Middle cerebral artery occlusion in rats: a neurological and pathological evaluation of a reproducible model.
about
Extended therapeutic window and functional recovery after intraarterial administration of neuregulin-1 after focal ischemic strokeTargeted delivery of erythropoietin by transcranial focused ultrasound for neuroprotection against ischemia/reperfusion-induced neuronal injury: a long-term and short-term study.The effects of the pre-treatment of intravenous nimodipine on Na(+)-K+/Mg+2 ATPase, Ca+2/Mg+2 ATPase, lipid peroxidation and early ultrastructural findings following middle cerebral artery occlusion in the rat.The angiotensin II type 1-receptor blocker candesartan increases cerebral blood flow, reduces infarct size, and improves neurologic outcome after transient cerebral ischemia in rats.Protein kinase C inhibition attenuates vascular ETB receptor upregulation and decreases brain damage after cerebral ischemia in ratEnhanced expressions of microvascular smooth muscle receptors after focal cerebral ischemia occur via the MAPK MEK/ERK pathway.Enhanced cerebrovascular expression of matrix metalloproteinase-9 and tissue inhibitor of metalloproteinase-1 via the MEK/ERK pathway during cerebral ischemia in the ratUnilateral blood flow decrease induces bilateral and symmetric responses in the immature brain.Characterizing photothrombotic distal middle cerebral artery occlusion and YAG laser-induced reperfusion model in the Izumo strain of spontaneously hypertensive rats.Preconditioning-induced ischemic tolerance: a window into endogenous gearing for cerebroprotectionA microsurgical procedure for middle cerebral artery occlusion by intraluminal monofilament insertion technique in the rat: a special emphasis on the methodologyNeuronal Ca2+-activated K+ channels limit brain infarction and promote survivalReduction of cerebral infarct size by dronedarone.Biochemical and inflammatory biomarkers in ischemic stroke: translational study between humans and two experimental rat models.Inhibition of cerebrovascular raf activation attenuates cerebral blood flow and prevents upregulation of contractile receptors after subarachnoid hemorrhage.Animal models of ischemic stroke. Part two: modeling cerebral ischemia.Wnt1 neuroprotection translates into improved neurological function during oxidant stress and cerebral ischemia through AKT1 and mitochondrial apoptotic pathways.Comparison of the post-embolization effects of tissue-plasminogen activator and simvastatin on neurological outcome in a clinically relevant rat model of acute ischemic stroke.Early motor balance and coordination training increased synaptophysin in subcortical regions of the ischemic rat brain.Ischemic postconditioning fails to protect against neonatal cerebral stroke.The effects of early exercise on brain damage and recovery after focal cerebral infarction in ratsBlood-brain barrier breakdown after embolic stroke in rats occurs without ultrastructural evidence for disrupting tight junctions.Method parameters' impact on mortality and variability in rat stroke experiments: a meta-analysis.The neuroprotective effects of intramuscular insulin-like growth factor-I treatment in brain ischemic rats.A review of creatine supplementation in age-related diseases: more than a supplement for athletes.Canine model of ischemic stroke with permanent middle cerebral artery occlusion: clinical features, magnetic resonance imaging, histopathology, and immunohistochemistryHydrogen saline offers neuroprotection by reducing oxidative stress in a focal cerebral ischemia-reperfusion rat model.A novel approach for mechanical tissue characterization indicates decreased elastic strength in brain areas affected by experimental thromboembolic stroke.Refined Qingkailing Protects MCAO Mice from Endoplasmic Reticulum Stress-Induced Apoptosis with a Broad Time Window.The KCa3.1 blocker TRAM-34 reduces infarction and neurological deficit in a rat model of ischemia/reperfusion stroke.Experimental animal models and inflammatory cellular changes in cerebral ischemic and hemorrhagic stroke.17β-estradiol attenuates breakdown of blood-brain barrier and hemorrhagic transformation induced by tissue plasminogen activator in cerebral ischemia.Cerebral protection in homozygous null ICAM-1 mice after middle cerebral artery occlusion. Role of neutrophil adhesion in the pathogenesis of stroke.Functional MRI of delayed chronic lithium treatment in rat focal cerebral ischemia.The effect of continuous epidural electrical stimulation on neuronal proliferation in cerebral ischemic ratsPET Imaging with [(18)F]FSPG Evidences the Role of System xc(-) on Brain Inflammation Following Cerebral Ischemia in Rats.Lack of functional P2X7 receptor aggravates brain edema development after middle cerebral artery occlusion.Effects of deferoxamine on brain injury after transient focal cerebral ischemia in rats with hyperglycemia.Bone marrow-derived mononuclear cells do not exert acute neuroprotection after stroke in spontaneously hypertensive rats.Reperfusion-associated hemorrhagic transformation in SHR rats: evidence of symptomatic parenchymal hematoma.
P2860
Q28270066-00A5AF18-D623-41DC-81EF-D9486C4BB6A1Q30442104-880E3117-0434-451C-8280-949E74F525CBQ32039240-A4DC1B29-ABFA-4137-ABA2-49C301570AD2Q33201684-02977791-E16F-4255-B932-7A996BFCE3F2Q33268693-D9A5CB27-8ADF-4962-9C8F-E3130AF23B18Q33369567-8FAF8D9A-3917-4353-9C11-2536642DB319Q33460747-CBF6C385-7C45-4989-A693-D9098CC16414Q33509463-1950F4A4-7338-4E07-A96D-F78342B1F776Q33655345-A4D686BD-D8FE-468F-BD8D-725AE97FAEC0Q33694824-A7D03D45-0E32-4089-9154-04803D47136AQ33777606-BC4DC510-A2E9-4D8E-A6E5-C30549F64D53Q33786915-C9CA1736-4C89-4804-9584-CAE04688ABE6Q34007040-48770593-BA3C-4146-9A96-26BD57AC65AEQ34042609-239E5792-4AB8-4B5A-A575-B5985D98A78CQ34059987-F789BC16-D812-494B-BE35-6173ACD33BABQ34072182-195C5962-F59F-4433-86F3-D6AC3ACF6307Q34185844-ACD66EAE-1520-45EC-AC95-C632855243BFQ34207727-FC249550-A4F9-49CB-99FB-049BC2A04306Q34255650-0A2805A0-A162-49F6-A906-E79CE79AED74Q34515682-CEF15F2D-57ED-4CEE-B4A1-1897D4E0D789Q34609807-4A694580-6E2E-41FC-8FB3-44F0BD3201CCQ34611476-0FD56AF6-CCE2-4100-9043-085031EDEA33Q34645508-FD0CB3A4-7CE7-4C8B-8E4B-1BCE14C959E7Q34745022-C1427037-D85B-4360-8DB7-9BA853C7A7D9Q35005568-064B61C6-FE7B-4645-BE47-8F6C13169219Q35199104-904CCB36-63D5-4AE8-80DC-CB318DD3FDBEQ35596244-63641134-EA81-489D-97C2-C97443AA372FQ35705250-4D00A0EC-1329-49FB-BB78-089EA00B9EA6Q35872374-4A742737-9CB6-46EB-AFD5-F117ECCE6D89Q35880549-40812063-FB60-4B97-B63B-104B83408602Q36425620-B948405C-6498-433E-B463-79CD7F9D9B84Q36555588-670B8126-DF2C-480C-9BD5-1BC19C205D81Q36790035-5C6E2A5C-EA5E-441A-A4E0-3E06B8777ADFQ37017501-07209FAA-1255-448C-8B05-612C05B1651CQ37018794-C81FE093-9C1E-4F43-8028-FFC69A917509Q37202278-D06564E8-9C34-4113-B707-1BE470C09399Q37256416-E53ABB30-F399-4959-A4AB-391A8C50ADACQ37332307-05604EF4-422B-476F-AAAC-687442E9CE63Q37447090-14065592-8DA9-420A-A9B9-A99CC538911AQ37476191-779B1849-A795-4CD3-B54E-D844297ED54F
P2860
Middle cerebral artery occlusion in rats: a neurological and pathological evaluation of a reproducible model.
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年学术文章
@wuu
1992年学术文章
@zh
1992年学术文章
@zh-cn
1992年学术文章
@zh-hans
1992年学术文章
@zh-my
1992年学术文章
@zh-sg
1992年學術文章
@yue
1992年學術文章
@zh-hant
name
Middle cerebral artery occlusi ...... ation of a reproducible model.
@en
Middle cerebral artery occlusi ...... ation of a reproducible model.
@nl
type
label
Middle cerebral artery occlusi ...... ation of a reproducible model.
@en
Middle cerebral artery occlusi ...... ation of a reproducible model.
@nl
prefLabel
Middle cerebral artery occlusi ...... ation of a reproducible model.
@en
Middle cerebral artery occlusi ...... ation of a reproducible model.
@nl
P2093
P2860
P1433
P1476
Middle cerebral artery occlusi ...... ation of a reproducible model.
@en
P2093
P2860
P304
100-6; discussion 106-7
P356
10.1227/00006123-199207000-00014
P407
P577
1992-07-01T00:00:00Z