Dipartimento di Malattie Infettive, Parassitarie ed Immunomediate, Istituto Superiore di Sanità, Rome, Italy.
Clin Microbiol Infect. 2011 Dec;17(12):1834-9. doi: 10.1111/j.1469-0691.2011.03479.x. Epub 2011 Jul 1.
During an area-based study, 75 group B streptococcus (GBS) strains isolated both from early-onset disease (EOD, 37 strains) and from late-onset disease (LOD, 38 strains) were analysed for serotype, pulsed field gel electrophoresis (PFGE) and multilocus sequence typing profiles, protein markers and antibiotic resistance. Serotype III, possessing the rib gene, was the most frequent (54 strains, 72%) and responsible for 89.5% and 54% of LOD and EOD, respectively. Forty-six serotype III strains belonged to the same PFGE type and clonal complex 17, already described as an over-represented clone in neonatal invasive GBS infections. Other serotypes were Ia (9.3%), II (6.7%), Ib (5.3%), V (5.3%) and IV (1.3%). Seventeen PFGE groups were identified comprising strains with related sequence types; conversely, strains displaying the same sequence type could belong to different PFGE groups. When both neonate and maternal strains from vaginorectal swabs and/or milk were available (eight cases), they were indistinguishable. Resistance to erythromycin (12%) was associated with a constitutive resistance to clindamycin in five cases (four carrying the erm(B) gene and one both the erm(B) and mef(E) genes) and with an inducible clindamycin resistance in two cases (one possessing the erm(A) gene, the other the erm(T) gene). Two isolates displayed the M phenotype (mef(E) gene). All strains but five were resistant to tetracycline, mostly mediated by the tet(M) gene (97.1%). The study underlined the importance of an active surveillance system for the elucidation of a GBS population structure causing neonatal infections and allowed the detection of rare antibiotic resistance determinants [erm(T)].
在一项基于区域的研究中,分析了从早发性疾病(EOD,37 株)和晚发性疾病(LOD,38 株)分离的 75 株 B 群链球菌(GBS)菌株的血清型、脉冲场凝胶电泳(PFGE)和多位点序列分型谱、蛋白标记物和抗生素耐药性。携带 rib 基因的血清型 III 最为常见(54 株,72%),分别导致 89.5%和 54%的 LOD 和 EOD。46 株血清型 III 菌株属于相同的 PFGE 型和克隆复合物 17,该克隆复合物已被描述为新生儿侵袭性 GBS 感染中过度表达的克隆。其他血清型包括 Ia(9.3%)、II(6.7%)、Ib(5.3%)、V(5.3%)和 IV(1.3%)。共鉴定出 17 个 PFGE 组,其中包括具有相关序列型的菌株;相反,具有相同序列型的菌株可能属于不同的 PFGE 组。当从阴道直肠拭子和/或乳汁中获得新生儿和产妇菌株时(8 例),它们是不可区分的。在 5 例(4 例携带 erm(B)基因,1 例同时携带 erm(B)和 mef(E)基因)中,红霉素(12%)耐药与克林霉素固有耐药相关,在 2 例(1 例携带 erm(A)基因,另 1 例携带 erm(T)基因)中与诱导性克林霉素耐药相关。2 株分离株显示 M 表型(mef(E)基因)。除 5 株外,所有菌株均对四环素耐药,主要由 tet(M)基因介导(97.1%)。该研究强调了建立主动监测系统以阐明导致新生儿感染的 GBS 群体结构的重要性,并检测到了罕见的抗生素耐药决定因素[erm(T)]。
