about
Japanese encephalitis-a pathological and clinical perspectiveUsutu virus: an emerging flavivirus in EuropeHuman T cell responses to Japanese encephalitis virus in health and diseaseFeasibility of cross-protective vaccination against flaviviruses of the Japanese encephalitis serocomplexEpidemiology of Japanese encephalitis: past, present, and future prospectsChimeric Dengue 2 PDK-53/West Nile NY99 Viruses Retain the Phenotypic Attenuation Markers of the Candidate PDK-53 Vaccine Virus and Protect Mice against Lethal Challenge with West Nile VirusFlavivirus Infection Activates the XBP1 Pathway of the Unfolded Protein Response To Cope with Endoplasmic Reticulum StressNovel Strategy for Treatment of Viral Central Nervous System Infection by Using a Cell-Permeating Inhibitor of c-Jun N-Terminal KinaseWest Nile virus infection of Drosophila melanogaster induces a protective RNAi responseEvaluation of an Epitope-Blocking Enzyme-Linked Immunosorbent Assay for the Diagnosis of West Nile Virus Infections in HumansHospital-Based Surveillance for Japanese Encephalitis at Four Sites in Bangladesh, 2003-2005Emerging flaviviruses: the spread and resurgence of Japanese encephalitis, West Nile and dengue virusesState-of-the-Art Microbiologic Testing for Community-Acquired Meningitis and EncephalitisInteractions of human microglia cells with Japanese encephalitis virusAcute encephalitis in children: Progress and priorities from an Australasian perspective.Clinical features in children hospitalized during the 2005 epidemic of Japanese encephalitis in Uttar Pradesh, India.Development and evaluation of a bioinformatics approach for designing molecular assays for viral detection.Viral etiology of encephalitis in children in southern Vietnam: results of a one-year prospective descriptive study.Isolation and genetic characteristics of human genotype 1 Japanese encephalitis virus, China, 2009.North American encephalitic arbovirusesSilencing early viral replication in macrophages and dendritic cells effectively suppresses flavivirus encephalitis.An inactivated Vero cell-grown Japanese encephalitis vaccine formulated with Advax, a novel inulin-based adjuvant, induces protective neutralizing antibody against homologous and heterologous flaviviruses.Sequential immunization with heterologous chimeric flaviviruses induces broad-spectrum cross-reactive CD8+ T cell responses.Mice with different susceptibility to Japanese encephalitis virus infection show selective neutralizing antibody response and myeloid cell infectivityNew Japanese encephalitis vaccines: alternatives to production in mouse brain.Flavivirus NS4A-induced autophagy protects cells against death and enhances virus replicationSTING mediates neuronal innate immune response following Japanese encephalitis virus infection.Aetiologies of central nervous system infection in Viet Nam: a prospective provincial hospital-based descriptive surveillance study.Community knowledge and experience of mosquitoes and personal prevention and control practices in Lhasa, TibetThe chemokine receptor CCR5, a therapeutic target for HIV/AIDS antagonists, is critical for recovery in a mouse model of Japanese encephalitisLong-term clinical and neuropsychological outcomes of West Nile virus infection.Autoimmunity-related demyelination in infection by Japanese encephalitis virusA brain slice culture model of viral encephalitis reveals an innate CNS cytokine response profile and the therapeutic potential of caspase inhibition.Safety and immunogenicity of a delta inulin-adjuvanted inactivated Japanese encephalitis virus vaccine in pregnant mares and foalsJapanese encephalitis virus co-opts the ER-stress response protein GRP78 for viral infectivity.Comprehensive Mapping Antigenic Epitopes of NS1 Protein of Japanese Encephalitis Virus with Monoclonal AntibodiesSafety and immunogenicity of a freeze-dried, Vero cell culture-derived, inactivated Japanese encephalitis vaccine (KD-287, ENCEVAC®) versus a mouse brain-derived inactivated Japanese encephalitis vaccine in children: a phase III, multicenter, doublePivotal role of antibody and subsidiary contribution of CD8+ T cells to recovery from infection in a murine model of Japanese encephalitisA preliminary randomized double blind placebo-controlled trial of intravenous immunoglobulin for Japanese encephalitis in Nepal.West nile virus (Kunjin subtype) disease in the northern territory of Australia--a case of encephalitis and review of all reported cases.
P2860
Q21144539-285B2419-F03C-449D-B145-351F2401C872Q24273302-EBD9E0D2-266D-46AC-8FE7-B5BC331BF0E8Q24289630-A4BB3055-A1AE-496E-828B-B8F76211EC0EQ24737461-0E6209F6-CC9C-465C-82EB-18D3DC88341EQ27023948-8292F250-0ED4-4D2F-8647-DA794C5C59ACQ27469831-30E072C2-084A-4E10-B954-62A3B2C61054Q27477652-AE15D6D0-E4F8-4646-A0C5-617D31D14FB1Q27480929-A63BB474-748A-47B9-842D-25513D023743Q27486650-71F160B4-22C9-476A-877A-EBCDCBCBDF0FQ27488388-D4CB543A-AF69-4F25-88A1-1055FEC714F6Q27490858-D3A3170D-FFBA-46B3-8BB8-C7C2717F0FEDQ27860800-0B6AA469-E44D-4D58-84C0-2B6BF10CB6F4Q28066683-B7231F8F-A2DB-4B23-956C-4078B5F35A75Q28578632-8D407D0A-5BB3-48EB-9386-645A2A758530Q30832727-AE6C3BA1-3559-47FC-8CB1-92B22AAA371BQ33371589-88FDCA19-6393-4A05-B918-5BB1D10CBB96Q33728016-477082FD-18C9-45CC-A0BA-DF9D25D0757EQ33737815-14620068-ACB6-445C-8C36-7AF6DBD91E5EQ33808716-0D1D373D-5391-44F1-9A08-FB3CC4F055EBQ33835377-8D70CCDE-952B-465A-ABC8-D398E12D5D59Q33851384-0403628F-3E87-4997-A6E9-53F8D2D7BC8BQ33923199-28CE6499-9614-4CD5-9C8F-E89E4E7E577DQ33992835-73309877-BD44-4DB1-AD60-505B7FF5AFB5Q34031442-94A05699-DA20-47D2-A1F6-62C7D12C8825Q34173039-ADCF0871-3B24-436F-B124-241E18A7FBB2Q34179923-8EF27B29-1F04-4D81-9F49-27B749413C32Q34265452-75104460-93BD-41FD-90D8-B20F70FFFE0CQ34291331-9C4B43B9-91D7-47CD-890A-6E0EE052F4E5Q34348396-6F85C063-7C23-4881-88DE-5C9614A3E0B5Q34427503-34659F24-AB52-4652-9C87-E5013B3EA29BQ34557857-834C92E7-CEF8-4A81-89AC-DC693800D6E9Q34668240-971CFDA9-E110-451A-9A8F-15CFB89B7D27Q34699478-5B353288-502E-4F21-A732-C50CD53E23C7Q34720701-A5192557-AA72-4C2B-B549-0A418AFCFB80Q34764849-9C161D2A-E147-4774-95A3-D582E591FEE5Q34795017-24DB239A-AC27-494E-8505-18EAE4DAB0BAQ34976644-C7A4C8A2-6C96-466E-B743-68A1CFE31F12Q34982611-15EADF7E-6650-423A-8B95-5DF59224A483Q35464299-A4BBE9CA-1E77-423F-8D72-0FD038117233Q35494632-91391CF2-1284-4223-A88F-FF376B007824
P2860
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
Flavivirus encephalitis.
@ast
Flavivirus encephalitis.
@en
type
label
Flavivirus encephalitis.
@ast
Flavivirus encephalitis.
@en
prefLabel
Flavivirus encephalitis.
@ast
Flavivirus encephalitis.
@en
P356
P1476
Flavivirus encephalitis
@en
P2093
Tom Solomon
P304
P356
10.1056/NEJMRA030476
P407
P50
P577
2004-07-01T00:00:00Z