West Nile virus infections in Hungary: Epidemiological update and phylogenetic analysis of the Hungarian virus strains between 2015 and 2022.

IF 1.3 4区 医学 Q4 IMMUNOLOGY
Anna Nagy, András Horváth, Eszter Mezei, Judit Henczkó, Nóra Magyar, Orsolya Nagy, Anita Koroknai, Nikolett Csonka, Mária Takács
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引用次数: 1

Abstract

Following the introduction of the West Nile virus (WNV) into Hungary in 2004, it has shortly become one of the most important human arbovirus infections, with a gradually increasing number of cases. The study aimed to summarize the current epidemiological situation in Hungary and sequence the WNV PCR-positive clinical specimens and virus isolates by next-generation whole genome sequencing (NGS) to obtain a detailed phylogenetic analysis of the circulating virus strains. Whole blood and urine samples from confirmed WNV-infected patients and WNV isolates were investigated by reverse transcription PCR assays. Genome sequencing was carried out by Sanger-method, followed by NGS on the Illumina MiSeq platform. Altogether 499 human infections were diagnosed between 2004 and 2022. A particularly remarkable increase in human WNV infections was observed in 2018, while the number of reported cases significantly decreased during the COVID-19 pandemic. Between 2015 and 2022, 15 WNV isolates, and 10 PCR-positive clinical specimens were investigated by NGS. Phylogenetic analysis revealed that the major European WNV lineage 2 clades, namely the Eastern European (or Russian) and the Central European (or Hungarian) clades, are presented in Hungary. Strains of the Balkan and other European clusters within the Central European clade are co-circulating in the country, following a characteristic geographical distribution. In Hungary, the presence and co-circulation of multiple lineage 2 WNV strains could be identified in the last few years. Therefore, in light of the 2018 WNV outbreak, sequence-based typing of the currently circulating strains could highly support outbreak investigations.

匈牙利的西尼罗病毒感染:2015年至2022年匈牙利病毒株的流行病学更新和系统发育分析
继2004年西尼罗病毒传入匈牙利之后,它很快成为最重要的人类虫媒病毒感染之一,病例数量逐渐增加。本研究旨在总结匈牙利的流行病学现状,并采用下一代全基因组测序(NGS)对临床标本和分离的西尼罗河病毒pcr阳性病毒进行测序,以获得流行病毒株的详细系统发育分析。采用反转录PCR方法对确诊的西尼罗河病毒感染患者和分离的西尼罗河病毒进行全血和全尿检测。基因组测序采用sanger法,随后在Illumina MiSeq平台上进行NGS。2004年至2022年间,总共诊断出499例人类感染病例。2018年观察到人类西尼罗河病毒感染的显著增加,而在2019冠状病毒病大流行期间报告的病例数显著减少。2015 - 2022年,NGS对15株西尼罗河病毒分离株和10例pcr阳性临床标本进行了调查。系统发育分析显示,主要的欧洲西尼罗河病毒谱系2分支,即东欧(或俄罗斯)和中欧(或匈牙利)分支,出现在匈牙利。中欧分支内的巴尔干病毒和其他欧洲病毒群的毒株按照其特有的地理分布在该国共同传播。在匈牙利,在过去几年中可以确定多个2系西尼罗河病毒株的存在和共传播。因此,鉴于2018年西尼罗河病毒暴发,对当前流行毒株进行基于序列的分型可以高度支持疫情调查。
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来源期刊
CiteScore
2.30
自引率
13.30%
发文量
36
审稿时长
>12 weeks
期刊介绍: AMIH is devoted to the publication of research in all fields of medical microbiology (bacteriology, virology, parasitology, mycology); immunology of infectious diseases and study of the microbiome related to human diseases.
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