Kaiser Thorsten, Finstermeier Knut, Häntzsch Madlen, Faucheux Sarah, Kaase Martin, Eckmanns Tim, Bercker Sven, Kaisers Udo X, Lippmann Norman, Rodloff Arne C, Thiery Joachim, Lübbert Christoph
Institute for Laboratory Medicine, Clinical Chemistry, and Molecular Diagnostics, Leipzig University Hospital, Leipzig, Germany.
Institute for Hospital Hygiene, Leipzig University Hospital, Leipzig, Germany.
Am J Infect Control. 2018 Jan;46(1):54-59. doi: 10.1016/j.ajic.2017.07.022. Epub 2017 Sep 19.
From July 2010-April 2013, Leipzig University Hospital experienced the largest outbreak of a Klebsiella pneumoniae carbapenemase 2 (KPC-2)-producing Klebsiella pneumoniae (KPC-2-Kp) strain observed in Germany to date. After termination of the outbreak, we aimed to reconstruct transmission pathways by phylogenetics based on whole-genome sequencing (WGS).
One hundred seventeen KPC-2-Kp isolates from 89 outbreak patients, 5 environmental KPC-2-Kp isolates, and 24 K pneumoniae strains not linked to the outbreak underwent WGS. Phylogenetic analysis was performed blinded to clinical data and based on the genomic reads.
A patient from Greece was confirmed as the source of the outbreak. Transmission pathways for 11 out of 89 patients (12.4%) were plausibly explained by descriptive epidemiology, applying strict definitions. Five of these and an additional 15 (ie, 20 out of 89 patients [22.5%]) were confirmed by phylogenetics. The rate of phylogenetically confirmed transmissions increased significantly from 8 out of 66 (12.1% for the time period before) to 12 out of 23 patients (52.2% for the time period after; P <.001) after implementation of systematic screening for KPC-2-Kp (33,623 screening investigations within 11 months). Using descriptive epidemiology, systematic screening showed no significant effect (7 out of 66 [10.6%] vs 4 out of 23 [17.4%] patients; P = .465). The phylogenetic analysis supported the assumption that a contaminated positioning pillow served as a reservoir for the persistence of KPC-2-Kp.
Effective phylogenetic identification of transmissions requires systematic microbiologic screening. Extensive screening and phylogenetic analysis based on WGS should be started as soon as possible in a bacterial outbreak situation.
2010年7月至2013年4月,莱比锡大学医院经历了德国迄今为止观察到的由产肺炎克雷伯菌碳青霉烯酶2(KPC-2)的肺炎克雷伯菌(KPC-2-Kp)菌株引发的最大规模疫情。疫情结束后,我们旨在通过基于全基因组测序(WGS)的系统发育学方法重建传播途径。
对来自89例疫情患者的117株KPC-2-Kp分离株、5株环境KPC-2-Kp分离株以及24株与疫情无关的肺炎克雷伯菌菌株进行WGS。系统发育分析在对临床数据不知情的情况下基于基因组读数进行。
一名来自希腊的患者被确认为疫情源头。根据严格定义,89例患者中有11例(12.4%)的传播途径可通过描述性流行病学合理解释。其中5例以及另外15例(即89例患者中的20例[22.5%])通过系统发育学得到证实。在实施针对KPC-2-Kp的系统筛查(11个月内进行了33,623次筛查调查)后,系统发育学证实的传播率从66例中的8例(之前时间段为12.1%)显著增加到23例中的12例(之后时间段为52.2%;P <.001)。使用描述性流行病学方法,系统筛查未显示出显著效果(66例中的7例[10.6%]对23例中的4例[17.4%]患者;P = 0.465)。系统发育分析支持了这样一种假设,即一个被污染的定位枕是KPC-2-Kp持续存在的储存源。
有效的传播系统发育鉴定需要系统的微生物学筛查。在细菌疫情发生时,应尽快启动基于WGS的广泛筛查和系统发育分析。
