1997 年至 2008 年期间在荷兰采集的呼吸道标本中肺炎支原体的大环内酯类药物耐药性测定和分子分型。

Macrolide resistance determination and molecular typing of Mycoplasma pneumoniae in respiratory specimens collected between 1997 and 2008 in The Netherlands.

机构信息

Erasmus MC-Sophia Children's Hospital, Laboratory of Pediatrics, Rotterdam, The Netherlands.

出版信息

J Clin Microbiol. 2012 Jun;50(6):1999-2004. doi: 10.1128/JCM.00400-12. Epub 2012 Apr 11.

DOI:10.1128/JCM.00400-12

PMID:22495561

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3372106/

Abstract

An important role in the treatment regimens for Mycoplasma pneumoniae infections is played by macrolide (ML) antibiotics. In the past few years, however, a steady increase has been detected in the worldwide prevalence of ML-resistant (ML(r)) M. pneumoniae strains. It is obvious that this increase necessitates a continuous monitoring of ML(r) and, when detected, modification of antibiotic treatment modalities. Previously, we developed a pyrosequencing-based assay system for the genetic determination of ML(r) as well as molecular typing of M. pneumoniae. In this study, the sensitivity of this system was improved by the inclusion of a nested-PCR protocol. The modified system was applied to 114 M. pneumoniae-positive specimens that were obtained from a collection of 4,390 samples from patients with acute respiratory tract infections. These samples were collected between 1997 and 2008 in The Netherlands. The pyrosequencing system produced reliable data in 86% of the specimens that contained >500 M. pneumoniae genome copies/ml of patient sample. Each of these samples contained DNA of the ML-sensitive genotype. While 43% of the samples were found to harbor the M. pneumoniae subtype 1 genotype, 57% contained the subtype 2 genotype. We conclude that the pyrosequencing-based assay system is a useful tool for ML(r) determination and molecular typing of M. pneumoniae in patient samples. ML(r)-associated M. pneumoniae genotypes, however, were not found in the current study population.

摘要

大环内酯（ML）抗生素在肺炎支原体感染的治疗方案中起着重要作用。然而，在过去的几年中，全球范围内 ML 耐药（ML(r)）肺炎支原体菌株的流行率稳步上升。显然，这种增加需要持续监测 ML(r)，并在检测到耐药性时修改抗生素治疗方式。此前，我们开发了一种基于焦磷酸测序的检测系统，用于确定 ML(r)和肺炎支原体的分子分型。在这项研究中，通过纳入嵌套 PCR 方案，提高了该系统的灵敏度。改良后的系统应用于从 1997 年至 2008 年在荷兰采集的 4390 例急性呼吸道感染患者样本中收集的 114 份肺炎支原体阳性标本。焦磷酸测序系统在 86%的患者样本中产生了可靠的数据，这些样本中包含 >500 个 M. pneumoniae 基因组拷贝/ml 的患者样本。这些样本均包含 ML 敏感基因型的 DNA。43%的样本含有 1 型 M. pneumoniae 亚型基因型，57%的样本含有 2 型 M. pneumoniae 亚型基因型。我们得出结论，基于焦磷酸测序的检测系统是一种用于确定患者样本中 ML(r)和肺炎支原体分子分型的有用工具。然而，在本研究人群中未发现与 ML(r)相关的肺炎支原体基因型。

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