete and sustained elimination of bacterial contamination. Contamination was not associated with a particular brand of electronic faucets. CONCLUSIONS: Our findings demonstrate that electronic faucets are significantly more frequently contaminated than manual faucets and could be a major reservoir for P. aeruginosa. Wards admitting patients highly susceptible to infection and using electronic faucets should be aware of this potential threat. Moreover, units already equipped with these devices, should check water quality periodically.
OBJECTIVE: To compare bacterial contamination associated with electronic faucets and manual faucets in wards admitting patients highly susceptible to infection. DESIGN:Water samples from electronic faucets and manual faucets were taken according to the French recommendations on water surveillance in healthcare settings. SETTING: Hematology and intensive care units (ICUs) of a 900-bed university hospital and a 500-bed general hospital. MEASUREMENTS AND RESULTS: Overall 227 water samples were collected, 92 from electronic faucets and 135 from manual faucets. Thirty-six (39%) of the water samples from electronic faucets and 2 (1%) from manual faucets yielded pathogenic bacteria. In hematology wards 17 (30%) samples from electronic faucets and 2 (2%) from manual faucets were contaminated. In ICUs 19 (53%) samples from electronic faucets and none of 48 from manual faucets were contaminated. All samples were contaminated with various strains of Pseudomonas aeruginosa (8 to >100 CFU/100 ml). Despite hyperchlorination the electronic faucets remained contaminated. Replacing the contaminated electronic faucets by manual faucets led to a complete and sustained elimination of bacterial contamination. Contamination was not associated with a particular brand of electronic faucets. CONCLUSIONS: Our findings demonstrate that electronic faucets are significantly more frequently contaminated than manual faucets and could be a major reservoir for P. aeruginosa. Wards admitting patients highly susceptible to infection and using electronic faucets should be aware of this potential threat. Moreover, units already equipped with these devices, should check water quality periodically.
Authors: J Hargreaves; L Shireley; S Hansen; V Bren; G Fillipi; C Lacher; V Esslinger; T Watne Journal: Infect Control Hosp Epidemiol Date: 2001-04 Impact factor: 3.254
Authors: Jordi Vallés; Eduard Mesalles; Dolors Mariscal; Ma del Mar Fernández; Rocío Peña; José Luis Jiménez; Jordi Rello Journal: Intensive Care Med Date: 2003-09-10 Impact factor: 17.440
Authors: Philippe Berthelot; François Chord; Franck Mallaval; Florence Grattard; Didier Brajon; Bruno Pozzetto Journal: Intensive Care Med Date: 2006-06-02 Impact factor: 17.440