1.Evaluation of Seeplex(TM) RV Detection Kit for Detecting Rhinovirus, Human Metapneumovirus, and Coronavirus.
Heungsup SUNG ; Sook Ja PARK ; Young Dae WOO ; Byung Hoo CHOI ; Mi Na KIM
The Korean Journal of Laboratory Medicine 2008;28(2):109-117
BACKGROUND: Direct antigen test (DAT) and culture are primary tests to diagnose infections by respiratory viruses, but are mainly available for the traditional viral pathogens such as respiratory syncytial virus (RSV), influenza virus, parainfluenza virus (PIV), and adenovirus in clinical laboratories. The objective of this study was to evaluate a multiplex reverse transcriptase-PCR method using Seeplex(TM) RV Detection kit (Seegene, Korea) for the detection of rhinovirus, coronavirus, and human metapneumovirus (hMPV). METHODS: From January to May 2007, nasopharyngeal aspirates (NPAs) from pediatric patients negative for culture and DAT of traditional viral pathogens were tested with Seeplex(TM). All the amplicons were directly sequenced and homology of the sequences was searched in the National Center for Biotechnology Information (NCBI) database. Patients' medical records were reviewed for clinical and demographic features. RESULTS: Forty-seven (26.4%) of 178 NPAs were positive: 18 rhinovirus, 15 hMPV, 4 RSV A, 3 coronavirus OC43, 3 influenza virus A, 2 adenovirus, 1 coronavirus NL63, and 1 RSV B. Based on maximum identity, each of the sequences indicating rhinovirus, hMPV, and coronavirus OC43 matched to the corresponding viruses with homology of 94-98%, 96-99%, and 98-100%, respectively. Seeplex(TM) positive patients were 0-11 yr old with a male:female ratio of 1.5:1. Clinical diagnoses included 9 pneumonia, 6 bronchiolitis, 2 cold, 1 asthma exacerbation for rhinovirus; 10 pneumonia, 4 bronchiolitis, and 1 clinical sepsis for hPMV; and 1 pneumonia, 2 croup, and 1 cold for coronavirus. CONCLUSIONS: Multiplex reverse transcriptase-PCR method using Seeplex(TM) RV Detection kit is a reliable test to detect rhinovirus, hMPV, and coronavirus. It may improve the diagnostic sensitivity for RSV, influenza virus, PIV, and adenovirus.
Adolescent
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Child
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Child, Preschool
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Coronavirus/classification/*isolation & purification
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Coronavirus 229E, Human/classification/genetics/isolation & purification
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Coronavirus OC43, Human/classification/genetics/isolation & purification
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Female
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Humans
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Infant
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Infant, Newborn
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Male
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Metapneumovirus/classification/genetics/*isolation & purification
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Phylogeny
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Reagent Kits, Diagnostic
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Respiratory Tract Infections/*diagnosis/virology
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Reverse Transcriptase Polymerase Chain Reaction/*methods
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Rhinovirus/classification/genetics/*isolation & purification
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Sequence Analysis, DNA
2.Human rhinovirus with different genotypes in children with acute respiratory tract infections in Beijing.
Ming-Hui SONG ; Lin-Qing ZHAO ; Yuan QIAN ; Ru-Nan ZHU ; Jie DENG ; Fang WANG ; Yu SUN ; Run TIAN
Chinese Journal of Virology 2013;29(2):97-105
To understand the infections and molecular biological characteristics of different human rhinovirus (HRV) genotypes -A, B, C, especially C in children with acute respiratory tract infections (ARI) in Beijing. Seven hundreds and three respiratory tract specimens were collected from children with ARI during Jan. 2011 to Dec. 2011. Semi-nested PCR was developed for detecting HRVs. Gene fragment of VP4/VP2 capsid protein amplified from HRV positive specimens was sequenced and analyzed by software DNAStar, the phylogenetic tree was then constructed by MEGA 5. 05. Among these 703 specimens tested, 54 (7.7%, 54/703) were HRV positive, including 25 (46.3%, 25/54) positive for HRV-A, 8 (14. 8%, 8/54) for HRV-B, 21 (38. 9%, 21/54) for HRV-C determined by sequence analysis. Most of these children (94. 4%00, 51/54) infected with HRVs were younger than 5 years old, and the highest positive rate was shown in group younger than 1 year (11. 4%). These patients positive for HRVs were diagnosed as bronchiolitis (23.1%), asthma (20.0%), pneumonia (1.0%), bronchitis (4.4%) and upper respiratory tract infections (4. 1%). Sequence analysis of VP4/VP2 gene fragment revealed that 70. 0% to 100. 0% nucleotide identity was shown among the sequences within the same HRV genotype, and 55. 5% to 65. 8% nucleotide identity among the sequences from different HRV genotypes. In conclusion, HRVs, especially HRV-C, are important pathogens for children with ARI in Beijing. The prevalence of HRV-C is similar to that of HRV-A, higher than that of HRV-B. High sequence variation among different HRV genotypes was indicated in this study.
Acute Disease
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epidemiology
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Adolescent
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Child
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Child, Preschool
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China
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epidemiology
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Female
;
Humans
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Infant
;
Male
;
Molecular Sequence Data
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Phylogeny
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Picornaviridae Infections
;
epidemiology
;
virology
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Respiratory Tract Infections
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epidemiology
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virology
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Rhinovirus
;
classification
;
genetics
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isolation & purification
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Seasons
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Viral Proteins
;
genetics
3.Characterization of human rhinovirus in children with acute respiratory infections in Gansu Province during 2011.
Shuang ZHANG ; Nai-Ying MAO ; De-Shan YU ; Guo-Hong HUANG ; Xiao-Xia LI ; Hong-Yu LI ; Bao-Di LI ; Yan ZHANG ; Ai-Li CUI ; Xiang-Peng CHEN ; Ai-Lian YU ; Wen-Bo XU
Chinese Journal of Virology 2013;29(3):273-279
To study the epidemic characteristics of human rhinovirus (HRV) in children with acute respiratory infections in Gansu Province. 286 throat swabs were collected from children with acute respiratory in fections in Gansu Province during 2011. Multiplex reverse transcription-PCR (multiplex RT-PCR) assay was used to screen those specimens for detection of common respiratory tract pathogens. For HRV-positive samples, nested reverse transcription polymerase chain reaction (nested RT-PCR) was performed to amplify VP1 and VP4/VP2 gene fragments of HRV. The VP4/VP2 and VP1 regions of HRV-positive samples were sequenced and performed genotype analysis. Of 286 specimens fested, 27 were positive for HRV by multiplex RT-PCR and nested RT-PCR, of which 16 children were made (16/185), 8.64%) and 11 female (11/101,10.89%). The positive rate was 9.44% (27/286). The mean age of HRV-positive children was 3 years in this study, children less than one year old had the highest proportion 44.4% (12/ 27, 44.4%). The highest HRV positive rate fell on May, 2011 (6/27, 22.2%). Common cold accounted for the highest proportion, 12.24% (12/98) followed by pneumonia, 8.50% (13/153). The remaining 2 cases were bronchitis. Sequence analysis showed HRV A was the predominant genotype in Gansu Province in 2011, accounting for 84.62% (22/26) of positive cases, followed by HRV C (11.54%, 3/26) and only one HRV B was detected (3.85%, 1/26). HRV could be detected throughout the year in Gansu Province and primarily infected children under one year old. The group A was the epidemic genotype of HRV and move than one genotype existed in Gansu Province during 2011.
Adolescent
;
Child
;
Child, Preschool
;
China
;
epidemiology
;
Female
;
Humans
;
Infant
;
Male
;
Molecular Sequence Data
;
Phylogeny
;
Picornaviridae Infections
;
epidemiology
;
virology
;
Respiratory Tract Infections
;
epidemiology
;
virology
;
Rhinovirus
;
classification
;
genetics
;
isolation & purification
;
Seasons
4.Different species of human rhinovirus infection in children with acute respiratory tract infections in Beijing.
Ming-hui SONG ; Lin-qing ZHAO ; Yuan QIAN ; Ru-nan ZHU ; Jie DENG ; Fang WANG ; Yu SUN ; Run TIAN
Chinese Journal of Pediatrics 2013;51(12):903-908
OBJECTIVETo understand the clinical characteristics of different groups human rhinovirus (HRV)-A, B and C infection in children with acute respiratory tract infections (ARI) in Beijing.
METHODRespiratory tract specimens (n = 1412) collected from children with ARI during Jan. 2011 to Dec. 2012 were tested for HRV by using semi-nested PCR. Gene fragments of VP4/VP2 capsid protein amplified from HRV positive specimens were sequenced for HRV genotype confirmation. Then epidemiological characteristics of these HRV-positive cases were analyzed.
RESULTAmong these 1412 specimens tested, 103 (7.3%) were HRV positive, including 54 (52.4%) positive for HRV-A, 14 (13.6%) for HRV-B, 35 (34.0%) for HRV-C determined by sequence analysis. The positive rates of HRV-A, B and C (2.5%, 16/638; 0.3%, 2/638 and 1.3%, 8/638) in children with acute upper respiratory tract infections (URI) were lower than those (5.8%, 36/623; 1.8%, 11/623 and 3.9%, 24/623) in children with acute lower respiratory tract infections (LRI) (P = 0.003, 0.011, 0.003). In children with LRI, the positive rates of HRV-A, C were similar to each other (P = 0.112), and both were higher than that of HRV-B (P = 0.000, P = 0.026). The severity of ARI among children positive for different groups HRV showed no significant difference evaluated by Kruskal-Wallis H test (Hc = 0.044, P > 0.05), as well as that between children co-infected with HRV and other viruses and those infected with HRV only evaluated by Wilcoxon rank sum test (Zc = 0.872, P > 0.05).
CONCLUSIONHRV is one of important pathogens for children with ARI, especially LRI in Beijing. The positive rates of HRV-A and HRV-C are similar to each other, and both are higher than that of HRV-B. No significant difference was shown among children with different HRV genotypes by evaluation of the severity of ARI, and co-infections of HRV with other viruses do not significantly increase the severity of ARI.
Acute Disease ; Adolescent ; Age Distribution ; Child ; Child, Preschool ; China ; epidemiology ; Female ; Humans ; Infant ; Infant, Newborn ; Male ; Phylogeny ; Picornaviridae Infections ; epidemiology ; virology ; Respiratory Tract Infections ; epidemiology ; virology ; Reverse Transcriptase Polymerase Chain Reaction ; Rhinovirus ; classification ; genetics ; isolation & purification ; Sequence Analysis, RNA ; Severity of Illness Index