Antibiotic Resistance Unit, National Institute of Health Dr Ricardo Jorge, Av. Padre Cruz, 1649-016 Lisboa, Portugal
Sir,
Since the description of the first clinical isolate of Neisseria meningitidis with reduced susceptibility to penicillin (MRSP),1 similar findings have been reported from a number of countries.2,3 At the same time, the frequency of serogroup C meningococci has increased in Europe.4
Twenty-seven MRSP invasive strains recovered from the collection of the Antibiotic Resistance Unit at the National Institute of Health in Lisbon were analysed. MRSP were defined as strains with a penicillin MIC of 0.121 mg/L. MICs of penicillin and of ampicillin (Wyeth Lederle Portugal), cefotaxime (Hoechst Marion Rousel), ceftriaxone (Roche Pharmaceuticals), ciprofloxacin (Bayer Portugal) and rifampicin (Novartis Farma) were determined by an agar dilution method according to NCCLS guidelines.5 Serogroup determination was carried out by a slide agglutination method with specific antisera (Murex Biotech, Dartford, UK). ß-Lactamase production was assessed on all isolates by chromogenic cephalosporin assay (Oxoid, Basingstoke, UK).
Ampicillin was found to be less active than penicillin against meningococci (Table). None of the isolates produced ß-lactamase. All meningococci were fully susceptible to cefotaxime, ceftriaxone, ciprofloxacin and rifampicin. Most of the MRSP isolates were from serogroup C (19/27, 70.4%), but 6/27 (22.2%) belonged to serogroup B and 2/27 (7.4%) belonged to serogroup W135.
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In this study we demonstrate a high prevalence of MRSP in serogroup C, which indicates that meningococcal group C conjugate (MCC) vaccine in national prophylaxis programmes could be very useful in countries with such a high prevalence. Immunization with effective vaccines is the best approach for controlling meningococcal disease, and the MCC vaccine has been demonstrated to have an effect on the epidemiological pattern of serogroup C infection.6
Our data highlight the importance of serotype and resistance surveillance for these pathogens in helping to define health policies. Improvements in the submission of meningococcal isolates to national reference laboratories are crucial for maximizing the efficacy of this surveillance.
Acknowledgements
The authors would like to thank the pharmaceutical companies represented in Portugal, cited in the text, for having supplied antibiotic powders.
Notes
* Corresponding author. Tel: +351-21-751-9246; Fax: +351-21-752-6400; E-mail: manuela.canica{at}insa.min-saude.pt
References
1 . Sáez-Nieto, J. A., Fontanals, D., Garcia de Jalón, J., Martinez Artola, V., Pena, P., Morera, M. A. et al. (1987). Isolation of Neisseria meningitidis strains with increase of penicillin minimal inhibitory concentrations.Epidemiology and Infection 99, 4639.[ISI][Medline]
2 . Sutcliffe, E. M., Jones, D. M., El-Sheikh, S. & Percival, A. (1988). Penicillin-insensitive meningococci in the UK. Lancet i, 6578.
3 . Botha, P. (1988). Penicillin-resistant Neisseria meningitidis in Southern Africa. Lancet i, 54.
4 . Noah, N. & Henderson, B. (1999). Surveillance of bacterial meningitis in Europe 1997/98. CDSC-PHLS Monograph, London, UK.
5 . National Committee for Clinical Laboratory Standards. (2000). Performance Standards for Antimicrobial Susceptibility TestingTenth Informational Supplement (Aerobic Dilution): Approved Standard M100-S10 (M7). NCCLS, Wayne, PA.
6 . Ramsay, M. E., Andrews, N., Kaczmarski, E. B. & Miller, E. (2001). Efficacy of meningococcal serogroup C conjugate vaccine in teenagers and toddlers in England. Lancet 357, 1956.[ISI][Medline]