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BackgroundCarbapenems resistance in Enterobacter spp. has increased in the last decade, few studies, however, described the mechanisms of resistance in this bacterium. This study evaluated clonality and mechanisms of carbapenems resistance in clinical isolates of Enterobacter spp. identified in three hospitals in Brazil (Hospital A, B and C) over 7-year.MethodsAntibiotics sensitivity, pulsed-field gel electrophoresis (PFGE), PCR for carbapenemase and efflux pump genes were performed for all carbapenems-resistant isolates. Outer-membrane protein (OMP) was evaluated based on PFGE profile.ResultsA total of 130 isolates of Enterobacter spp were analyzed, 44/105 (41, 9%) E. aerogenes and 8/25 (32,0%) E. cloacae were resistant to carbapenems. All isolates were susceptible to fosfomycin, polymyxin B and tigecycline. KPC was present in 88.6% of E. aerogenes and in all E. cloacae resistant to carbapenems. The carbapenems-resistant E. aerogenes identified in hospital A belonged to six clones, however, a predominant clone was identified in this hospital over the study period. There is a predominant clone in Hospital B and Hospital C as well. The mechanisms of resistance to carbapenems differ among subtypes. Most of the isolates co-harbored blaKPC, blaTEM and /or blaCTX associated with decreased or lost of 35–36KDa and or 39 KDa OMP. The efflux pump AcrAB-TolC gene was only identified in carbapenems-resistant E. cloacae.ConclusionsThere was a predominant clone in each hospital suggesting that cross-transmission of carbapenems-resistant Enterobacter spp. was frequent. The isolates presented multiple mechanisms of resistance to carbapenems including OMP alteration.
Aim: The objective was to describe an outbreak of bloodstream infections
by Burkholderia cepacia complex (Bcc) in bone marrow transplant and
hematology outpatients.
Methods: On February 15, 2008 a Bcc outbreak was suspected. 24 cases
were identified. Demographic and clinical data were evaluated. Environment and
healthcare workers' (HCW) hands were cultured. Species were determined and typed.
Reinforcement of hand hygiene, central venous catheter (CVC) care, infusion therapy,
and maintenance of laminar flow cabinet were undertaken. 16 different HCWs had cared
for the CVCs. Multi-dose heparin and saline were prepared on counter common to both
units.
Findings: 14 patients had B. multivorans (one patient
had also B. cenopacia), six non-multivorans Bcc and
one did not belong to Bcc. Clone A B. multivorans occurred in 12
patients (from Hematology); in 10 their CVC had been used on February 11/12.
Environmental and HCW cultures were negative. All patients were treated with
meropenem, and ceftazidime lock-therapy. Eight patients (30%) were hospitalized. No
deaths occurred. After control measures (multidose vial for single patient; CVC lock
with ceftazidime; cleaning of laminar flow cabinet; hand hygiene improvement; use of
cabinet to store prepared medication), no new cases occurred.
Conclusions: This polyclonal outbreak may be explained by a common
source containing multiple species of Bcc, maybe the laminar flow cabinet common to
both units. There may have been contamination by B. multivorans
(clone A) of multi-dose vials.
Introduction: The emergence of Klebsiella pneumoniae carbapenemase (KPC)-producing K. pneumoniae (KPC-Kpn) isolates is attracting significant attention in nosocomial infection settings. K. pneumoniae is the main pathogen that harbours blaKPC genes. Methodology: This study evaluated 54 K. pneumoniae carbapenem-resistant isolates from patients hospitalized at the University Hospital of Londrina, between July 2009 and July 2010. The isolates were phenotypically screened for carbapenemase production and submitted for genotypic confirmation by polymerase chain reaction (PCR) for KPC, metallo-β-lactamases, OXA-48, and extended-spectrum beta-lactamase genes. The absence of outer membrane proteins (OMP) was investigated by SDS-PAGE. The susceptibility profile was determined by broth microdilution, according to Clinical and Laboratory Standards Institute protocol. Results: All isolates were phenotypically positive for class A carbapenemase production, but negative for metallo-β-lactamase activity. PCR analysis demonstrated that all isolates carried blaKPC genes and sequencing showed that all strains belonged to KPC-2 subtype. Four strains did not show porin expression, and all isolates were resistant to ertapenem, meropenem, and imipenem. Susceptibility rates reached 35.2% for gentamicin, 85.2% for polymixyn B, 87% for colistin, and 98.1% for both tigecycline and fosfomycin. Pulsed-field gel electrophoresis showed six clones, and three of them predominated among the isolates. Conclusions: KPC-2-producing K. pneumoniae is becoming predominant among carbapenem-resistant K. pneumoniae isolates at the hospital. The association of the enzyme KPC with other resistance determinants, such as loss of porins, may increase the severity of the situation of nosocomial infections. There is an urgent need to develop strategies for infection control and prevention.
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