Importance of nitric oxide for local increases of blood flow in rat cerebellar cortex during electrical stimulation.
about
Characterizing Resting-State Brain Function Using Arterial Spin LabelingSpreading Depression, Spreading Depolarizations, and the Cerebral VasculatureEvidence that nitric oxide- and opioid-containing interneurons innervate vessels in the dorsal horn of the spinal cord of ratsGlial and neuronal control of brain blood flowBlocking NMDA receptors delays death in rats with acute liver failure by dual protective mechanisms in kidney and brain.Modification of activity-dependent increases in cerebellar blood flow by extracellular potassium in anaesthetized rats.The contribution of astrocytes to the regulation of cerebral blood flow.Nitric oxide is the predominant mediator of cerebellar hyperemia during somatosensory activation in rats.Temporal coupling between neuronal activity and blood flow in rat cerebellar cortex as indicated by field potential analysis.Contributions and complexities from the use of in vivo animal models to improve understanding of human neuroimaging signals.Attenuation of activity-induced increases in cerebellar blood flow in mice lacking neuronal nitric oxide synthase.Context sensitivity of activity-dependent increases in cerebral blood flow.Modification of activity-dependent increases of cerebral blood flow by excitatory synaptic activity and spikes in rat cerebellar cortex.Laminar analysis of cerebral blood flow in cortex of rats by laser-Doppler flowmetry: a pilot study.Nonlinear neurovascular coupling in rat sensory cortex by activation of transcallosal fibers.Hippocampal functional hyperemia mediated by NMDA receptor/NO signaling in rats during mild exercise.Neuronal deactivation explains decreased cerebellar blood flow in response to focal cerebral ischemia or suppressed neocortical functionLocal nitric oxide production in viral and autoimmune diseases of the central nervous system.Responses to Cortical Spreading Depression under Oxygen Deficiency.Nitric oxide mediates the increase in local cerebral blood flow during focal seizures.Relationship of spikes, synaptic activity, and local changes of cerebral blood flow.Pericyte Rho GTPase mediates both pericyte contractile phenotype and capillary endothelial growth state.Does baseline cerebral blood flow affect task-related blood oxygenation level dependent response in schizophrenia?Neurovascular coupling in the normal brain and in hypertension, stroke, and Alzheimer disease.Laser-Doppler evaluation of rat brain microcirculation: comparison with the [14C]-iodoantipyrine method suggests discordance during cerebral blood flow increases.Local and propagated vascular responses evoked by focal synaptic activity in cerebellar cortex.Inducible nitric oxide synthase (NOS-2) in subarachnoid hemorrhage: Regulatory mechanisms and therapeutic implications.The pericyte: cellular regulator of microvascular blood flowNitric oxide signaling in the brain: translation of dynamics into respiration control and neurovascular coupling.Nitric oxide inactivation mechanisms in the brain: role in bioenergetics and neurodegeneration.Oxidative phosphorylation, not glycolysis, powers presynaptic and postsynaptic mechanisms underlying brain information processing.Development of Superoxide Dismutase Mimetic Surfaces to Reduce Accumulation of Reactive Oxygen Species for Neural Interfacing Applications.The Possible Role of CO(2) in Producing A Post-Stimulus CBF and BOLD Undershoot.N-methyl-D-aspartate-induced vasodilation is mediated by endothelium-independent nitric oxide release in piglets.Neuronal activity-related coupling in cortical arterioles: involvement of astrocyte-derived factors.Glutamate receptor-dependent increments in lactate, glucose and oxygen metabolism evoked in rat cerebellum in vivo.Altered Coupling Between Resting-State Cerebral Blood Flow and Functional Connectivity in Schizophrenia.Local uncoupling of the cerebrovascular and metabolic responses to somatosensory stimulation after neuronal nitric oxide synthase inhibition.L-arginine infusion increases basal but not activated cerebral blood flow in humans.Familial Hemiplegic Migraine Type 1 Shows no Hypersensitivity to Nitric Oxide
P2860
Q28082091-26C06966-0C4B-419F-A770-1835339701A8Q28264417-A998EC91-EF40-4C4A-A544-25ED8BD60ED7Q28363378-439B14E9-D87A-49C9-9354-485A7E7D4CAAQ29620058-DE3EBE37-1032-4958-BCB5-8424367552B9Q30715212-1009D0E0-7848-433C-9B40-BEE6F6A5A133Q30789447-E33A778A-49D7-4FFF-886D-C521EF766920Q30825043-C62A8318-EF18-4336-9394-36C6C7A92F8FQ30827608-9264139F-5E44-4977-AC8C-1CFB0FB0DC58Q30838943-05D41905-620C-446A-A19A-88DB7652F433Q30847706-85454F50-FF7D-47CA-B430-25A0EDA7D488Q30892621-41C14548-6EE3-4940-89DC-25977E42EE66Q31136162-645972B4-5BAE-4696-B44F-2CE06BE59BCFQ32004475-1F67A053-D764-4A08-96CF-6CC9FC7AD16BQ32182472-B37E0ED0-BDD3-4758-BDA4-5C5139A17399Q33253297-7BC7CD4D-DD40-4A09-A7CE-C20F151B8570Q34028269-F4BA3A87-C844-4C60-B6AF-4C83DE707881Q34065223-644662B7-19BB-4F1F-BDE8-CB44368A7DE0Q34209628-209A89C2-20C8-4ADD-85EF-6C20B96C10EEQ34293812-17343111-9E05-4544-A652-7BB6829F9CD9Q34419960-29B3A2F5-7EA7-4D4A-A511-7C7822AB173EQ34461097-87B5C0B5-66A8-4AC0-AEEC-4DCB6CC67401Q35915992-49796544-DB84-49AC-9F80-1D5995F93AF0Q36177033-C50368E7-8701-42BB-ADB0-1F71FBA87C23Q36343094-11684001-2AAA-4D78-BA37-8151554953DAQ36787436-8FD1D24B-CF5A-41F6-935E-82F41FD46FEDQ36884013-7318CC5C-0AF7-4A3F-8F6C-A7A2804E5959Q37357824-DF9C60BA-87C5-4974-9BA1-BE6114E907EDQ37424313-7A4C394B-BDDE-47FC-9582-179AB8465FF8Q38023556-80051A3F-F792-4F0C-B757-2D35D5B2242AQ41832099-571A21FC-B832-427C-B7F6-10ADA6746471Q41905287-A56B4A4D-9D4D-4705-9710-9D75F88356CDQ42788812-C605EC2A-92E6-4C25-B795-1404071E4F50Q42950999-DE185F0C-AD7E-464F-A63C-84F38B6265E0Q43917362-8DFB3B15-4D65-450E-8AD9-2D1EB7590C5AQ45091625-0CF8ADF5-C3D9-40C3-B097-05A416962216Q46813863-1F8AD6E1-1424-4327-A3BF-81902E036C83Q47719299-69A459EE-CDE3-4574-944A-F42A9D4CF622Q48589707-EAD41D78-1949-41DF-A16F-4F5A3ED4E9FAQ48777110-38D8F43F-A84B-49E4-9CAE-BF492BB4F2EBQ57024321-120185FA-2F2F-462B-8AE0-EF60914588C3
P2860
Importance of nitric oxide for local increases of blood flow in rat cerebellar cortex during electrical stimulation.
description
1994 nî lūn-bûn
@nan
1994 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
1994 թվականի հունիսին հրատարակված գիտական հոդված
@hy
1994年の論文
@ja
1994年論文
@yue
1994年論文
@zh-hant
1994年論文
@zh-hk
1994年論文
@zh-mo
1994年論文
@zh-tw
1994年论文
@wuu
name
Importance of nitric oxide for ...... during electrical stimulation.
@ast
Importance of nitric oxide for ...... during electrical stimulation.
@en
type
label
Importance of nitric oxide for ...... during electrical stimulation.
@ast
Importance of nitric oxide for ...... during electrical stimulation.
@en
prefLabel
Importance of nitric oxide for ...... during electrical stimulation.
@ast
Importance of nitric oxide for ...... during electrical stimulation.
@en
P2093
P2860
P356
P1476
Importance of nitric oxide for ...... during electrical stimulation.
@en
P2093
M Fabricius
M Lauritzen
P2860
P304
P356
10.1073/PNAS.91.13.5903
P407
P577
1994-06-01T00:00:00Z