Abstract
Pseudomonas aeruginosa infections cause significant mortality and morbidity in health care settings. Strategies to prevent and control the emergence and spread of P. aeruginosa within hospitals involve implementation of barrier methods and antimicrobial stewardship programs. However, there is still much debate over which of these measures holds the utmost importance. Molecular strain typing may help elucidate this issue. In our study, 71 nosocomial isolates from 41 patients and 23 community-acquired isolates from 21 patients were genotyped. Enterobacterial repetitive intergenic consensus-polymerase chain reaction (ERIC-PCR) was performed. Band patterns were compared using similarity coefficients of Dice, Jaccard and simple matching. Strain similarity for nosocomial strains varied from 0.14 to 1.00 (Dice); 0.08 to 1.00 (Jaccard) and 0.58 to 1.00 (simple matching). Forty patterns were identified. In most units, several clones coexisted. However, there was evidence of clonal dissemination in the high risk nursery, neurology and two surgical units. Each and every community-acquired strain produced a unique distinct pattern. Results suggest that cross transmission of P. aeruginosa was an uncommon event in our hospital. This points out to a minor role for barrier methods in the control of P. aeruginosa spread.
Highlights
Pseudomonas aeruginosa is a relevant pathogen in hospitalized patients, accounting for significant morbidity and mortality [1]
We found the coexistence of several clones in most units (Figure 2)
This pattern was noticed even in units dealing with critical care and advanced life support (P-ICU, CA-ICU, medical-surgical intensive care unit (MS-ICU)), where high occurrence of cross transmission is expected
Summary
Pseudomonas aeruginosa is a relevant pathogen in hospitalized patients, accounting for significant morbidity and mortality [1]. It ranked second among agents of ventilator-associated pneumonia in North American hospitals. It was among the seven most common agents of health care-acquired urinary, blood system and surgical site infections [2]. This picture is worsened by the continuous, worldwide increase of multidrug resistance among P. aeruginosa isolates from hospitalized patients [3, 4]. Its reservoirs in the hospital and mechanisms of transmission have not been fully elucidated [5]
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