Human metapneumovirus detection in patients with severe acute respiratory syndrome.
about
Management of Critically Ill Patients with Severe Acute Respiratory Syndrome (SARS)Real-time PCR in clinical microbiology: applications for routine laboratory testing.Real-time NASBA detection of SARS-associated coronavirus and comparison with real-time reverse transcription-PCRThe role of infections and coinfections with newly identified and emerging respiratory viruses in children.Severe acute respiratory syndrome: clinical and laboratory manifestationsEffects of aging on the adaptive immune response to respiratory virus infections.Seroepidemiology of human metapneumovirus (hMPV) on the basis of a novel enzyme-linked immunosorbent assay utilizing hMPV fusion protein expressed in recombinant vesicular stomatitis virusPorcine reproductive and respiratory syndrome virus modifies innate immunity and alters disease outcome in pigs subsequently infected with porcine respiratory coronavirus: implications for respiratory viral co-infections.The cotton rat (Sigmodon hispidus) is a permissive small animal model of human metapneumovirus infection, pathogenesis, and protective immunity.Imaging analysis of human metapneumovirus-infected cells provides evidence for the involvement of F-actin and the raft-lipid microdomains in virus morphogenesis.Epidemiological and clinical evaluation of children with respiratory virus infectionsPulmonary pathological features in coronavirus associated severe acute respiratory syndrome (SARS).Managing febrile respiratory illnesses during a hypothetical SARS outbreak.Combining clinical and epidemiologic features for early recognition of SARS.Human metapneumovirus and severity of respiratory syncytial virus disease.Outbreak of human metapneumovirus detected by use of the Vero E6 cell line in isolates collected in Yamagata, Japan, in 2004 and 2005First report of respiratory syncytial virus and human metapneumovirus co-infection in a 2-year-old kawasaki patient in iran.Visual detection of the human metapneumovirus using reverse transcription loop-mediated isothermal amplification with hydroxynaphthol blue dye.Epidemiology of human metapneumovirus.Risk of ruling out severe acute respiratory syndrome by ruling in another diagnosis: variable incidence of atypical bacteria coinfection based on diagnostic assays.Human metapneumovirus reinfection among children in Thailand determined by ELISA using purified soluble fusion protein.Evidence for the interaction of the human metapneumovirus G and F proteins during virus-like particle formation.Epidemiology and clinical presentations of human coronavirus NL63 infections in hong kong children.Prospective study of human metapneumovirus infection in children less than 3 years of age.An outbreak of human metapneumovirus infection in hospitalized psychiatric adult patients in Taiwan.SARS and common viral infections.Role of metapneumovirus in viral respiratory infections in young children.Modulation of Host Immunity by the Human Metapneumovirus.Prevalence of respiratory viruses, including newly identified viruses, in hospitalised children in Austria.Analysis of replication kinetics of the human metapneumovirus in different cell lines by real-time PCRAn animal model of SARS produced by infection of Macaca mulatta with SARS coronavirus.Metapneumovirus and its place in childhoodEfficient isolation of human metapneumovirus using MNT-1, a human malignant melanoma cell line exhibiting early and distinct cytopathic effect.Human metapneumovirus and chronic obstructive pulmonary diseaseRapid detection of human metapneumovirus strains in nasopharyngeal aspirates and shell vial cultures by monoclonal antibodies.Human metapneumovirus in lung transplant recipients and comparison to respiratory syncytial virus.Human metapneumovirus: a new player among respiratory viruses.Two-year prospective study of single infections and co-infections by respiratory syncytial virus and viruses identified recently in infants with acute respiratory disease.Human metapneumovirus and respiratory syncytial virus infections in older children with cystic fibrosis.Surveillance of respiratory virus infections in adult hospital admissions using rapid methods.
P2860
Q24791074-20F9DE88-4F14-48C1-B8E3-3261B6CB3DA8Q27472851-C693829E-4A5D-4A02-8AC3-D5A4B4BF47CDQ28279368-BB5543E7-D94E-423C-9FF1-90DFB2A795F0Q30422891-9FA6B792-5C7F-46AE-BB7E-5BA5DCB7F11FQ33379509-F3540AC5-E6E2-40B0-9366-991729E43432Q33655089-D2D7C8FF-DCB7-48CB-A365-A3B1CBF98ABFQ33752841-342C71D4-BAC3-44A9-8BAC-82A2912151BFQ33822021-B656E86A-7CEC-4269-827A-CB67387830BCQ33930308-B1B9C0C4-4E23-48FA-9233-7CFAF442CB3EQ34571211-7FD2927C-2393-43E5-B386-3E81BBA4C232Q34992993-B3ACD76F-7F0F-4B80-92B5-8DC694C5A912Q35587464-6434130C-5232-4DB9-8737-EF4A7C43DCEEQ35873263-C0C7E184-96FE-4101-8077-EB2BB8AC1589Q35879705-93079BC9-5372-4181-A835-3B4DE9B6329FQ35880975-D2DEFF3E-BF9A-414C-94E4-BC03C13F145DQ35913974-8F7C7A8D-44CE-4E9C-9F75-5986E2DCA979Q36348884-55BBA798-1E3D-4218-AB61-1F884DCB1ACAQ36367855-8045BDA7-F22A-4999-8785-687358B43D29Q36538868-098DA7F0-E251-4DE0-88C4-DA8B53C9F034Q36883429-054A1ECA-5464-444A-9454-C397390DB59AQ37111512-C9571CDA-9B19-4340-9766-3139A486B6C8Q37361126-F43737BC-478B-4836-A05E-D2978AF056F5Q37410577-618B6415-2D27-4A28-8088-1A0E4E72DA67Q37575213-A561134D-7A68-49A1-8D0E-2040D0C9A0E8Q37855281-9A9A7B69-BF4E-402A-A2BD-A617E192E65FQ37866946-B22F150F-7C14-4B68-8871-E8C297512747Q38474000-63633BA7-4D7F-442A-9D9C-AA3193A84155Q38896046-A5AF5EDF-5EDF-420F-91FC-AE08C53530EAQ40221022-195D19E6-E474-40BA-99C1-D2C7AF8F4197Q40474213-59951526-439F-42FC-A9F0-51FE4185ADE1Q40508602-016086A1-397A-4B63-8A18-AD0FDD08FB7AQ40545267-99985E9C-E9E5-4554-A12B-4BA0F2084F1CQ41931634-78181DD8-52F0-4185-822A-9D5C6A040265Q42551330-6DE50EC0-C2A9-45BA-AD9B-B3EB63F0F2F5Q42593070-E47FB95D-E292-4668-8D50-53A67C7D0D6FQ43853047-70ABB79F-298F-44BA-8ADD-A1DF1A1E5471Q45051015-A0613045-1984-4526-A552-DDB4D81257E2Q45396933-728EB6EF-BAE3-4C5E-A201-245B88124479Q45409834-03817D0D-EE93-4D9B-BD71-42D3AEA96900Q45421113-A058CB99-4F65-4441-ACB9-E67082668EE4
P2860
Human metapneumovirus detection in patients with severe acute respiratory syndrome.
description
2003 nî lūn-bûn
@nan
2003 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Human metapneumovirus detection in patients with severe acute respiratory syndrome.
@ast
Human metapneumovirus detection in patients with severe acute respiratory syndrome.
@en
Human metapneumovirus detection in patients with severe acute respiratory syndrome.
@nl
type
label
Human metapneumovirus detection in patients with severe acute respiratory syndrome.
@ast
Human metapneumovirus detection in patients with severe acute respiratory syndrome.
@en
Human metapneumovirus detection in patients with severe acute respiratory syndrome.
@nl
prefLabel
Human metapneumovirus detection in patients with severe acute respiratory syndrome.
@ast
Human metapneumovirus detection in patients with severe acute respiratory syndrome.
@en
Human metapneumovirus detection in patients with severe acute respiratory syndrome.
@nl
P2093
P2860
P356
P1476
Human metapneumovirus detection in patients with severe acute respiratory syndrome.
@en
P2093
Chi-Kong Li
Ching-Wan Lam
David S C Hui
Edward Chan
Esther Liu
Frankie W T Cheng
Gavin M Joynt
Jo L K Cheung
P2860
P304
P356
10.3201/EID0909.030304
P577
2003-09-01T00:00:00Z