Traumatic brain injury in the rat: characterization of a lateral fluid-percussion model.
about
The evolution of traumatic brain injury in a rat focal contusion modelPosttraumatic epilepsy: a major problem in desperate need of major advancesProgesterone increases circulating endothelial progenitor cells and induces neural regeneration after traumatic brain injury in aged ratsMaking Waves in the Brain: What Are Oscillations, and Why Modulating Them Makes Sense for Brain InjuryRelevance of gap junctions and large pore channels in traumatic brain injuryAnimal models of traumatic brain injuryAnimal models of traumatic brain injuryAnti-epileptogenic clinical trial designs in epilepsy: issues and optionsEndogenous IFN-β signaling exerts anti-inflammatory actions in experimentally induced focal cerebral ischemiaEtiology matters - Genomic DNA Methylation Patterns in Three Rat Models of Acquired Epilepsy.Real-time optical diagnosis of the rat brain exposed to a laser-induced shock wave: observation of spreading depolarization, vasoconstriction and hypoxemia-oligemiaNeurogenic inflammation after traumatic brain injury and its potentiation of classical inflammationHistorical Review of the Fluid-Percussion TBI ModelAcute neuroimmune modulation attenuates the development of anxiety-like freezing behavior in an animal model of traumatic brain injuryEarly electroacupuncture treatment ameliorates neuroinflammation in rats with traumatic brain injuryFound in translation: Understanding the biology and behavior of experimental traumatic brain injuryOverview of Traumatic Brain Injury: An Immunological ContextPrimary blast causes mild, moderate, severe and lethal TBI with increasing blast overpressures: Experimental rat injury modelFacilitating Mitochondrial Calcium Uptake Improves Activation-Induced Cerebral Blood Flow and Behavior after mTBI.Assessing neuro-systemic & behavioral components in the pathophysiology of blast-related brain injury.A simple, efficient tool for assessment of mice after unilateral cortex injury.Blockage of the upregulation of voltage-gated sodium channel nav1.3 improves outcomes after experimental traumatic brain injury.Pre-Clinical Traumatic Brain Injury Common Data Elements: Toward a Common Language Across Laboratories.Injured Fluoro-Jade-positive hippocampal neurons contain high levels of zinc after traumatic brain injury.Alterations in cerebral cortex microvessels and the microcirculation in a rat model of traumatic brain injury: a correlative EM and laser Doppler flowmetry study.Cerebral blood volume alterations in the perilesional areas in the rat brain after traumatic brain injury--comparison with behavioral outcome.Can structural or functional changes following traumatic brain injury in the rat predict epileptic outcome?The consequences of traumatic brain injury on cerebral blood flow and autoregulation: a review.Improving on Laboratory Traumatic Brain Injury Models to Achieve Better Results.EphrinB3 blocks EphB3 dependence receptor functions to prevent cell death following traumatic brain injury.Isolated Brain Trauma in Cats Triggers Rapid Onset of HypovolemiaThe long-term microvascular and behavioral consequences of experimental traumatic brain injury after hypothermic interventionSelective temporal and regional alterations of Nogo-A and small proline-rich repeat protein 1A (SPRR1A) but not Nogo-66 receptor (NgR) occur following traumatic brain injury in the ratInduction of prolonged electrographic seizures in vitro has a defined threshold and is all or none: implications for diagnosis of status epilepticus.The whisker nuisance task identifies a late-onset, persistent sensory sensitivity in diffuse brain-injured ratsEffect of noncompetitive blockade of N-methyl-D-aspartate receptors on the neurochemical sequelae of experimental brain injury.Inhibition of SRC family kinases protects hippocampal neurons and improves cognitive function after traumatic brain injury.Deferoxamine attenuates acute hydrocephalus after traumatic brain injury in rats.Differential effects of 670 and 830 nm red near infrared irradiation therapy: a comparative study of optic nerve injury, retinal degeneration, traumatic brain and spinal cord injury.Experimental traumatic brain injury
P2860
Q24289524-9E9D40F6-DE62-44CE-A007-E94F381E95B6Q24537775-FE4E0918-BFB6-499C-B627-97776A597C7AQ24605777-50983C05-A30A-40A1-852F-91B7235318DBQ26752582-E8A2FFE6-F361-4A09-A6D6-1A0E8F2E3393Q26820817-E709D5C2-B85C-4CA3-8F33-B06AB5F8FFEDQ27025091-ADF49ED0-509B-4B0A-8AB8-426E7AF87184Q27025951-ECDD4CE8-0312-4490-BF2D-C19068CBC1E9Q27027689-7831309D-E9C3-4205-AB8B-5570C1343078Q27303494-B6544923-8B18-4766-A63C-630EEFE76550Q27316575-A9B279F6-05BF-4D3D-9078-009B6EFE4FEEQ27342274-2F785ABB-A70D-4C91-85DC-FA2AACEAC19AQ28069959-FDC90678-D702-458B-B1E9-C82E384161EFQ28075670-28076FEB-E005-42B4-8B6E-688CE8DE0EA0Q28386168-DCEFF747-4E38-4568-96FA-C0DEDCA96E88Q28394315-B0F27794-B20F-4C86-BA05-A44EEA85DADCQ28396242-09DA0088-7026-40D1-9B33-E4BCEFD10053Q30238775-78002CCF-47E2-4245-9765-C8169FD62E20Q30381737-2D6F45DB-73AC-4A68-9FBD-679B5E0170BFQ30387744-3D199EFA-AAC9-4D9F-80EB-BB2B7857500BQ30446201-BA3AD73A-E8BA-4387-952A-051FEC22FCC4Q30488495-D9B42DFE-862B-4AB4-9958-D3D8A20BF028Q30710079-DCFCF541-7CCD-4665-9812-B9EC0EE78EACQ30968544-7B8AAA4B-89D5-4891-8668-A01259080BB0Q33263820-1C5552BF-6FD0-4918-B11E-0AE12A35210BQ33290660-FAC75B65-0D34-46FE-A348-50B76035D499Q33530456-4CADE3D0-B502-475A-8D26-DFC234D4AF52Q33655350-F7E765B5-5578-4D25-B818-7A0B1C593A5EQ33659106-338A5FFA-46CD-4C92-B7EB-4D9BB04D61CDQ33717193-6E1B233C-D636-465C-990A-CB8B76F81CBAQ33720297-FD4EB71A-459C-49D8-B66E-6451B48EED5CQ33726057-B5FA8898-1479-4AFB-86B7-84B973860A9BQ33766794-3966286D-8046-45C4-8C2C-4B316E39A7CAQ33767902-409661E0-AFC0-495A-8976-06FDF3244A05Q33841551-F0FC1581-E52C-42F0-9C6B-24A6C7E37756Q33841633-A6EBEC29-3D43-44EE-BE20-023861964CE1Q33937321-9CAA4F57-DC2A-4865-89D0-4C0C2CE08DC8Q33942052-EFFBA576-B3CC-43C8-86E3-99B9B8758B0BQ34017056-B104D6F2-E153-47E6-B990-AA5CB8036261Q34020693-D9DBE506-0A89-495C-8F77-01905E5409DEQ34093983-ED1164D3-7A72-46E9-8A18-81669128E03B
P2860
Traumatic brain injury in the rat: characterization of a lateral fluid-percussion model.
description
1989 nî lūn-bûn
@nan
1989年の論文
@ja
1989年学术文章
@wuu
1989年学术文章
@zh
1989年学术文章
@zh-cn
1989年学术文章
@zh-hans
1989年学术文章
@zh-my
1989年学术文章
@zh-sg
1989年學術文章
@yue
1989年學術文章
@zh-hant
name
Traumatic brain injury in the rat: characterization of a lateral fluid-percussion model.
@en
Traumatic brain injury in the rat: characterization of a lateral fluid-percussion model.
@nl
type
label
Traumatic brain injury in the rat: characterization of a lateral fluid-percussion model.
@en
Traumatic brain injury in the rat: characterization of a lateral fluid-percussion model.
@nl
prefLabel
Traumatic brain injury in the rat: characterization of a lateral fluid-percussion model.
@en
Traumatic brain injury in the rat: characterization of a lateral fluid-percussion model.
@nl
P2093
P1433
P1476
Traumatic brain injury in the rat: characterization of a lateral fluid-percussion model.
@en
P2093
I Yamakami
T K McIntosh
P304
P356
10.1016/0306-4522(89)90247-9
P407
P577
1989-01-01T00:00:00Z