Mechanisms contributing to cerebral infarct size after stroke: gender, reperfusion, T lymphocytes, and Nox2-derived superoxide
about
A combined pre-clinical meta-analysis and randomized confirmatory trial approach to improve data validity for therapeutic target validationCerebral Small Vessel Disease: Targeting Oxidative Stress as a Novel Therapeutic Strategy?Antimicrobial peptides and complement in neonatal hypoxia-ischemia induced brain damageNeuroprotection after stroke by targeting NOX4 as a source of oxidative stressBiochemistry, physiology, and pathophysiology of NADPH oxidases in the cardiovascular systemInflammatory responses in hypoxic ischemic encephalopathyCross-talk between the inflammatory response, sympathetic activation and pulmonary infection in the ischemic strokeInflammation after Ischemic Stroke: The Role of Leukocytes and Glial CellsOxidative Stress in Hypoxic-Ischemic Encephalopathy: Molecular Mechanisms and Therapeutic Strategies.The immunology of stroke: from mechanisms to translationMolecular dialogs between the ischemic brain and the peripheral immune system: dualistic roles in injury and repairTargeting microglial activation in stroke therapy: pharmacological tools and gender effects.Innate inflammatory responses in stroke: mechanisms and potential therapeutic targets.Nox2 oxidase activity accounts for the oxidative stress and vasomotor dysfunction in mouse cerebral arteries following ischemic stroke.Brain immune cell composition and functional outcome after cerebral ischemia: comparison of two mouse strainsNADPH oxidase-2: linking glucose, acidosis, and excitotoxicity in stroke.Role of dihydrotestosterone in post-stroke peripheral immunosuppression after cerebral ischemiaTherapy with recombinant T-cell receptor ligand reduces infarct size and infiltrating inflammatory cells in brain after middle cerebral artery occlusion in miceIncreased brain injury and worsened neurological outcome in interleukin-4 knockout mice after transient focal cerebral ischemiaSex-independent neuroprotection with minocycline after experimental thromboembolic stroke.Estrogen neuroprotection and the critical period hypothesis.Importance of T lymphocytes in brain injury, immunodeficiency, and recovery after cerebral ischemia.Oestrogen signalling and neuroprotection in cerebral ischaemia.Combating oxidative stress in vascular disease: NADPH oxidases as therapeutic targetsThe 1027th target candidate in stroke: Will NADPH oxidase hold up?Reperfusion rather than ischemia drives the formation of ubiquitin aggregates after middle cerebral artery occlusionEffect of Inducible Co-Stimulatory Molecule siRNA in Cerebral Infarction Rat ModelsOver-expression of DSCR1 protects against post-ischemic neuronal injuryNeuroprotective effect of an angiotensin receptor type 2 agonist following cerebral ischemia in vitro and in vivo.Blood biomarkers role in acute ischemic stroke patients: higher is worse or better?Post-stroke inflammation and the potential efficacy of novel stem cell therapies: focus on amnion epithelial cells.Method parameters' impact on mortality and variability in mouse stroke experiments: a meta-analysis.Histopathological Investigation of Different MCAO Modalities and Impact of Autologous Bone Marrow Mononuclear Cell Administration in an Ovine Stroke Model.Interaction between sex and apolipoprotein e genetic background in a murine model of intracerebral hemorrhage.Phenotypic changes in immune cell subsets reflect increased infarct volume in male vs. female mice.Leukocyte infiltration in experimental strokePharmacologically induced hypothermia via TRPV1 channel agonism provides neuroprotection following ischemic stroke when initiated 90 min after reperfusion.Perioperative organ injury.Immune cell infiltration in malignant middle cerebral artery infarction: comparison with transient cerebral ischemia.NADPH oxidases as therapeutic targets in ischemic stroke.
P2860
Q24289291-CC302ECE-9E65-44DF-BBDD-C5C62ED5EE97Q26751153-DA640857-63D9-41E8-A2E3-C90159876C99Q26850135-219504AD-6DFD-4CDF-9880-91B4FC70F117Q26862779-3AFE0FC0-8A41-40BA-BA54-63C1E7AA38FBQ26991619-6F32F141-8A87-4075-9293-5A85927E13A9Q27001711-84104E8A-298B-49A7-94BD-2F8C51D2FD50Q27024997-625560C2-B89F-4EF2-BD8D-845607E7590AQ28072250-25F10925-F3F6-4A6B-8606-C559250D1336Q28073954-496ED91F-C3CA-4ECB-A03B-34C6D43CED6DQ29620066-5A47D7BE-EA91-4BDA-943C-11DDF25E8BACQ33583258-33ED2440-B122-4D77-BFF6-028E8A2DA5AAQ33824991-E8DDE13B-63B3-4C16-AC53-2A8DFB7520CAQ33925611-B8516235-7587-4DFE-B203-C8F1D7ACA4F9Q34099222-7111ECCE-B08D-44F3-8958-F3145E1E06BCQ34541068-E02C17A6-55F3-4740-B165-18D9E0B31113Q34802636-AF482D76-F0D1-41FD-BFDB-E5234865675BQ34843539-395BF918-263D-4FF7-92AC-755D4D12ECABQ35036755-BED62C3F-2D9B-4EC3-99D4-6C70F2A524FDQ35083560-A0E775FD-057F-4849-B523-AB1ABD07CBA9Q35779826-9149CCEA-67EE-45BB-B817-66FCB5E9D562Q35785178-3F337222-4DDA-46CE-AD54-045B23235AB3Q35866882-3837E4ED-856C-40BB-A42C-B164C7D10A1EQ35882885-7C523740-9B0B-4B8E-900A-8B533B2D767CQ35992729-F40CE61A-F18C-459D-A17B-9EB2CCED1C34Q36112519-CAE0B99B-0E54-4C14-8CA0-2F4090D4F300Q36113521-3B469ACD-E1C4-438F-A102-E8D84C1AF6AAQ36140518-13C46AEA-4CBD-4CDE-BB28-445A9BD7C039Q36353559-DC2649F2-8B1E-46C4-81C2-9AD619D6EC07Q36380230-313647E8-139E-48AE-93E9-7ED7777087B2Q36498530-397A6DF4-228C-4593-9282-A965BA39D0FBQ36540313-3125D51A-27B8-4400-90CA-F1F8602D7026Q36579398-2464B89D-8623-4A9E-AC0C-DA047A870460Q36615851-50823FF0-E856-49FC-9398-74457FA395D2Q37079172-1718D39C-8D11-41FD-A906-B035C8ED2391Q37262802-A3CD52F9-E423-4D90-9865-15FEF95E3CDAQ37367461-F3BFD75F-A4B4-4A23-AA8A-A7AD6F199189Q37578160-8D56DFE0-E0C1-49BE-9371-88E71C14A6FEQ37593569-3088DFD4-ECC9-4B2F-ACD2-055CFEAC299AQ37627755-7BE630E7-276E-46DB-B0BD-5B73DD8076EEQ38012354-F3D94BF9-303F-4687-BF33-56C6C2CBD875
P2860
Mechanisms contributing to cerebral infarct size after stroke: gender, reperfusion, T lymphocytes, and Nox2-derived superoxide
description
2010 nî lūn-bûn
@nan
2010 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Mechanisms contributing to cer ...... s, and Nox2-derived superoxide
@ast
Mechanisms contributing to cer ...... s, and Nox2-derived superoxide
@en
Mechanisms contributing to cer ...... s, and Nox2-derived superoxide
@nl
type
label
Mechanisms contributing to cer ...... s, and Nox2-derived superoxide
@ast
Mechanisms contributing to cer ...... s, and Nox2-derived superoxide
@en
Mechanisms contributing to cer ...... s, and Nox2-derived superoxide
@nl
prefLabel
Mechanisms contributing to cer ...... s, and Nox2-derived superoxide
@ast
Mechanisms contributing to cer ...... s, and Nox2-derived superoxide
@en
Mechanisms contributing to cer ...... s, and Nox2-derived superoxide
@nl
P2093
P2860
P356
P1476
Mechanisms contributing to cer ...... s, and Nox2-derived superoxide
@en
P2093
Anja E Mast
Anna K Walduck
Brad R S Broughton
Christopher G Sobey
Elizabeth Guida
Grant R Drummond
Henry Diep
Katherine A Jackman
Stavros Selemidis
Vanessa H Brait
P2860
P304
P356
10.1038/JCBFM.2010.14
P577
2010-02-10T00:00:00Z