Study finds fire stations contaminated with MRSA
MRSA transmission may be occurring in fire stations, according to a study published in the June issue of the American Journal of Infection Control, the official publication of APIC – the Association for Professionals in Infection Control and Epidemiology. The purpose of the study, conducted by investigators from the University of Washington School of Public Health, was to determine potential areas within the fire stations that were contaminated with methicillin-resistant Staphylococcus aureus (MRSA) and characterize the isolates to determine if they were related to hospital (HA-MRSA) and/or community (CA-MRSA) strains.
"This is the first study to molecularly characterize MRSA isolates from fire station environmental surfaces and the first study to sample both fire station surfaces and personnel as well as one of the first studies to characterize non-health care environmental MRSA," commented lead investigator Marilyn C. Roberts, PhD, University of Washington School of Public Health.
Researchers assessed nine different areas in two fire stations that included 1) medic trucks; 2) fire trucks and fire engines; 3) outer fire gear; 4) garages; 5) kitchens; 6) bathrooms; 7) bedrooms; 8) gyms; and 9) other areas. After the first sampling, an educational program was conducted at each station, and hand sanitizers were installed. A second set of samples was collected 7-9 months later at the same two stations. During the second sampling, nasal samples were obtained from 40 healthy fire personnel from 13 stations to evaluate MRSA carriage.
A total of 1,064 samples were collected, 600 in the first sampling and 464 in the second. Each sample was analyzed for MRSA, staphylococci that were not S. aureus but were resistant to methicillin (labeled methicillin-resistant coagulase negative Staphylococcus spp. [MRCoNS]), and staphylococci that were not methicillin resistant (labeled as coagulase negative Staphylococcus spp. [CoNS]).
At the first sampling, 26 (4.3%) of the 600 surface samples were MRSA positive, with MRSA positive samples found in all nine areas sampled. The most common area for MRSA contamination was the medic trucks with 13 (50%), the kitchens with 3 (11.5%) and other areas such as computer keyboards and computer desks with 2 (7.7%).
At the second sampling, 18 (3.9%) of the 464 surface samples were MRSA positive, with MRSA positive samples again found in all nine areas sampled. The kitchen and outer gear both had 4 (22%) MRSA positive samples, while the medic truck had 3 (16.6%), other areas had 1-2 MRSA positive samples each. Two samples contained a strain of MRSA (MRSA SCCmec type II), which is commonly found in hospitals, and were isolated from the fire truck/engine and garage areas.
Thirty percent of the nasal cultures were positive for MRSA (9 samples) or S. aureus (3 samples). The majority (58%) of the nasal MRSA and S. aureus were genetically related to environmental surface isolates suggesting transmission between personnel and the environmental surfaces may be occurring.
Investigators conclude that "Fire personnel interact with both hospital and community population as part of their job and thus have the potential for exposure to MRSA from both sources…MRSA SCCmec type II isolates, commonly found in the hospital, were also identified in the study, demonstrated that both community- and hospital-like MRSA can contaminate the fire station surfaces. The isolation of the same strain in the fire apparatuses and garage as well as the living quarters suggests that the transmission of MRSA may be occurring between these two areas…Clearly more research is needed to determine if the current findings are representative of fire stations surfaces and personnel throughout the country."
MRSA is an antibiotic-resistant bacteria that can lead to severe infections and is associated with approximately 19,000 deaths annually, according to the Centers for Disease Control and Prevention (CDC). Community-acquired MRSA infections are on the rise, and outbreaks of such infections have occurred among previously healthy individuals on school and professional sports teams, in day care centers, jails, and the military. Risk factors for CA-MRSA include shared personal care products, frequent skin-to-skin contact, skin abrasions and crowded living conditions.
Source: Elsevier Health Sciences
Articles on the same topic
- New strain of MRSA discoveredFri, 3 Jun 2011, 23:04:18 UTC
- New type of MRSA in hospitalized patients probably of animal origin Thu, 2 Jun 2011, 15:04:17 UTC
- Study finds dangerous bacteria on cell phones of hospital patientsTue, 31 May 2011, 23:38:47 UTC
Other sources
- New strain of MRSA discoveredfrom Biology News NetMon, 6 Jun 2011, 13:30:23 UTC
- New MRSA Strain Found In Dairy Cattle and Humansfrom Scientific AmericanSat, 4 Jun 2011, 13:00:23 UTC
- New strain of MRSA discovered: Antibiotic resistant bacteria found in both humans and dairy cowsfrom Science DailyFri, 3 Jun 2011, 23:30:24 UTC
- New strain of MRSA discoveredfrom PhysorgFri, 3 Jun 2011, 8:30:36 UTC
- New strain of MRSA superbug may have spread from cattle to humansfrom The Guardian - ScienceFri, 3 Jun 2011, 6:30:31 UTC
- New 'superbug' strain found in U.K. cowsfrom UPIFri, 3 Jun 2011, 4:30:29 UTC
- New 'superbug' strain found in U.K. cowsfrom UPIFri, 3 Jun 2011, 3:00:16 UTC
- New strain of MRSA found in cowsfrom BBC News: Science & NatureFri, 3 Jun 2011, 0:30:25 UTC
- Scientists find new MRSA superbug in cows, humansfrom Reuters:ScienceFri, 3 Jun 2011, 0:10:08 UTC
- New type of MRSA in hospitalized patients in Ireland probably of animal origin, new research findsfrom Science DailyThu, 2 Jun 2011, 15:30:22 UTC
- New type of MRSA in hospitalized patients probably of animal originfrom PhysorgThu, 2 Jun 2011, 15:00:37 UTC
- MRSA transmission may be occurring in fire stations, study suggestsfrom Science DailyWed, 1 Jun 2011, 18:30:30 UTC
- Study finds fire stations contaminated with MRSAfrom PhysorgWed, 1 Jun 2011, 15:30:52 UTC
- Dangerous bacteria found on cell phones of hospital patientsfrom Science DailyTue, 31 May 2011, 23:31:01 UTC
- Study finds dangerous bacteria on cell phones of hospital patientsfrom PhysorgTue, 31 May 2011, 16:01:27 UTC