J. Hargreaves et al., Bacterial contamination associated with electronic faucets: A new risk forhealthcare facilities, INFECT CONT, 22(4), 2001, pp. 202-205
OBJECTIVE: To investigate the safety of the hospital water supply following
a major flood.
DESIGN: Surveillance was conducted of the hospital water supply as it enter
ed the hospital and at randomly selected water faucets throughout the facil
ity.
SETTING: A newly constructed surgical critical-care unit in a 265-bed commu
nity hospital that had to be evacuated and was out of operation for 6 weeks
following a major flood of the city.
METHODS: Random water samples throughout the facility were analyzed for het
erotrophic plate counts (HPCs), chlorine, and coliforms utilizing standard
methods.
RESULTS: Water samples entering the hospital met appropriate standards, ind
icating the city water distribution system was not contaminated. Of 169 fau
cets tested, 13 (22%) of 59 electronic faucets exceeded the HPC threshold,
and 12 (11%) of 110 manual faucets exceeded the HPC threshold (P < .14). A
comparison of two brands of electronic faucets with manual faucets and with
each other revealed that the HPC threshold was exceeded by 11 (32%) of 34
brand A faucets as compared to 12 (11%) of 110 manual faucets (P < .006). T
he HPC threshold was exceeded by 2 (8%) of 25 brand B faucets compared to 1
2 (11%) of 110 manual faucets (P < .94). Contamination rates of brand A and
brand B faucets differed significantly (P < .003). Similar testing 2 month
s after hyper chlorination of the water supply indicated that the HPC thres
hold was exceeded by 16 (52%) of 31 brand A faucets compared to 10 (9.%) of
110 manual faucets (P < .0000003) and by 2 (18%) of 25 brand B faucets com
pared to 10 (9%) of 110 manual faucets (P=1.0).
CONCLUSIONS: A certain brand of electronic water faucet used in the hospita
l was associated with unacceptable levels of microbial growth in water and
was a continuing source of bacteria potentially hazardous to patients.