Dopaminergic regulation of cerebral cortical microcirculation.
about
Deciphering the Neuronal Circuitry Controlling Local Blood Flow in the Cerebral Cortex with Optogenetics in PV::Cre Transgenic MicePresynaptic Mechanisms of l-DOPA-Induced Dyskinesia: The Findings, the Debate, and the Therapeutic ImplicationsDopamine modulates von Willebrand factor secretion in endothelial cells via D2-D4 receptorsAttention to action in Parkinson's disease: impaired effective connectivity among frontal cortical regionsIncreasing proportions of tyrosine hydroxylase-immunoreactive interneurons colocalize with choline acetyltransferase or vasoactive intestinal peptide in the developing rat cerebral cortexEffects of a secure attachment relationship on right brain development, affect regulation, and infant mental healthAcute intravenous low- and high-dose cocaine reduces quantitative global and regional cerebral blood flow in recently abstinent subjects with cocaine use disorder.Antipsychotic drug effects in schizophrenia: a review of longitudinal FMRI investigations and neural interpretations.Cocaine-induced brain activation detected by dynamic manganese-enhanced magnetic resonance imaging (MEMRI).Parkinson's disease and dopaminergic therapy--differential effects on movement, reward and cognitionWhat could underlie the trial-related signal? A response to the commentaries by Drs. Kleinschmidt and Muller, and Drs. Handwerker and Bandettini.Contributions and complexities from the use of in vivo animal models to improve understanding of human neuroimaging signals.Cognitive dysfunction in Parkinson's disease: the role of frontostriatal circuitry.Imaging the Respiratory Effects of Opioids in the Human Brain.The hemo-neural hypothesis: on the role of blood flow in information processing.Cortical effects of bromocriptine, a D-2 dopamine receptor agonist, in human subjects, revealed by fMRI.Efficiency and cost of economical brain functional networks.Enhanced functional connectivity and volume between cognitive and reward centers of naïve rodent brain produced by pro-dopaminergic agent KB220Z.Hemodynamic monitoring in neonates: advances and challenges.Impact of methamphetamine on regional metabolism and cerebral blood flow after traumatic brain injury.Varieties of attention-deficit/hyperactivity disorder-related intra-individual variabilityCocaine-induced cortical microischemia in the rodent brain: clinical implicationsVascular tone and neurovascular coupling: considerations toward an improved in vitro model.Imaging neurovascular function and functional recovery after stroke in the rat striatum using forepaw stimulation.An astrocyte bridge from synapse to blood flow.Pharmacologic magnetic resonance imaging (phMRI): imaging drug action in the brain.Quantitative pharmacologic MRI: mapping the cerebral blood volume response to cocaine in dopamine transporter knockout miceFunctional brain mapping of psychopathology.Striatal and cortical BOLD, blood flow, blood volume, oxygen consumption, and glucose consumption changes in noxious forepaw electrical stimulation.Dissociation of metabolic and neurovascular responses to levodopa in the treatment of Parkinson's disease.Use of frontal lobe hemodynamics as reinforcement signals to an adaptive controllerEffects of levodopa on regional cerebral metabolism and blood flowCatechol-O-methyltransferase Val158Met polymorphism on the relationship between white matter hyperintensity and cognition in healthy people.Vascular endothelial growth factor is upregulated by L-dopa in the parkinsonian brain: implications for the development of dyskinesia.Dopamine stabilizes tumor blood vessels by up-regulating angiopoietin 1 expression in pericytes and Kruppel-like factor-2 expression in tumor endothelial cells.Spatial homogeneity and task-synchrony of the trial-related hemodynamic signal.Differential modulation of the default mode network via serotonin-1A receptorsNeurovascular coupling in the normal brain and in hypertension, stroke, and Alzheimer disease.The Behavior of Migraine in Patients with Parkinson's Disease.Fornix deep brain stimulation circuit effect is dependent on major excitatory transmission via the nucleus accumbens.
P2860
Q21129285-810DEBA6-5358-4519-BAFF-E616C275B200Q21129423-798D7783-70A1-47EB-93D7-8A14959B29E6Q24297022-E922CDFE-BE70-4908-8446-28E5484AD5D1Q25002311-B325CEA1-C815-43ED-BCBE-46EAE319EFEFQ28583984-BBCAC2EB-EC79-47E9-8E8B-F54569B0B0E1Q29037482-23F8FF99-319B-4FE9-B7C0-4AACA32C017CQ30436214-ED62B36D-36CA-4669-9C6D-3917C60BCB39Q30455338-2D3F3499-F873-41CB-86D0-3495879BC855Q30479602-9B7F840A-DA5C-410C-8D0B-E0F3B41E0F9DQ30482965-4F66AAFA-74C2-4B43-BAB9-E13C3B367C8AQ30540515-D9996A7B-3089-4E78-BDCC-DAA70E379C55Q30847706-2636DC44-8AF2-4B0B-BA4A-F064B4E71081Q30975753-EBDD2AFD-43CF-421E-80EE-A8D3E8C4E8ECQ31110579-B38ACA80-998F-4891-BCDA-771436353617Q31132139-FDBC8F47-78E1-4498-B629-6BB5BE59D44DQ32164608-36B259EB-C11B-424A-BAF0-926B1F225581Q33271739-120FB415-168E-4600-B2AB-474184E1A5DDQ33605694-AF0D959E-22DB-4709-8C95-448FBFD36526Q33704956-2B64BA3E-E84F-4927-8F12-04AB5B21CAF7Q33952089-BBDA2149-B9A0-456D-B84E-EF677D91A55EQ34049417-DA221982-5BD8-4265-AA43-701FE9D76B9FQ34085291-0392652D-1326-416D-B941-9702BCB12905Q34085945-5991F809-C710-4A1C-B7D3-5379957929E0Q34153406-211C6CDF-96AC-4E58-B008-36E44542E4FCQ34166202-8830B8A0-8B3C-4570-9F0B-AEA53EB403CEQ34229087-55DA5A28-603C-42C1-B81D-D0950281582FQ34562215-A45D009E-25A7-4E75-BDCA-33B5D62C6867Q34574575-844C585B-3405-462E-A5DE-23CDDBFA1155Q34714747-504B2E92-CE03-4A71-840E-B53BB7501324Q34770504-BA9D0A06-FE4D-4A07-971F-0522EECBF656Q34873913-7B4A65B7-EAD9-4E7E-9247-21C0BD10B93EQ35040119-885D920F-342C-45A3-9493-CC839E1746F8Q35097521-92EB49F8-C543-4AB3-A524-3D23D481C538Q35163198-5C86F7E3-5743-4003-B309-FA3866388AB3Q35650874-5307003D-CA95-4CEF-BDE9-5FF23C2A86B8Q35663574-4527C542-5127-421B-B99A-EF0ADDD57826Q35787090-1D5839A2-E5C0-42DC-AAEE-24A89A74E6EEQ36343094-576E6D60-D022-4C78-9D25-AC321F7F255BQ36439867-F3013025-22E6-4E28-8FEF-F9A5A77810B8Q36609401-3D411EAB-EA5E-4083-A4E3-E53A911BB236
P2860
Dopaminergic regulation of cerebral cortical microcirculation.
description
1998 nî lūn-bûn
@nan
1998年の論文
@ja
1998年学术文章
@wuu
1998年学术文章
@zh
1998年学术文章
@zh-cn
1998年学术文章
@zh-hans
1998年学术文章
@zh-my
1998年学术文章
@zh-sg
1998年學術文章
@yue
1998年學術文章
@zh-hant
name
Dopaminergic regulation of cerebral cortical microcirculation.
@en
Dopaminergic regulation of cerebral cortical microcirculation.
@nl
type
label
Dopaminergic regulation of cerebral cortical microcirculation.
@en
Dopaminergic regulation of cerebral cortical microcirculation.
@nl
prefLabel
Dopaminergic regulation of cerebral cortical microcirculation.
@en
Dopaminergic regulation of cerebral cortical microcirculation.
@nl
P2093
P356
P1433
P1476
Dopaminergic regulation of cerebral cortical microcirculation.
@en
P2093
Muly EC 3rd
Williams GV
P2888
P304
P356
10.1038/1099
P407
P577
1998-08-01T00:00:00Z