An international multicenter study was undertaken to investigate the epidemiological dynamics of penicillin-resistant pneumococci. We compared the molecular epidemiological characteristics of 205 penicillin-resistant isolates originating from The Netherlands, Thailand, United States, Spain, Greece, Poland, Cuba, Germany, Finland, United Kingdom, South Africa, Hungary, Portugal, Croatia, and the Czech Republic. Eighty-four distinct restriction fragment end labeling (RFEL) types were observed. Twenty-eight genetic types were shared by two or more strains. Five genetic clusters consisted of strains originating from different countries, illustrating dissemination of penicillin-resistant pneumococci among countries. The strains displaying the two predominant RFEL types corresponding with the pandemic clones 23F and 9V were found in 10 and 6 different countries, respectively. This clearly demonstrates the pandemic behavior of these two clones. Twelve out of the 28 genetic clusters contained two or more serotypes. This finding indicates frequent horizontal transfer of capsular genes. Within distinct RFEL types, identical penicillin binding protein (PBP) genotypes were often observed, suggesting a high frequency of horizontal transfer of penicillin resistance genes. The most predominant PBP type was found in 15 distinct RFEL types, comprised 44% of the entire collection, and was observed in 11 countries. The vast majority of the strains belonging to the pandemic clones 23F and 9V shared this predominant PBP type. We hypothesize that the clones 23F and 9V are responsible for the worldwide increase of penicillin-resistance, because they serve as a genetic reservoir for susceptible pneumococci to acquire penicillin resistance.
In 1999, Engelen and coworkers investigated colonization in Amsterdam among 259 children attending 16 day-care centers (DCCs) and among 276 children who did not attend day-care centers (NDCCs). A 1.6-to 3.4-fold increased risk for nasopharyngeal colonization was observed in children attending DCCs compared with NDCC children, while no difference in antibiotic resistance was found between groups. The serotype and genotype distributions of 305 nasopharyngeal Streptococcus pneumoniae isolates of the latter study were investigated. The predominant serotypes in both the DCC and the NDCC groups included 19F (19 and 18%, respectively), 6B (14 and 16%, respectively), 6A (13 and 7%, respectively), 23F (9 and 7%, respectively), and 9V (7 and 7%, respectively). The theoretical vaccine coverage of the 7-valent conjugate vaccine was 59% for the DCC children and 56% for the NDCC group. Genetic analysis of the pneumococcal isolates revealed 75% clustering among pneumococci isolated from DCC attendees versus 50% among the NDCC children. The average pneumococcal cluster size in the DCC group was 3.8 and 4.6 isolates for two respective sample dates (range, 2 to 13 isolates per cluster), while the average cluster size for the NDCC group was 3.0 (range, 2 to 6 isolates per cluster). Similar to observations made in other countries, these results indicate a higher risk for horizontal spread of pneumococci in Dutch DCCs than in the general population. This study emphasizes the importance of molecular epidemiological monitoring before, during, and after implementation of pneumococcal conjugate vaccination in national vaccination programs for children.
The molecular epidemiologic characteristics of penicillin-resistant pneumococci in the Netherlands were investigated in 1995. Dutch electronic surveillance data showed that 0.7% of all pneumococci were intermediately resistant and 0.4% were highly resistant to penicillin. From March 1995 to March 1996, 89 penicillin-resistant isolates were collected by 39 medical microbiology laboratories. Thirty different genotypes were observed by restriction fragment end labeling. Twenty-one DNA types were unique, whereas 9 distinct genotypes were shared by > or = 2 isolates. Different serogroups were found within 6 of the 9 genetically identical clusters of penicillin-resistant isolates, suggesting that horizontal transfer of capsular genes is common. Finally, nosocomial transmission of penicillin-resistant pneumococci was observed among 21 elderly adults with chronic obstructive pulmonary disease. This study demonstrates that multiple clones of penicillin-resistant pneumococci have been introduced in the Netherlands, a country with a low prevalence of pneumococcal infection. Some clones spread among the population in and outside hospitals.
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