Electron paramagnetic resonance-guided normobaric hyperoxia treatment protects the brain by maintaining penumbral oxygenation in a rat model of transient focal cerebral ischemia.
about
Targeting ischemic penumbra Part I: from pathophysiology to therapeutic strategyNon-pharmaceutical therapies for stroke: mechanisms and clinical implications.Normobaric oxygen treatment in acute ischemic stroke: a clinical perspectiveCocktail treatment, a promising strategy to treat acute cerebral ischemic stroke?Normobaric hyperoxia improves cerebral blood flow and oxygenation, and inhibits peri-infarct depolarizations in experimental focal ischaemia.Normobaric hyperoxia combined with minocycline provides greater neuroprotection than either alone in transient focal cerebral ischemia.Combination therapy with normobaric oxygen (NBO) plus thrombolysis in experimental ischemic stroke.In vivo electron paramagnetic resonance oximetry and applications in the brainWhite matter hyperintensity volume correlates with matrix metalloproteinase-2 in acute ischemic strokeRODENT STROKE MODEL GUIDELINES FOR PRECLINICAL STROKE TRIALS (1ST EDITION).The SOS pilot study: a RCT of routine oxygen supplementation early after acute stroke--effect on recovery of neurological function at one weekEndothelial dysfunction abrogates the efficacy of normobaric hyperoxia in stroke.Transient filament occlusion of the middle cerebral artery in rats: does the reperfusion method matter 24 hours after perfusion?Advances in emerging nondrug therapies for acute stroke 2007.Oxygen, a Key Factor Regulating Cell Behavior during Neurogenesis and Cerebral Diseases.Inhibition of gp91(phox) contributes towards normobaric hyperoxia afforded neuroprotection in focal cerebral ischemia.Effects of normobaric oxygen on the progression of focal cerebral ischemia in ratsNormobaric hyperoxia slows blood-brain barrier damage and expands the therapeutic time window for tissue-type plasminogen activator treatment in cerebral ischemia.Rapid conditioning with oxygen oscillation: neuroprotection by intermittent normobaric hyperoxia after transient focal cerebral ischemia in rats.Effects of normobaric oxygen and melatonin on reperfusion injury: role of cerebral microcirculationDoes normobaric hyperoxia increase oxidative stress in acute ischemic stroke? A critical review of the literature.Reduction of zinc accumulation in mitochondria contributes to decreased cerebral ischemic injury by normobaric hyperoxia treatment in an experimental stroke model.Dynamic functional cerebral blood volume responses to normobaric hyperoxia in acute ischemic stroke.Normobaric hyperoxia-based neuroprotective therapies in ischemic stroke.Direct visualization of mouse brain oxygen distribution by electron paramagnetic resonance imaging: application to focal cerebral ischemia.Basic physiology of hyperbaric oxygen in brain.A review of oxygen therapy in ischemic stroke.Normobaric hyperoxia inhibits NADPH oxidase-mediated matrix metalloproteinase-9 induction in cerebral microvessels in experimental stroke.Methylene blue and normobaric hyperoxia combination therapy in experimental ischemic stroke.Normobaric hyperoxia attenuates early blood-brain barrier disruption by inhibiting MMP-9-mediated occludin degradation in focal cerebral ischemia.Normobaric hyperoxia reduces the neurovascular complications associated with delayed tissue plasminogen activator treatment in a rat model of focal cerebral ischemia.NADPH oxidases as therapeutic targets in ischemic stroke.Influence of 100% and 40% oxygen on penumbral blood flow, oxygen level, and T2*-weighted MRI in a rat stroke model.Ischemia/Reperfusion Induces Interferon-Stimulated Gene Expression in Microglia.Effects of stroke severity and treatment duration in normobaric hyperoxia treatment of ischemic strokeOxygen or cooling, to make a decision after acute ischemia stroke.Normobaric hyperoxia protects the blood brain barrier through inhibiting Nox2 containing NADPH oxidase in ischemic stroke.Real-time monitoring of ischemic and contralateral brain pO2 during stroke by variable length multisite resonators.Time course of neuroprotection induced by in vivo normobaric hyperoxia preconditioning and angiogenesis factors.Effects of normobaric versus hyperbaric oxygen on cell injury induced by oxygen and glucose deprivation in acute brain slices.
P2860
Q24622248-515E08C9-FAEC-4DA6-8718-6F327C9CF678Q26866231-4E18C60A-5674-4D28-BD7E-FF36C2F839E3Q28070403-ED0BACCC-4902-491B-BA57-6FD3DA1577A9Q28077232-16101A2B-D033-4E7D-A475-42E4CE22A418Q33283163-F24010A1-0639-4179-82B7-96513D5F38A7Q33456516-2C1E02D6-2BDB-4B68-813C-AF397BF6E384Q33482531-7C8F11E3-69AC-42E5-8F4E-8DB1488372EFQ33594541-FB03A069-B544-4324-B62A-382D90C2E585Q33758171-8852ACA3-9098-4842-8FF3-99252873B516Q33765349-F1842A60-4B92-4561-A56A-98FAC8CA99E3Q33916495-7717CFE6-A817-4E23-A415-F6AE2995EE4CQ34491640-590629BC-BE1F-4EFF-94A4-4AC22181054AQ34526493-5AF4D3A0-38B4-4D32-81AB-BA6FB8D25E97Q34734811-11ADE0DA-1A43-46B8-8CF2-1E0098CE156DQ34774741-64588483-3B10-4189-9C85-03C0A1CB5703Q34778251-10259F7C-8DDC-4FBA-853D-C5DB2BD48294Q34956731-231D5FEA-E93E-4DD8-861F-5F90A0A90172Q35554378-3AAB206A-E8C0-412A-9A9C-AF047D09058EQ35635615-07E58360-DFA5-40C1-B791-C7C455377B94Q35791055-C6A3C24D-AEF0-4F2A-A225-D4606294DF26Q35990395-BF415E29-D3C2-41E7-B655-CCBAFDDBAD93Q36172435-3D09B57A-EB0E-4A03-A2E4-283C52B5E7E8Q36211369-F79F8870-70FA-4ED5-A90B-A1E7C948F171Q36555842-8FA4B343-CF6D-4F1D-B42E-D5FABA229220Q36786734-3BD534F6-A6C8-44BF-9613-810CBD253568Q36793983-D02B46D1-D904-4BEA-A0B7-0255FA1C8487Q36794011-029C7A0B-686E-464B-A0DD-5868095E8750Q36972068-86AF0AA8-1204-4FDB-8FEA-4FD1BF34EAB1Q37110716-23165B15-8D4A-45E1-A31E-13F696F5D0BEQ37176938-2376105A-6AED-4544-B7D1-1E3F3245C604Q37271168-E2BD707F-32D7-4AB2-9037-F706A003159FQ38012354-93563D61-A9A8-47D0-B1EC-1C08E5587A8BQ38370110-D8C09FEA-F051-4FD4-97B0-16180B7FCF5FQ38659431-1B944828-CB6F-4217-BF85-9B253165410CQ38794741-9DCC21D4-C3E5-4F1C-9C8C-1D115B9A8B3DQ39143708-7C0C2888-76B5-4F74-B2F1-ECDAAF8A8A58Q39635208-A5BCF593-1738-4147-B5F8-F25A5F080FEFQ41816302-E9433D56-E7C9-4BA9-8FC7-971CD77ED3ADQ42329875-CCAE72B3-E247-4B17-8FEF-86DB5B6F8376Q42368537-332CC394-A600-48AC-A651-B27E658B4EF7
P2860
Electron paramagnetic resonance-guided normobaric hyperoxia treatment protects the brain by maintaining penumbral oxygenation in a rat model of transient focal cerebral ischemia.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh-hant
name
Electron paramagnetic resonanc ...... sient focal cerebral ischemia.
@en
Electron paramagnetic resonanc ...... sient focal cerebral ischemia.
@nl
type
label
Electron paramagnetic resonanc ...... sient focal cerebral ischemia.
@en
Electron paramagnetic resonanc ...... sient focal cerebral ischemia.
@nl
prefLabel
Electron paramagnetic resonanc ...... sient focal cerebral ischemia.
@en
Electron paramagnetic resonanc ...... sient focal cerebral ischemia.
@nl
P2093
P2860
P356
P1476
Electron paramagnetic resonanc ...... sient focal cerebral ischemia.
@en
P2093
Gary A Rosenberg
Ke Jian Liu
Minoru Miyake
Shimin Liu
Wenlan Liu
P2860
P304
P356
10.1038/SJ.JCBFM.9600277
P577
2006-01-18T00:00:00Z