2010年至2016年，儿童鼻腔肺炎球菌流行和抗生素相关的动态:回溯步兵研究的结果

Current Paediatrics Pub Date : 2017-11-25 DOI:10.15690/VSP.V16I5.1806

Николай Андреевич Маянский, Н М Алябьева, О. А. Пономаренко, Татьяна Владимировна Куличенко, И. В. Артемова, А. В. Лазарева, Е. А. Бржозовская, О. В. Шамина, Л. К. Катосова

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引用次数: 5

摘要

背景。肺炎球菌(肺炎链球菌)是引起儿童急性感染的主要病原体。目标。我们的目的是分析儿童鼻咽肺炎球菌血清型分布及其抗菌药物敏感性的动态。方法。进行回顾性队列研究。我们检测了2010-2016年在莫斯科国家儿童健康医学研究中心接受治疗的儿童中分离的鼻咽肺炎球菌。血清分型采用特异性抗血清和/或采用聚合酶链反应进行分子分型。采用纸片扩散法检测对氧苄西林(OXA)、红霉素(ERY)、克林霉素(CLI)、甲氧苄啶/磺胺甲恶唑、氯霉素和四环素的敏感性。2013-2016年测定青霉素(PEN)、阿莫西林(AMX)、ERY和CLI最低抑菌浓度(MIC)。结果。共检查了1,111例肺炎球菌分离株;样本取自中位年龄为4岁(25 - 75岁，2.4-6.5岁)的儿童。我们确定了48种肺炎球菌血清型;6种主要血清型为3、6А、6В、14、19F和23F，占总分布的63.2%。2010 - 2016年，血清型分布没有变化。其中，13价肺炎球菌结合疫苗覆盖了74%的5岁以下儿童血清型。5种主要血清型(6А、6В、14、19F、23F和19A)耐药率最高。2010-2016年，OXA耐药肺炎球菌和ery耐药肺炎球菌的比例分别从21.3%和24.5%上升到35.9%和36.9%。大多数(81.3%)ery耐药菌株具有mlbs表型，即对大环内酯类、林肯胺类和链霉素b耐药。2013-2016年，PEN-和amx -耐药肺炎球菌的比例分别为34.6%和3.5%。结论。在7年的研究期间，未观察到鼻咽肺炎球菌血清型分布的重大变化。肺炎球菌对AMX仍然高度敏感，但大环内酯类活性显著降低。考虑到大环内酯类药物耐药的主要机制，使用任何大环内酯类药物或林可胺类药物经经性治疗儿童肺炎球菌感染是值得怀疑的。

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ДИНАМИКА РАСПРОСТРАНЕННОСТИ СЕРОТИПОВ И АНТИБИОТИКОРЕЗИСТЕНТНОСТИ НОСОГЛОТОЧНЫХ ПНЕВМОКОККОВ, ВЫДЕЛЕННЫХ У ДЕТЕЙ В 2010–2016 ГГ.: РЕЗУЛЬТАТЫ РЕТРОСПЕКТИВНОГО КОГОРТНОГО ИССЛЕДОВАНИЯ

Background. Pneumococci (Streptococcus pneumoniae) represent major pathogens that cause acute infections in children. Objective. Our aim was to analyze dynamics of the distribution of nasopharyngeal pneumococcal serotypes and their antimicrobial susceptibility in children. Methods. A retrospective cohort study was conducted. We examined nasopharyngeal pneumococci isolated from children getting care at the National Medical Research Center of Children’s Health (Moscow) in 2010–2016. Serotyping was performed using specific antisera and/or by molecular typing employing PCR. Susceptibility to oxacillin (OXA), erythromycin (ERY), clindamycin (CLI), trimethoprim/sulfamethoxazol, chloramphenicol and tetracycline was tested by the disk diffusion method. In 2013–2016, penicillin (PEN), amoxicillin (AMX), ERY and CLI minimal inhibitory concentrations (MIC) were measured. Results. A total of 1,111 pneumococcal isolates were examined; the sample was obtained from children with a median age of 4 years (P25–P75, 2.4–6.5 years). We identified 48 pneumococcal serotypes; six leading serotypes were serotypes 3, 6А, 6В, 14, 19F and 23F aggregating a proportion of 63.2% in the overall distribution. From 2010 to 2016, the distribution of serotypes has not changed. Wherein, 13-valent pneumococcal conjugate vaccine covered 74% of serotypes in children under 5 years. The five leading serotypes (6А, 6В, 14, 19F, 23F and serotype 19A) had the highest resistance rate. Within 2010–2016, the proportion of OXA- and ERY-resistant pneumococci grew from 21.3% to 35.9% and from 24.5% to 36.9%, respectively. The majority (81.3%) of ERY-resistant isolates possessed an MLSB-phenotype, i. e. were resistant to macrolides, lincosamides, and streptogramin B. In 2013–2016, the rate of PEN- and AMX-resistant pneumococci was 34.6% and 3.5%, respectively. Conclusion. Within the seven year study period, no major shifts in the nasopharyngeal pneumococcal serotype distribution were observed. The pneumococci remained highly susceptible to AMX, but activity of macrolides was significantly reduced. Considering the leading mechanism of macrolide resistance, the use of any macrolides or lincosamides for empiric treatment of pneumococcal infections in children is questionable.

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Current Paediatrics

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