Thalamic model of awake alpha oscillations and implications for stimulus processing
about
Modeling the dynamical effects of anesthesia on brain circuitsThe Speed of Alpha-Band Oscillations Predicts the Temporal Resolution of Visual PerceptionLack of Responsiveness during the Onset and Offset of Sevoflurane Anesthesia Is Associated with Decreased Awake-Alpha Oscillation Power.Biophysical Modeling of Alpha Rhythms During Halothane-Induced Unconsciousness.Brain rhythms connect impaired inhibition to altered cognition in schizophrenia.Top-down beta rhythms support selective attention via interlaminar interaction: a model.Enhancement of Cortical Network Activity in vitro and Promotion of GABAergic Neurogenesis by Stimulation with an Electromagnetic Field with a 150 MHz Carrier Wave Pulsed with an Alternating 10 and 16 Hz Modulation.Thalamic mechanisms underlying alpha-delta sleep with implications for fibromyalgia.Joint Coupling of Awake EEG Frequency Activity and MRI Gray Matter Volumes in the Psychosis Dimension: A BSNIP StudyDifferential modulation of thalamo-parietal interactions by varying depths of isoflurane anesthesiaLaminar Profile and Physiology of the α Rhythm in Primary Visual, Auditory, and Somatosensory Regions of Neocortex.Pulvinar-Cortex Interactions in Vision and AttentionThalamocortical mechanisms for the anteriorization of α rhythms during propofol-induced unconsciousness.The phase of thalamic alpha activity modulates cortical gamma-band activity: evidence from resting-state MEG recordingsLooking for a precursor of spontaneous Sleep Slow Oscillations in human sleep: The role of the sigma activity.Feedforward and feedback frequency-dependent interactions in a large-scale laminar network of the primate cortex.The role of alpha-rhythm states in perceptual learning: insights from experiments and computational models.Neurophysiologically-informed markers of individual variability and pharmacological manipulation of human cortical gamma.Evidence for genetic regulation of the human parieto-occipital 10-Hz rhythmic activity.Cortical information flow in Parkinson's disease: a composite network/field model.Communication between Brain Areas Based on Nested Oscillations.A biologically plausible mechanism for neuronal coding organized by the phase of alpha oscillations.The phase of pre-stimulus alpha oscillations influences the visual perception of stimulus timing.Unified thalamic model generates multiple distinct oscillations with state-dependent entrainment by stimulation.Thalamocortical control of propofol phase-amplitude coupling.Abnormal cortical neural synchrony during working memory in schizophrenia.Microstructural and functional correlates of glutamate concentration in the posterior cingulate cortex.On the Physiological Modulation and Potential Mechanisms Underlying Parieto-Occipital Alpha Oscillations.Dissonant Representations of Visual Space in Prefrontal Cortex during Eye Movements.Different effects of propofol and dexmedetomidine sedation on electroencephalogram patterns: Wakefulness, moderate sedation, deep sedation and recovery.Connecting occipital alpha band peak frequency, visual temporal resolution, and occipital GABA levels in healthy participants and hepatic encephalopathy patients
P2860
Q26824341-7F15648F-9751-4250-8BE1-5EC08D7287FAQ30680191-53BC548C-00B7-4934-A42F-15F4C4BA58A2Q33736474-3E3FCB33-842A-4683-ACDA-9615730B2726Q34269231-1A2599B5-6E1C-47F8-BB21-0A195C4ACD10Q34470675-FAADE4CA-1743-4666-A646-2AA9BAABA60DQ34945268-97BD03C7-5FF0-4BCC-8D15-C9AE32141DFBQ35847719-90F83AAA-8BB0-4855-95AD-DCEE2B58401DQ36075609-77ACCFC6-6216-42B7-9361-F329A20C5D34Q36260919-FE2FE1B0-74A2-486D-843A-715658F611CBQ36338173-EC85C2C8-58B0-4F82-B4F2-2E46B45B372AQ36383314-FB843C21-C258-43FD-9232-F95AC863D14BQ36492306-D4C3441D-3E1A-457F-8BCC-43825CEF6C18Q37032479-650F8018-50D8-4955-84D1-146F5FC5B850Q37282598-B435F4E1-5A59-40F3-8E9C-4B5FD569A6D6Q37292828-9C1BCF68-6335-4B67-B9E8-8626CCCB38ACQ37603859-42A32F7C-43D9-4140-81BC-24D5CDF5EF17Q37697621-899531DC-D6CA-4B37-BEA7-171AF0230078Q38625084-A526C016-9327-4BD9-AC5E-C0759E893DE3Q39681142-2FF48597-C6D3-46FA-81B1-7B97D23869F4Q40066891-A4BC2498-2783-43C5-B521-ADE35AA8E881Q42227274-F2EF4F97-754C-4195-AD66-C67F4BB9390BQ42287411-1D3A02D5-933C-4FFB-B5F4-481AFAEE4AA8Q42717083-4A02201F-8A44-4C00-B707-22AD8A1D2F9EQ46957503-42F3FE4E-75D7-4045-99FF-CEBF27C13AC2Q47222105-8AAFA903-F0FB-4870-89F5-59296AA0EC61Q47290669-72328BCF-DE56-4721-8DC9-52B09A93C0F9Q47578819-9CA66A78-BB13-4EAE-B05F-9EE4A946CBD8Q54943722-DB3A6200-BA49-4748-ADAF-49D6EEA52B6FQ55005105-0B429841-1CCB-4FC4-BA89-0E5F0BD256BFQ55216339-C21E5786-FD4D-46EF-A2BF-92E9D4352A82Q57040034-A5461CCF-5F92-4A3B-AFFF-E6EA62BFA738
P2860
Thalamic model of awake alpha oscillations and implications for stimulus processing
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh
2012年學術文章
@zh-hant
name
Thalamic model of awake alpha oscillations and implications for stimulus processing
@ast
Thalamic model of awake alpha oscillations and implications for stimulus processing
@en
type
label
Thalamic model of awake alpha oscillations and implications for stimulus processing
@ast
Thalamic model of awake alpha oscillations and implications for stimulus processing
@en
prefLabel
Thalamic model of awake alpha oscillations and implications for stimulus processing
@ast
Thalamic model of awake alpha oscillations and implications for stimulus processing
@en
P2860
P356
P1476
Thalamic model of awake alpha oscillations and implications for stimulus processing
@en
P2093
Nancy J Kopell
Sujith Vijayan
P2860
P304
18553-18558
P356
10.1073/PNAS.1215385109
P407
P577
2012-10-10T00:00:00Z