Applied Microbiology Research, Department of Biomedicine, University of Basel, Basel, Switzerland.
Clinical Bacteriology and Mycology, University Hospital Basel, Basel, Switzerland.
PLoS Pathog. 2021 Mar 19;17(3):e1009374. doi: 10.1371/journal.ppat.1009374. eCollection 2021 Mar.
The first case of SARS-CoV-2 in Basel, Switzerland was detected on February 26th 2020. We present a phylogenetic study to explore viral introduction and evolution during the exponential early phase of the local COVID-19 outbreak from February 26th until March 23rd. We sequenced SARS-CoV-2 naso-oropharyngeal swabs from 746 positive tests that were performed at the University Hospital Basel during the study period. We successfully generated 468 high quality genomes from unique patients and called variants with our COVID-19 Pipeline (COVGAP), and analysed viral genetic diversity using PANGOLIN taxonomic lineages. To identify introduction and dissemination events we incorporated global SARS-CoV-2 genomes and inferred a time-calibrated phylogeny. Epidemiological data from patient questionnaires was used to facilitate the interpretation of phylogenetic observations. The early outbreak in Basel was dominated by lineage B.1 (83·6%), detected first on March 2nd, although the first sample identified belonged to B.1.1. Within B.1, 68·2% of our samples fall within a clade defined by the SNP C15324T ('Basel cluster'), including 157 identical sequences at the root of the 'Basel cluster', some of which we can specifically trace to regional spreading events. We infer the origin of B.1-C15324T to mid-February in our tri-national region. The other genomes map broadly over the global phylogenetic tree, showing several introduction events from and/or dissemination to other regions of the world via travellers. Family transmissions can also be traced in our data. A single lineage variant dominated the outbreak in the Basel area while other lineages, such as the first (B.1.1), did not propagate. A mass gathering event was the predominant initial source of cases, with travel returners and family transmissions to a lesser extent. We highlight the importance of adding specific questions to epidemiological questionnaires, to obtain data on attendance of large gatherings and their locations, as well as travel history, to effectively identify routes of transmissions in up-coming outbreaks. This phylogenetic analysis in concert with epidemiological and contact tracing data, allows connection and interpretation of events, and can inform public health interventions. Trial Registration: ClinicalTrials.gov NCT04351503.
2020 年 2 月 26 日,瑞士巴塞尔出现首例 SARS-CoV-2 感染病例。我们进行了一项系统发育研究,以探索 2020 年 2 月 26 日至 3 月 23 日当地 COVID-19 爆发初期病毒的传入和进化。在此期间,我们对巴塞尔大学医院进行的 746 例阳性检测的鼻咽拭子进行了 SARS-CoV-2 测序。我们使用 COVID-19 管道(COVGAP)成功地从独特的患者中生成了 468 个高质量的基因组,并使用 PANGOLIN 分类单元分析了病毒的遗传多样性。为了识别传入和传播事件,我们整合了全球 SARS-CoV-2 基因组,并推断了一个时间校准的系统发育树。从患者问卷调查中获取的流行病学数据有助于解释系统发育观察结果。巴塞尔早期爆发以谱系 B.1(83.6%)为主,首次于 3 月 2 日检测到,尽管第一个样本属于 B.1.1。在 B.1 中,我们的样本中有 68.2%属于由 SNP C15324T 定义的一个分支(“巴塞尔群”),其中包括“巴塞尔群”根部的 157 个相同序列,其中一些我们可以具体追溯到区域传播事件。我们推断 B.1-C15324T 的起源于我们的三国地区二月中旬。其他基因组在全球系统发育树上广泛分布,表明有几个来自旅行者的传入和/或传播到世界其他地区的事件。家庭传播也可以在我们的数据中追踪到。在巴塞尔地区,单一谱系变体主导了疫情,而其他谱系变体,如第一个(B.1.1),并没有传播开来。一个大规模集会事件是最初病例的主要来源,而旅行返回者和家庭传播的作用较小。我们强调在流行病学问卷中添加具体问题的重要性,以获取关于大型集会的地点和参加情况以及旅行史的信息,以便在即将到来的疫情中有效识别传播途径。这项与流行病学和接触者追踪数据相结合的系统发育分析,允许对事件进行连接和解释,并可为公共卫生干预措施提供信息。
ClinicalTrials.gov NCT04351503。
