Cytokines: accelerators and brakes in the pathogenesis of cerebral malaria.
about
Cerebral malaria: mechanisms of brain injury and strategies for improved neurocognitive outcomeGene expression analysis reveals early changes in several molecular pathways in cerebral malaria-susceptible mice versus cerebral malaria-resistant miceHemoglobinopathies: slicing the Gordian knot of Plasmodium falciparum malaria pathogenesisInhibition of endothelial activation: a new way to treat cerebral malaria?Ambivalent Outcomes of Cell Apoptosis: A Barrier or Blessing in Malaria ProgressionMicroRNAs in the Host-Apicomplexan Parasites Interactions: A Review of Immunopathological AspectsThe role of cytokines in the pathogenesis and staging of Trypanosoma brucei rhodesiense sleeping sicknessCerebral malaria: gamma-interferon reduxTIM polymorphisms--genetics and functionRole of interleukin-10 in malaria: focusing on coinfection with lethal and nonlethal murine malaria parasitesBoth functional LTbeta receptor and TNF receptor 2 are required for the development of experimental cerebral malariaEndothelin-1 Mediates Brain Microvascular Dysfunction Leading to Long-Term Cognitive Impairment in a Model of Experimental Cerebral MalariaCD19(+) B cells confer protection against experimental cerebral malaria in semi-immune rodent modelA rapid murine coma and behavior scale for quantitative assessment of murine cerebral malariaReal-time imaging reveals the dynamics of leukocyte behaviour during experimental cerebral malaria pathogenesisStatins decrease neuroinflammation and prevent cognitive impairment after cerebral malariaInfectious Diseases of the Nervous System and Their Impact in Developing CountriesThe neuroprotective functions of transforming growth factor beta proteinsInhibition of Plasmodium falciparum field isolates-mediated endothelial cell apoptosis by Fasudil: therapeutic implications for severe malariaGlucocorticosteroids in nano-sterically stabilized liposomes are efficacious for elimination of the acute symptoms of experimental cerebral malariaSequestration and Tissue Accumulation of Human Malaria Parasites: Can We Learn Anything from Rodent Models of Malaria?Regulation of immunopathogenesis during Plasmodium and Toxoplasma infections: more parallels than distinctions?Murine malaria parasite sequestration: CD36 is the major receptor, but cerebral pathology is unlinked to sequestration.A contrast agent recognizing activated platelets reveals murine cerebral malaria pathology undetectable by conventional MRISimultaneously targeting inflammatory response and parasite sequestration in brain to treat Experimental Cerebral MalariaHigh-level cerebellar expression of cytokines and adhesion molecules in fatal, paediatric, cerebral malaria.Simultaneous host and parasite expression profiling identifies tissue-specific transcriptional programs associated with susceptibility or resistance to experimental cerebral malariaParasite burden and CD36-mediated sequestration are determinants of acute lung injury in an experimental malaria model.Elevated cell-specific microparticles are a biological marker for cerebral dysfunctions in human severe malaria.Distinct roles for FOXP3 and FOXP3 CD4 T cells in regulating cellular immunity to uncomplicated and severe Plasmodium falciparum malariaIgG autoantibody to brain beta tubulin III associated with cytokine cluster-II discriminate cerebral malaria in central India.Plasmepsin 4-deficient Plasmodium berghei are virulence attenuated and induce protective immunity against experimental malaria.Oral activated charcoal prevents experimental cerebral malaria in mice and in a randomized controlled clinical trial in man did not interfere with the pharmacokinetics of parenteral artesunate.IL-33 receptor ST2 regulates the cognitive impairments associated with experimental cerebral malariaCytokine profiles amongst Sudanese patients with visceral leishmaniasis and malaria co-infections.Schistosoma mansoni infection reduces the incidence of murine cerebral malaria.A surprising role for uric acid: the inflammatory malaria response.Cerebral malaria: a vasculopathy.Murine cerebral malaria is associated with a vasospasm-like microcirculatory dysfunction, and survival upon rescue treatment is markedly increased by nimodipinePositive replication and linkage disequilibrium mapping of the chromosome 21q22.1 malaria susceptibility locus.
P2860
Q21032453-732E0DCC-B8ED-458E-BF63-9FCE193D6364Q24646192-3BCEF6B0-7213-4688-9ECC-647A3E6FB041Q24810377-DB0094AB-9C35-4813-803C-4D560CE3B779Q24814891-6E555CFE-BF1F-40D7-B573-ACB039BE7C77Q26751066-D995F317-0412-4D43-B86B-D7990780E478Q26766336-722A7C42-3B2D-40BA-BFA3-45D33B9A65CCQ26775041-D0B12BA9-D281-47DD-AD00-979A8F414961Q26824074-BF340DD4-675C-45C6-A06D-DFDE04E4D965Q26995234-1841C0BD-B732-4542-9E0A-B55F73C4BCDDQ27021181-D85CFEBF-A8FF-40CD-A439-0A74D497B6E0Q27300897-46D26FE4-3ABB-486B-BFC7-178E29600F46Q27315202-17C15997-37E7-4146-878C-71000A42E36DQ27318165-2225BDED-8758-4D7D-862F-99315BD935B3Q27318676-8F7831A9-C1A0-433F-8F3F-D4C84C7CA493Q27324676-5E6C9CF2-A0B2-4A36-956A-531FBEFAA1CBQ27338288-1B9D1674-D636-4EFB-9F46-992E98126D0EQ27487936-957362E5-FC73-419D-ABD7-87B1B1CCFBA0Q28274093-E21A0AA6-3890-48E9-91B0-83228B987884Q28475706-4D1A04AA-559D-43B8-AA00-529B1D9FBEEFQ28535601-4E0A2462-4603-4E66-BD55-4B469D5F18B5Q29396069-3DDED545-47E3-4274-935C-5530D2296D14Q30409386-AF36AF39-9591-431D-B251-EDEF5241983AQ30476076-E705BE6B-340E-46F0-82D1-7034CB8B1836Q30481283-B62829D4-DD92-4F5B-A4C9-428A4BB468A3Q30659567-480E0D53-1B31-4145-8FD8-6C5879A06C2AQ33224850-E39F1ED4-2E15-4396-8AEF-C7DE7DF14CD5Q33264235-B9B53B59-9CBA-4CBF-93CB-487C28A243A0Q33335133-FF4563B2-E553-44C5-928B-5EBD386061D6Q33392460-2D5A709A-FC9C-4516-B655-1A4F83DC8F99Q33426367-54C6AC1A-9619-44FC-8C24-D40D3F45DACAQ33518569-CCD1A844-8918-43B4-879E-3289E2646B51Q33556308-EA12E2FE-6389-4D87-A0FE-E6857A83B29EQ33564441-6726E976-E9F7-4902-A631-8C503C17ECEEQ33610655-48466A3F-2E2F-4869-8048-8E45DE60B53DQ33624814-529BD919-2437-4E9B-AB13-DC50097966BBQ33657623-8425393A-BAA7-4D6D-B25A-E83D0AFE9E7DQ33684119-3C4605E2-B81D-4247-88D5-27725518E8D0Q33703604-09C0F81C-031F-46A2-BFAD-C5409C8B8AD9Q33703727-8D59BD9E-277C-44A3-A9A3-B2BB6611AE49Q33772060-CA5EA663-64C7-49B5-8977-059EDE9E1E48
P2860
Cytokines: accelerators and brakes in the pathogenesis of cerebral malaria.
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
Cytokines: accelerators and brakes in the pathogenesis of cerebral malaria.
@ast
Cytokines: accelerators and brakes in the pathogenesis of cerebral malaria.
@en
type
label
Cytokines: accelerators and brakes in the pathogenesis of cerebral malaria.
@ast
Cytokines: accelerators and brakes in the pathogenesis of cerebral malaria.
@en
prefLabel
Cytokines: accelerators and brakes in the pathogenesis of cerebral malaria.
@ast
Cytokines: accelerators and brakes in the pathogenesis of cerebral malaria.
@en
P921
P1433
P1476
Cytokines: accelerators and brakes in the pathogenesis of cerebral malaria.
@en
P2093
Nicholas H Hunt
P304
P356
10.1016/S1471-4906(03)00229-1
P577
2003-09-01T00:00:00Z