Glial cells dilate and constrict blood vessels: a mechanism of neurovascular coupling - Test2 - elhamkhani - TriplyDB

Glial cells dilate and constrict blood vessels: a mechanism of neurovascular coupling

Glial cells dilate and constrict blood vessels: a mechanism of neurovascular coupling

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Coupling between neuronal activity and microcirculation: implications for functional brain imaging The astrocyte odyssey Pathophysiological implications of neurovascular P450 in brain disorders Investigating Human Neurovascular Coupling Using Functional Neuroimaging: A Critical Review of Dynamic Models Role of non-neuronal cells in body weight and appetite control Deep brain stimulation: are astrocytes a key driver behind the scene?Glial cell regulation of neuronal activity and blood flow in the retina by release of gliotransmitters Retinovascular physiology and pathophysiology: new experimental approach/new insights Blast shockwaves propagate Ca(2+) activity via purinergic astrocyte networks in human central nervous system cells Mitochondrial functional state impacts spontaneous neocortical activity and resting state FMRI Enhanced parenchymal arteriole tone and astrocyte signaling protect neurovascular coupling mediated parenchymal arteriole vasodilation in the spontaneously hypertensive rat.Spreading Depression, Spreading Depolarizations, and the Cerebral Vasculature Epoxyeicosanoid signaling in CNS function and disease Glial and neuronal control of brain blood flow Gap junctions in the control of vascular function.Intrinsic and extrinsic light responses in melanopsin-expressing ganglion cells during mouse development.Photoacoustic microscopy of microvascular responses to cortical electrical stimulation Bidirectional control of CNS capillary diameter by pericytes.Stimulus-induced changes in blood flow and 2-deoxyglucose uptake dissociate in ipsilateral somatosensory cortex.Astrocytic endfoot Ca2+ and BK channels determine both arteriolar dilation and constriction.Spontaneous glial calcium waves in the retina develop over early adulthood.Inversion of neurovascular coupling by subarachnoid blood depends on large-conductance Ca2+-activated K+ (BK) channels.TRPV4 channels stimulate Ca2+-induced Ca2+ release in astrocytic endfeet and amplify neurovascular coupling responses.Tone-dependent vascular responses to astrocyte-derived signals.Neurophysiological, metabolic and cellular compartments that drive neurovascular coupling and neuroimaging signals.The contribution of astrocytes to the regulation of cerebral blood flow.fMRI models of dendritic and astrocytic networks.Signalling within the neurovascular unit in the mammalian retina.Hypoperfusion of the cerebral white matter in multiple sclerosis: possible mechanisms and pathophysiological significance.Cellular mechanism for spontaneous calcium oscillations in astrocytes.Astrocytic calcium signaling: mechanism and implications for functional brain imaging.A dynamic model of neurovascular coupling: implications for blood vessel dilation and constriction.Holographic photolysis for multiple cell stimulation in mouse hippocampal slices Biomarkers in Diabetic Retinopathy Glutamate regulates Ca2+ signals in smooth muscle cells of newborn piglet brain slice arterioles through astrocyte- and heme oxygenase-dependent mechanisms.Imaging retinal blood flow with laser speckle flowmetry.How Energy Metabolism Supports Cerebral Function: Insights from 13C Magnetic Resonance Studies In vivo Nanomolar nitric oxide concentrations quickly and reversibly modulate astrocytic energy metabolism The neurovascular unit in brain function and disease.Longitudinal alterations in the dynamic autoregulation of optic nerve head blood flow revealed in experimental glaucoma

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P2860

Glial cells dilate and constrict blood vessels: a mechanism of neurovascular coupling

http://www.wikidata.org/entity/Q30481525

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2006 nî lūn-bûn

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2006 թուականի Մարտին հրատարակուած գիտական յօդուած

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2006 թվականի մարտին հրատարակված գիտական հոդված

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Glial cells dilate and constrict blood vessels: a mechanism of neurovascular coupling

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Glial cells dilate and constrict blood vessels: a mechanism of neurovascular coupling

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Glial cells dilate and constrict blood vessels: a mechanism of neurovascular coupling

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JNEUROSCI.4048-05.2006

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Journal of Neuroscience

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Glial cells dilate and constrict blood vessels: a mechanism of neurovascular coupling

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Eric A Newman

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Monica R Metea

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P2860

On the Regulation of the Blood-supply of the Brain

Propagation of intercellular calcium waves in retinal astrocytes and Müller cells

Neurovascular regulation in the normal brain and in Alzheimer's disease

P-450 metabolites of arachidonic acid in the control of cardiovascular function

Calcium dynamics in cortical astrocytes and arterioles during neurovascular coupling.

Coupling of the cortical hemodynamic response to cortical and thalamic neuronal activity.

Nitric oxide as a signaling molecule in the vascular system: an overview.

Modulation of neuronal activity by glial cells in the retina

Does the release of potassium from astrocyte endfeet regulate cerebral blood flow?

Cytochrome p450 and vascular homeostasis.

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2862-2870

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scholarly article

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10.1523/JNEUROSCI.4048-05.2006

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