2009甲型H1N1流感大流行期间北京儿童的流感监测

目的 了解2009年甲型H1N1流感大流行期间北京地区儿童中流感流行的情况.方法 采用WHO推荐的实时荧光定量RT-PCR和国家流感中心推荐的分型方法,对2009年甲型H1N1流感大流行期间因流感样症状来首都儿科研究所附属儿童医院就诊患儿的咽拭子标本进行流感病毒核酸检测.结果 2009年6月1日至2010年2月28日期间共检测了4363份咽拭子标本,其中623例为甲型H1N1阳性,阳性率为14.3%,657例为其他甲型流感病毒阳性(15.1%),所有甲型流感病毒的总阳性率为29.3%.623例中有23例为危重症病例(占阳性患者的3.7%),其中5例死亡.618例信息完整的甲型H1N1病例中,患儿年龄为14天～16岁,性别比例为男比女为1.3:1.1～3岁儿童占25.2%,3～6岁学龄前儿童和6～12岁学龄儿童所占比例相近,各约占30%.在监测期间,仅呈现了一个甲型H1N1的流行波.2009年11月达到最高峰,随后减弱,2010年2月快速下降至2.7%.对监测期间每周20～30份临床标本同时进行季节性流感的监测显示,季节性H3N2、甲型H1N1和乙型流感交替流行.呼吸道合胞病毒(RSV)在甲型H1N1流行趋势减缓后逐渐流行成为流行优势株.结论 2009年6月至2010年2月北京地区儿童中出现甲型H1N1的流行,主要累及学龄前和学龄儿童.季节性流感和RSV与甲型H1N1交替流行.     

北京市房山区2014-2015年流感病原学监测结果分析

目的 通过对北京市房山区2014-2015年流感病原学的监测结果进行分析,了解房山区流感病毒的流行特征.方法 采集房山区哨点医院流感样病例的咽拭子标本1 339份,用荧光定量PCR法检测核酸及亚型,同时进行流感病毒分离及血凝实验(HA)检测.结果 2014年1月6日-2015年12月28日,共采集1 339份流感样病例咽拭子,荧光定量PCR法检测核酸阳性数为215例(阳性率为16.06％),其中甲型H1N1流感病毒32株,甲型H3N2流感病毒107株,乙型流感病毒76株.病毒分离阳性数为148例(阳性分离率为11.05％).本年度第2-6周和第48-52周流感阳性率较高,且第2-6周以甲型H1N1和乙型流感病毒为主,第48-52周以甲型H3N2流感病毒为主.结论 房山区2014-2015年流感高发季节为第2-6周和第48-52周,上半年致病病原体以甲型HIN1流感病毒和乙型流感病毒为主,下半年以H3N2流感病毒为主,不同性别之间各亚型流感病毒的阳性率构成比无统计学差异(P＞ 0.05).     

Application of a fluorogenic PCR assay for typing and subtyping of influenza viruses in respiratory samples

A fluorogenic PCR-based method (TaqMan-PCR) was developed for typing and subtyping of influenza virus genomes in clinical specimens. The TaqMan-PCR employs a probe technology that exploits the endogenous 5'-3' nuclease activity of the Taq DNA polymerase to allow direct detection of the amplicon by release of a fluorescent reporter during the PCR. Therefore, post-PCR analysis is avoided since hybridization with the fluorogenic probe and quantification of the amplified product is performed simultaneously during PCR cycling. The specificity of the method was evaluated on 86 influenza A (25 H1N1 and 61 H3N2) and 49 influenza B virus reference strains and isolates. The sensitivity of the technique was found to be at the level of 0.1 50% tissue culture infective dose. This TaqMan-PCR was applied prospectively to surveillance work by community-based sampling in Germany during the last two influenza seasons. Seven hundred five throat swabs were analyzed during the winter of 1997-1998. A total of 195 of 705 samples (28%) were positive by PCR. Influenza viruses could be isolated from 125 specimens (18%). During the 1998-1999 season, 1,840 respiratory samples were received. Influenza viruses were isolated from 281 specimens (15%) out of 525 throat swabs (29%) which were positive for influenza A or B virus by TaqMan-PCR. Further differentiation of influenza A virus-positive swabs revealed an intensive circulation of the subtype H3N2 during both seasons, 1997-1998 and 1998-1999. The TaqMan-PCR was much more sensitive than culture and revealed an excellent correlation for typing and subtyping of influenza viruses when samples were positive by both methods.     

甘肃省2000-2007年度流感监测结果分析

目的 掌握我省流感流行情况,为流感防治提供依据.方法 按照国家流感监测方案,在6所国家级哨点医院门诊内、儿科开展流感样病例的监测和在全省开展流感暴发疫情的监测,采集流感样患者的鼻咽拭子标本,用MDCK细胞或鸡胚进行流感病毒分离与鉴定.结果 2000-2007年,哨点医院流感样病例占门诊就诊人数的5.16%,从国家级监测哨点医院及暴发疫情共采集标本6383份,分离出流感病毒943份,分离率14.77%,其中H1N1亚型218株,H3N2亚型352株,B型(Victoria系)312株,B型(Yamagata系)61株;全省发生的61起疑似流感疫情暴发,经实验室检测44起确定为流感暴发,其中38起为B(victoria)亚型流感病毒,3起为H3N2亚型、2起为B型(Yamagata系)、1起为H1N1亚型.结论 流感每年均会在人群中活动,冬季以甲型流感为主;2005-2007年,每年3-6月份B型(Victoria系)是造成学校、幼儿园等集体单位暴发的主要病毒.     

Isolation and characteristics of monoclonal antibodies to influenza virus types A and B

Monoclonal antibodies (MCA) to influenza type A (10F) and B (5H and 6H) viruses have been prepared. By immunoblotting method, MCA 10F were found to be specific for NP-protein of influenza A virus, and MCA 5H and 6H to be specific for hemagglutinin of influenza B virus. It was established that the 10F clone interacted with all the investigated influenza A virus strains with different antigenic formulae (H1N1, H2N2, H3N2) and could be used for typing of this virus type. Clones 5H and 6H react specifically with hemagglutinins of influenza B viruses isolated in 1940, 1979, and 1983 which makes them useful for diagnosis of influenza B.     

Clinical Accuracy of a PLEX-ID Flu Device for Simultaneous Detection and Identification of Influenza Viruses A and B

Respiratory tract infections caused by influenza A and B viruses often present nonspecifically, and a rapid, high-throughput laboratory technique that can identify influenza viruses is clinically and epidemiologically desirable. The PLEX-ID Flu assay (Abbott Molecular Inc., Des Plaines, IL) incorporates multilocus PCR and electrospray ionization-mass spectrometry to detect and differentiate influenza A 2009 H1N1 (H1N1-p), seasonal H1N1 (H1N1-s), influenza A H3N2, and influenza B viruses in nasopharyngeal swab (NPS) specimens. The clinical performance characteristics of the PLEX-ID Flu assay in symptomatic patients were determined in this multicenter trial. A total of 2,617 prospectively and retrospectively collected NPS specimens from patients with influenza-like illness between February 2008 and 28 May 2010 were eligible for inclusion in the study. Each specimen was tested in parallel by the PLEX-ID Flu assay and by the Prodesse ProFLU+ assay (Prodesse Inc., Madison, WI), to detect influenza A and B viruses. Specimens testing positive for influenza A virus by ProFLU+ were subtyped as H1N1-p, H1N1-s, or H3N2 by using the ProFAST+ assay (Gen-Probe Prodesse Inc.). The reproducibility of the PLEX-ID Flu assay ranged from 98.3 to 100.0%, as determined by testing a nine-specimen panel at three clinical sites on each of 5 days. Positive percent agreements (PPAs) and negative percent agreements (NPAs) of the PLEX-ID Flu assay were 94.5% and 99.0% for influenza A virus and 96.0% and 99.9% for influenza B virus, respectively. For the influenza A virus subtyping characterization, the PLEX-ID Flu assay had PPAs and NPAs of 98.3% and 97.5% for H1N1-p, 88.6% and 100.0% for H1N1-s, and 98.0% and 99.9% for H3N2, respectively. The overall agreements between the PLEX-ID and Prodesse ProFLU+/ProFAST+ assays were 97.1 to 100.0%. Bidirectional Sanger sequencing analysis revealed that 87.5% of 96 discrepant results between the PLEX-ID Flu and ProFLU+/ProFAST+ assays were found upon influenza A virus detection and H1N1-p subtyping. The PLEX-ID Flu assay demonstrated a high level of accuracy for the simultaneous detection and identification of influenza A and B viruses in patient specimens, providing a new laboratory tool for the rapid diagnosis and management of influenza A and B virus infections.     

流感及H5N1亚型禽流感病毒液相检测芯片的制备

目的 建立利用液相芯片技术检测甲、乙型流感和H5N1亚型高致病性禽流感病毒的方法,并对该方法进行评价。方法 对GenBank中甲型流感病毒的NP、乙型流感病毒的HA以及高致病性禽流感病毒（H5N1）的H5、N1基因片段序列进行同源性比对,根据保守序列,设计针对各基因的简并引物和寡核苷酸探针,制备探针偶联微球,将样本核酸多重PCR扩增产物与微球进行杂交,以Bio-Plex液相芯片检测系统进行芯片检测。结果 该方法可以对甲型流感病毒的NP基因、乙型流感病毒的HA基因以及高致病性禽流感病毒（H5N1）的H5、N1基因同时进行检测,病毒核酸的最低检出量为1pg,检测特异性高。结论 成功构建了甲、乙型流感病毒和H5N1亚型高致病性禽流感病毒液相芯片检测系统,为流感、禽流感的快速检测、诊断奠定了基础。     

Type-specific identification of influenza viruses A, B and C by the polymerase chain reaction.

The aim of this study was to develop a polymerase chain reaction for specific detection of influenza A, B, and C RNA genomes. Three primer sets were selected from conserved regions of the genome coding for the non-structural proteins and were tested on 61 influenza A (22 H1N1, 9 H2N2, and 30 H3N2), 11 influenza B, and three influenza C isolates. Specific amplified products were obtained with all these strains after electrophoresis on a 2% agarose gel. The specificity of the reaction was increased by hybridization with oligonucleotide probes. When nucleic acids from a variety of micro-organisms from the respiratory tract were subjected to the PCR with these primers, no specific amplified products were generated. The sensitivity of the technique was found to be at the subpicogram level. The RNA-PCR was applied to 21 clinical specimens from patients with a culture/IF proven influenza infection. Six influenza A positive patients and 13 influenza B positive patients could be confirmed in the RNA-PCR. In two cases, influenza B positive IF specimens were found negative by the PCR. No virus could be isolated on eggs or tissue culture from these samples. RNA-PCR is a specific and sensitive technique for the detection of influenza virus genomes.     

A Study of Influenza 2017–2018 Outbreak in Andhra Pradesh,India

Background and Objectives: Influenza virus is a typical human pathogen causing serious respiratory illness resulting in significant mortality throughout the globe. Andhra Pradesh witnessed the first case of influenza A H1N1 in India from Hyderabad (now in Telangana) on May 16, 2009. In the recent past, Andhra Pradesh witnessed exponential increase in the number of confirmed cases of influenza infection. In this study, we present the salient features of the recent outbreak of influenza during 2017–2018 in the state of Andhra Pradesh, first of its kind after the division of the state. Materials and Methods: Clinically, suspected cases of influenza-like illness received in the Virus Research and Diagnostic Laboratory, Department of Microbiology, Sri Venkateswara Institute of Medical Sciences (SVIMS), Tirupati, from January 2017 to May 2018 were included in the study. The samples were tested for influenza A, influenza A (H1N1) pdm09, influenza A (H3N2), influenza B, influenza B/Yamagata and influenza B/Victoria. Results: A total of 1286 samples were received for testing. The positive samples were influenza A unsubtypable (109), influenza A (H1N1) pdm09 (356), influenza A (H3N2) (38) and influenza B (19; Victoria - 2, Yamagata - 17). There was no significant difference in positivity between genders with 260 (49.81%) females and 262 (50.19%) males being positive. Conclusion: The outbreak started in the late monsoon (January) of 2017 and had two peaks; one in summer months and another in winter months. Influenza B virus was reported from December 2017 to May 2018. Age groups ≤5 years and 6–18 years had higher positivity as compared to other age groups. Regular surveillance programmes are required for assessing the trends of influenza infections due to various subtypes and to plan timely and adequate steps for preventing the spread to larger vulnerable population.     

Differential age-specific distribution of influenza virus types and subtypes in tropical Singapore, 2011 to 2017

Surveillance and reporting of epidemiological features of seasonal influenza mostly are aggregates across all-ages. We investigated age-specific differences in distribution of influenza virus (sub)types in tropical Singapore, using laboratory-confirmed virological data collected under the national influenza surveillance programme from 2011 to 2017. The proportion of influenza-positive specimens from outpatients with influenza-like illness was used as an indicator of influenza activity in the community. The highest influenza positivity for age groups of 5 to 14 years and 15 to 64 years coincided in the same month in 5 out of the 7 years under study. Influenza positivity was lowest in young children <5 years of age compared with older age groups. Influenza A(H3N2) was most prevalent in the community except in 2012 when a predominance of influenza B was observed. The dominant virus (sub)type varied across the years in children <5 years and 5 to 14 years of age. Influenza A(H3N2) was the predominant circulating virus subtype among elderly persons aged ≥65 years during the 7-year period, and among adults aged 15 to 64 years since 2013. Knowledge about the age-specific differences in distribution of influenza virus (sub)types helps to facilitate better understanding of seasonal epidemics and to inform targeted strategies in prevention and control of influenza virus transmission.     

流感病毒型别及亚型的多重RT-PCR方法快速检测

目的为适应流感疫情监测中快速诊断的需要,建立敏感特异的流感病毒多重逆转录PCR(MRTPCR)检测方法。方法对甲1型(H1N1)、甲3型(H3N2)、乙型流感病毒的血凝素(HA)基因保守区域分别设计引物进行MRTPCR。另设计了两对引物对H1N1和H3N2亚型流感病毒的神经氨酸酶(NA)N1、N2作亚型判断。结果MRTPCR可特异性检测出各型流感病毒的目的片段,相互间无交叉反应。二次PCR反应后对H1N1、H3N2流感病毒的检测灵敏度可达0.10TCID50/50μl以下,对乙型流感病毒的检测灵敏度可达0.01TCID50/50μl以下。应用此方法也可特异性地检测出H1N1和H3N2流感病毒的NA基因。结论用MRTPCR从临床患者含漱液标本中检出相关流感病毒的灵敏度要高于用狗肾传代细胞(MDCK)或鸡胚分离的灵敏度,达到了快速、敏感、正确检测流感病毒及其亚型的目的。     

Surveillance and oseltamivir resistance of human influenza a virus in Turkey during the 2007–2008 season

Monitoring the activity of influenza viruses is important for establishing the circulating types and for detection of the emergence of novel sub‐types and antiviral resistant strains. This is the first report from Turkey on the surveillance and oseltamivir resistance of influenza viruses in 2007–2008. Five hundred twenty‐four nasal swabs were tested from different geographical regions in Turkey during November 2007–April 2008. One hundred sixty‐three (31%) samples were positive for influenza viruses of which 111 (68%) were influenza A, 52 (31%) influenza B using an immuno‐capture ELISA. Forty isolates were selected at random from influenza A positive samples and grown in MDCK cell cultures. The supernatant of the cell cultures was used for RNA extraction followed by RT‐PCR to detect the sub‐types. Sub‐typing revealed all samples as A/H1N1. The N1 gene segment of 30 A/H1N1 samples was sequenced in part, from the 201st to 365th residue, which included the critical region for oseltamivir resistance. Then resulting sequences were analyzed with oseltamivir sensitive and resistant strains obtained from National Center for Biotechnology Information (NCBI) GenBank by CLC Main Workbench Software. H275Y (H274Y according to N2 numbering) mutation, which is known to confer resistance to oseltamivir, was detected in 6 out of 30 (20%) H1N1 isolates from four cities (Istanbul, Bursa, Ankara, and Izmir). The D354G mutation was observed in all oseltamivir resistant H1N1 isolates but not in the oseltamivir sensitive isolates. Assay of neuraminidase activity revealed that these isolates were resistant to oseltamivir, but sensitive to zanamivir. J. Med. Virol. 81:1645–1651, 2009. © 2009 Wiley‐Liss, Inc.