1 Department of Microbiology, Faculty of Nursing, School of Health Sciences, University of Athens, 123 Papadiamantopoulou Street, 11527 Athens; 2 Department of Microbiology, Hippokration University Hospital, Thessaloniki; 3 Department of Medical Microbiology, University of Thessalia, Larissa, Greece
Keywords: imipenem, meropenem, resistance
Sir,
Acinetobacter spp. are opportunistic pathogens with increasing relevance in nosocomial infections, especially among immunocompromised patients. Extensive use of antimicrobial chemotherapy for these infections has contributed to the emergence and increase of multidrug-resistant Acinetobacter spp., such as Acinetobacter baumannii strains, in various hospitals. Such strains frequently exhibit resistance to ß-lactams, aminoglycosides and fluoroquinolones. Carbapenems usually retain good potency, with imipenem being the most active against A. baumannii.1 However, in the last few years, carbapenem-resistant A. baumannii isolates have also been reported.2 Such strains exhibit various levels of susceptibility and owe their resistance either to target inaccessibility or to drug inactivation by ß-lactamases. We report the spread of low-level carbapenem-resistant A. baumannii clones in a tertiary care university Greek hospital.
During the study period (November 2000November 2001), 107 A. baumannii isolates were recovered consecutively from clinical infections of 107 different patients hospitalized at Hippokration University Hospital, Thessaloniki, Greece, the largest hospital in northern Greece. Isolates were recovered from blood, urine samples, bronchial secretions and wound exudates. Following the instructions of the API 20NE system (bioMérieux API, Marcy lÉtoile, France), the isolates were identified provisionally to genus species. The classification of A. baumannii was performed by a simplified identification scheme. For determination of MICs by the agar dilution method, imipenem and meropenem solutions and MIC plates were prepared freshly on the day of testing. The agar dilution technique was performed by inoculating 104 cfu/spot onto cation-supplemented MuellerHinton agar plates (BBL, Cockeysville, MD, USA) containing antibiotic dilutions in the range 0.0664 mg/L. MIC was recorded as the lowest drug concentration at which no growth occurred. Pseudomonas aeruginosa (ATCC 27853) was used as a control and was consistently characterized as having MIC 2 mg/L for imipenem and
0.5 mg/L for meropenem.
The majority of the clinical isolates examined exhibited low-level resistance to either imipenem (55 of 107 isolates, 51.4%) or meropenem (93 of 107 isolates, 86.9%), with the MICs in the range 28 mg/L, compared with MICs of 0.120.25 mg/L for 15 historical isolates from our hospital and relative to an MIC breakpoint of 4 mg/L. In particular, imipenem and meropenem MICs of 8 mg/L were detected for 15 and three isolates, of 4 mg/L for 11 and 28 isolates, and of 2 mg/L for 29 and 62 isolates, respectively (Table 1). Among all these isolates, cross-resistance to penicillins, penicillins with ß-lactam inhibitors, cephalosporins, aminoglycosides and quinolones was virtually complete.
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Carbapenem-resistant acinetobacters have been reported sporadically from clinical infections after prolonged exposure to carbapenems.2 However, the emergence of strains that exhibit low-level resistance to carbapenems is limited. In a UK burns unit, acinetobacters that exhibit MICs of 2 and 0.5 mg/L of meropenem and imipenem, respectively, have been reported.3 In addition, a USA electronic surveillance programme has recorded a yearly increase in A. baumanni strains with reduced susceptibility to imipenem.4 In our region, acinetobacters are one of the most frequent nosocomial pathogens, and the majority of them are multidrug-resistant, leading to an extensive use of carbapenems.5 The detection in one of the largest Greek hospitals that the vast majority of A. baumannii exhibit low-level resistance to carbapenems is a novel observation, suggesting a potential for wider dissemination. Since the disc diffusion method is not always sensitive in the detection of strains with low-level resistance to carbapenems,3 it is important that our diagnostic laboratories use a reference susceptibility method to screen periodically for the presence of such acinetobacters. The continuing spread of low-level carbapenem-resistant A. baumannii clones in our hospital demands more prudent use of antimicrobials and more strict infection control measures. Further studies, to determine if similar clones exist in other hospitals, are important in continuing to monitor this situation.
Footnotes
* Corresponding author. Tel: +30-210-746-1483; Fax: +30-210-746-1489; E-mail: atsakris{at}med.uoa.gr
References
1
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Bergogne-Berezin, E. & Towner, K. J. (1996). Acinetobacter spp. as nosocomial pathogens: microbiological, clinical, and epidemiological features. Clinical Microbiology Reviews 9, 14865.
2
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Afzal-Shah, M., Woodford, N. & Livermore, D. M. (2001). Characterization of OXA-25, OXA-26, and OXA-27, molecular class D ß-lactamases associated with carbapenem resistance in clinical isolates of Acinetobacter baumannii. Antimicrobial Agents and Chemotherapy 45, 5838.
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Weinbren, M. J., Johnson, A. P., Kaufmann, M. E. et al. (1998). Acinetobacter spp. isolates with reduced susceptibilities to carbapenems in a UK burns unit. Journal of Antimicrobial Chemotherapy 41, 5746.
4 . Jones, M. E., Thornsberry, C., Livermore, D. M. et al. (1999). Prevalence of Acinetobacter spp. isolates with reduced susceptibility to imipenem, as determined by a USA-wide electronic surveillance network. Journal of Antimicrobial Chemotherapy 42, 42931.
5 . Maniatis, A. N., Pournaras, S., Orkopoulou, S. et al. (2003). Multiresistant Acinetobacter baumannii isolates in intensive care units in Greece. Clinical Microbiology and Infection 9, 54753.[CrossRef][ISI][Medline]