Respiratory syncytial virus: the virus, the disease and the immune response.
about
Respiratory syncytial virus (RSV) infects neuronal cells and processes that innervate the lung by a process involving RSV G protein.Whole blood gene expression in infants with respiratory syncytial virus bronchiolitisRespiratory virus modulation of host nucleocytoplasmic transport; target for therapeutic intervention?Development of asthma is determined by the age-dependent host response to respiratory virus infection: therapeutic implicationsInduction of protective effector immunity to prevent pathogenesis caused by the respiratory syncytial virus. Implications on therapy and vaccine designKinetics of antibody-induced modulation of respiratory syncytial virus antigens in a human epithelial cell line.Neurological complications of respiratory syncytial virus infection: case series and review of literature.Newcastle disease virus-like particles containing respiratory syncytial virus G protein induced protection in BALB/c mice, with no evidence of immunopathology.Characterization of the resistance of SJL/J mice to pneumonia virus of mice, a model for infantile bronchiolitis due to a respiratory syncytial virusNeonatal innate immunity to infectious agents.New immune pathways from chronic post-viral lung diseaseRespiratory syncytial virus infection-associated hospitalization in adults: a retrospective cohort study.The Role of RSV Infection in Asthma Initiation and Progression: Findings in a Mouse Model.Local interleukin-10 production during respiratory syncytial virus bronchiolitis is associated with post-bronchiolitis wheeze.Role of respiratory syncytial virus in acute otitis media: implications for vaccine developmentGenetic diversity and evolutionary insights of respiratory syncytial virus A ON1 genotype: global and local transmission dynamicsInhibition of protein kinase C epsilon causes ciliated bovine bronchial cell detachmentEvaluation of case definitions for estimation of respiratory syncytial virus associated hospitalizations among children in a rural community of northern India.Prospects of RNA interference therapy in respiratory viral diseases: update 2006.Chemokines and their receptors in respiratory disease: a therapeutic target for respiratory syncytial virus infection.Palivizumab and the prevention of respiratory syncytial virus illness in pediatric patients with congenital heart disease.Overcoming T cell-mediated immunopathology to achieve safe RSV vaccination.Respiratory syncytial virus activates innate immunity through Toll-like receptor 2.Characterization of large mumps outbreak among vaccinated Palestinian refugees.Suppression of IRG-1 Reduces Inflammatory Cell Infiltration and Lung Injury in Respiratory Syncytial Virus Infection by Reducing Production of Reactive Oxygen Species.Mucosal antibody responses are directed by viral burden in children with acute influenza infection.Surfactant protein C-deficient mice are susceptible to respiratory syncytial virus infectionRNA interference-mediated silencing of the respiratory syncytial virus nucleocapsid defines a potent antiviral strategy.Recent advances in diagnosis, prevention, and treatment of human respiratory syncytial virus.Serology Enhances Molecular Diagnosis of Respiratory Virus Infections Other than Influenza in Children and Adults Hospitalized with Community-Acquired Pneumonia.Prospects for defined epitope vaccines for respiratory syncytial virus.Respiratory syncytial virus: immunopathology and control.Prevention of serious respiratory syncytial virus-related illness. II: Immunoprophylaxis.Respiratory syncytial virus persistence in macrophages alters the profile of cellular gene expression.Clinical translation of RNAi-based treatments for respiratory diseases.Reduced activation and proliferation of human lymphocytes exposed to respiratory syncytial virus compared to cells exposed to influenza virus.New Insights Contributing to the Development of Effective Vaccines and Therapies to Reduce the Pathology Caused by hRSV.Maturation of Airway Defensive Reflexes Is Related to Development of Feeding Behavior during Growth in Rabbits.Atomic force microscopic investigation of respiratory syncytial virus infection in HEp-2 cells.Neutrophil Extracellular Traps and Its Implications in Inflammation: An Overview
P2860
Q24535536-6829E80C-68E9-4DFC-BEEB-3781CA9AA55CQ24679785-C36261DE-F7AF-4F89-B72F-B3C6A4765227Q26796151-0750C6D6-6A58-430C-8DBB-FD7486332E6CQ26991548-21B6ECA4-1D9B-46CF-9DBC-090925A59C5AQ27021304-4CE587FA-9ECF-4AB3-AA4F-62A7CF9A81E3Q33289824-E6F712FD-E048-44E0-BE12-9A2D26781D15Q33415268-6C25ABCC-302B-48D3-A500-BC17AB69382DQ33558475-3A20CF6D-0E0A-4D13-9E1A-38BD8F59AC77Q34450231-67359511-17C9-4356-837D-4798854C49F6Q34492674-BA2DC1BC-37C1-4E78-B4F2-E264A6B44E3CQ34692122-964C0D1A-F842-416D-BC29-17036E3CF72DQ34728523-4ACA7CDC-C2BC-4ABE-9447-90C82891DB2DQ35101883-6BFB6E99-C03D-4270-A1AE-0FF1725746D4Q35231239-1260829F-7F87-4E62-B39E-07FF229AB12EQ35689593-D9E6B6CB-05E7-4F7C-A446-C19F5684AC0FQ36106525-B17040D5-6E19-49B9-BB68-37195935BE0EQ36178645-6A09358D-8EE1-4AB9-8EDD-00FD18D83FDAQ36299475-8897AE7B-7591-430B-AF2D-CFD7501D3DF2Q36627248-F6E9FDDB-5A85-4D84-BE56-1240002355FFQ36839725-3166515C-AF1B-4918-A953-972F51B41008Q36922280-814FC564-7DA0-4D9A-AE8A-AF95BD79BACEQ36993991-B705BDAF-9ACF-4D89-A726-7D17C4858C9DQ37051620-87DF1D77-5ED5-4052-AA0C-C0434A0A007CQ37116725-3B29D71C-AE89-4ECE-94B0-BB6B346F39DEQ37174419-F4A49978-6EEB-4B3E-B6F7-0C471628EA80Q37179280-1C3DA76A-A897-400F-A3CB-3472FBCA7951Q37264759-80AA591C-D5CC-426A-9A9F-D9C9D5059AD4Q37333053-4DD7616C-9FAD-41AC-BC23-BFE1CE2318D7Q37412509-25EA6565-3DD7-4E34-B113-8EF5870D9EB0Q37581916-DDE86127-E7EF-4036-96F2-A3690EBB9032Q37721415-442273EE-611F-4E08-9EAF-40AB00427496Q37754763-60F3A116-F820-4B6F-8714-7899A53AA672Q37841264-0ABFCDC8-57E6-4F5F-AFD8-742AC15B71EAQ38076133-C365A494-A4C1-4449-85AA-6762A2D2AD79Q38383297-B7BCF244-8357-4AA4-8A5E-D5908DE8A0CDQ38600929-368F9FC9-7B90-438F-89AD-B448C831080AQ38628928-10DFE7D0-4C3A-4372-BED0-6F527DAEE2B5Q38947374-1D233285-8CBC-4310-B483-A7169434CE00Q39061469-FB3736D6-1824-4674-BD9F-95A6C3E04359Q39144786-EE573C62-A7E7-442F-90FA-B7054DDE5EFA
P2860
Respiratory syncytial virus: the virus, the disease and the immune response.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
2004年论文
@zh
2004年论文
@zh-cn
name
Respiratory syncytial virus: the virus, the disease and the immune response.
@ast
Respiratory syncytial virus: the virus, the disease and the immune response.
@en
type
label
Respiratory syncytial virus: the virus, the disease and the immune response.
@ast
Respiratory syncytial virus: the virus, the disease and the immune response.
@en
prefLabel
Respiratory syncytial virus: the virus, the disease and the immune response.
@ast
Respiratory syncytial virus: the virus, the disease and the immune response.
@en
P1476
Respiratory syncytial virus: the virus, the disease and the immune response.
@en
P2093
Pearay L Ogra
P304
P356
10.1016/S1526-0542(04)90023-1
P478
P577
2004-01-01T00:00:00Z