Hypoxic tissue in ischaemic stroke: persistence and clinical consequences of spontaneous survival.
about
Hypoxia and ischemia-reperfusion: a BiK contribution?Precise Characterization of the Penumbra Revealed by MRI: A Modified Photothrombotic Stroke Model StudyNeuroprotection and thrombolysis: combination therapy in acute ischaemic strokeBeyond the time window of intravenous thrombolysis: standing by or by stenting?A review of current imaging methods used in stroke research.Association between the perfusion/diffusion and diffusion/FLAIR mismatch: data from the AXIS2 trialNeuroimaging of ischemia and infarction.Brain-mapping techniques for evaluating poststroke recovery and rehabilitation: a review.Neuroimaging of ischemic stroke with CT and MRI: advancing towards physiology-based diagnosis and therapy.The neuroprotective effects of carnosine in early stage of focal ischemia rodent model.Feasibility of 62Cu-ATSM PET for evaluation of brain ischaemia and misery perfusion in patients with cerebrovascular disease.Characterizing tissue fate after transient cerebral ischemia of varying duration using quantitative diffusion and perfusion imaging.Imaging of hypoxic-ischemic penumbra with (18)F-fluoromisonidazole PET/CT and measurement of related cerebral metabolism in aneurysmal subarachnoid hemorrhage.'Salvaged' stroke ischaemic penumbra shows significant injury: studies with the hypoxia tracer FMISODiffusion-perfusion mismatch: an opportunity for improvement in cortical function.Quantitative temporal profiles of penumbra and infarction during permanent middle cerebral artery occlusion in rats.Prominent vessel sign on susceptibility-weighted imaging in acute stroke: prediction of infarct growth and clinical outcome.Renal Impairment with Sublethal Tubular Cell Injury in a Chronic Liver Disease Mouse ModelMultivariate dynamic prediction of ischemic infarction and tissue salvage as a function of time and degree of recanalization.Imaging the physiological evolution of the ischemic penumbra in acute ischemic stroke.Pathophysiology of ischaemic stroke: insights from imaging, and implications for therapy and drug discovery.Neuroprotectants in stroke therapy.SUMO-Modified FADD Recruits Cytosolic Drp1 and Caspase-10 to Mitochondria for Regulated Necrosis.Techniques of assessing hypoxia at the bench and bedside.How to make better use of thrombolytic therapy in acute ischemic stroke.Patient selection for intra-arterial cerebral revascularization in acute ischemic stroke.Positron emission tomography radiotracers for imaging hypoxia.Brain hypoxia mapping in acute stroke: Back-to-back T2' MR versus 18F-fluoromisonidazole PET in rodents.BDNF Pretreatment of Human Embryonic-Derived Neural Stem Cells Improves Cell Survival and Functional Recovery After Transplantation in Hypoxic-Ischemic Stroke.Parametric mapping of [18F]fluoromisonidazole positron emission tomography using basis functions.Effects of hyperoxia on 18F-fluoro-misonidazole brain uptake and tissue oxygen tension following middle cerebral artery occlusion in rodents: Pilot studies.Diffusion and perfusion correlates of the 18F-MISO PET lesion in acute stroke: pilot study.Reperfusion therapy in acute ischemic stroke: dawn of a new era?PET imaging of the neurovascular interface in cerebrovascular disease.European Cooperative Acute Stroke Study-4: Extending the time for thrombolysis in emergency neurological deficits ECASS-4: ExTEND.Evaluation of hypoxic tissue dynamics with 18F-FMISO PET in a rat model of permanent cerebral ischemia.A multicentre, randomized, double-blinded, placebo-controlled Phase III study to investigate EXtending the time for Thrombolysis in Emergency Neurological Deficits (EXTEND).Implant for augmentation of cerebral blood flow trial 1: a pilot study evaluating the safety and effectiveness of the Ischaemic Stroke System for treatment of acute ischaemic stroke.Imaging of brain hypoxia in permanent and temporary middle cerebral artery occlusion in the rat using 18F-fluoromisonidazole and positron emission tomography: a pilot study.The independent predictive utility of computed tomography angiographic collateral status in acute ischaemic stroke.
P2860
Q27028077-A1F3122F-49D2-460D-BE0F-8DB061398C6DQ27313384-9546269A-1B18-4EE3-8003-688C35C34671Q28199814-07600A36-22EB-4C73-9E2E-156D549F97EAQ30431536-D1DB5FB2-7153-4672-9BE3-ABCED4F56392Q30670310-D9CB1648-4B5E-4F21-96CB-A80FDE082FA6Q30964058-8F08D38B-F89D-49B2-8D17-D05243086E58Q30989931-FEDF9179-6343-4CEA-939A-993544F22ACCQ33384358-BA012029-AB2B-4A04-8764-B536E0F3DE93Q33395470-7F28EEB5-DC94-4031-AA5B-276FE937C265Q33626923-B046EC9B-C8C1-47CE-A23A-1EFD58CC4419Q33810334-4D270918-3D51-4E11-8959-D8CEEA5950B9Q33978327-5BD7D96B-F83F-4C3F-B26A-8B41AE3299DCQ34170743-E30DACD6-731E-49FA-8498-1C8F75C2CD6AQ34714753-1EF34558-D999-43BB-A8D9-C18B36D033D8Q34954564-46950836-2634-45A9-BDE4-5DDFFDA83DA4Q35029837-E5634C6C-88CC-4871-BB35-EECAEA447950Q35674124-CD5270F6-2D3B-4402-AF93-9D7204DB4818Q35890565-D6487092-6F45-45FE-990C-76C701D045FDQ36267449-000BBC69-A931-4795-9A44-4735D516DC21Q36323511-3F67DB73-9886-4D71-BE4E-C7456FE40653Q36496980-A1F51361-E2E9-42DF-A223-CA360ADE58B7Q37123385-78D8DD50-2691-476D-9755-75D6EBB02EBAQ37559392-C11936ED-4E8E-4B0B-A343-AF37DE52193AQ37843729-A1DBBD68-134F-4920-8187-D517D8AF105CQ37889116-3100990D-3347-4B77-A857-FE62F56A16AEQ38063338-6C5E6C1D-63A9-46EF-811A-3219CDEED99BQ38166980-59BFF2DC-E0C0-49A7-8BA1-AD0C8DFD2C76Q38775393-8AAA9192-2D20-483C-9DD8-C6C9E625B8E3Q39018663-1AF85C6C-EA31-4A18-9FC7-9E76A0CBD842Q42098251-14D882EB-388E-41A7-83B1-9A2013B4B16FQ43976540-D39E8EA1-D08F-45F4-9D51-DC4B99C9A751Q44296955-38DF7A2F-B188-4682-8EA1-5E11149461B6Q47861990-6836A725-ECC3-474E-ADE4-7D7063510396Q48031424-3FB6736B-C1C0-4551-9F2B-1038D5E35A14Q48066036-FE24D0C7-936D-43FB-B722-C2FC778F6EA0Q48140057-4B900B07-6056-4FC0-AD70-FE55707CF894Q48268410-C995501D-DB20-4CDD-A6B5-5946306DCA81Q48395893-99308CB1-E3A0-4AC2-BCCC-202EF259A54DQ48398953-30B70179-BA10-4A13-A3F6-7A46193DB3CEQ48579284-5592CB99-BF73-4C81-BDD3-31BE0DDAD21A
P2860
Hypoxic tissue in ischaemic stroke: persistence and clinical consequences of spontaneous survival.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh
2004年學術文章
@zh-hant
name
Hypoxic tissue in ischaemic st ...... ences of spontaneous survival.
@en
Hypoxic tissue in ischaemic st ...... ences of spontaneous survival.
@nl
type
label
Hypoxic tissue in ischaemic st ...... ences of spontaneous survival.
@en
Hypoxic tissue in ischaemic st ...... ences of spontaneous survival.
@nl
prefLabel
Hypoxic tissue in ischaemic st ...... ences of spontaneous survival.
@en
Hypoxic tissue in ischaemic st ...... ences of spontaneous survival.
@nl
P2093
P356
P1433
P1476
Hypoxic tissue in ischaemic st ...... ences of spontaneous survival.
@en
P2093
Reutens DC
Sachinidis JI
Tochon-Danguy HJ
P304
P356
10.1093/BRAIN/AWH162
P407
P577
2004-05-06T00:00:00Z