Oscillatory alpha-band mechanisms and the deployment of spatial attention to anticipated auditory and visual target locations: supramodal or sensory-specific control mechanisms?
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Prestimulus EEG alpha oscillations modulate task-related fMRI BOLD responses to auditory stimuli.Neuro-oscillatory mechanisms of intersensory selective attention and task switching in school-aged children, adolescents and young adultsPre-encoding gamma-band activity during auditory working memory.Spatiotemporal dynamics of auditory attention synchronize with speechMaintenance of relational information in working memory leads to suppression of the sensory cortex.Oscillatory recruitment of bilateral visual cortex during spatial attention to competing rhythmic inputs.Susceptibility to distraction in autism spectrum disorder: probing the integrity of oscillatory alpha-band suppression mechanisms.Throwing out the rules: anticipatory alpha-band oscillatory attention mechanisms during task-set reconfigurations.QEEG spectral and coherence assessment of autistic children in three different experimental conditions.Distinct cortical networks activated by auditory attention and working memory load.Cortical alpha oscillations as a tool for auditory selective inhibition.Dynamic oscillatory processes governing cued orienting and allocation of auditory attentionTop-down control in contour groupingOscillatory sensory selection mechanisms during intersensory attention to rhythmic auditory and visual inputs: a human electrocorticographic investigationDissociable influences of auditory object vs. spatial attention on visual system oscillatory activity.Dissociated α-band modulations in the dorsal and ventral visual pathways in visuospatial attention and perceptionPaying attention to attention in recognition memory: insights from models and electrophysiology.Cortical neurodynamics of inhibitory controlOscillatory alpha-band suppression mechanisms during the rapid attentional shifts required to perform an anti-saccade task.The importance of ignoring: Alpha oscillations protect selectivity.Dynamics of EEG rhythms support distinct visual selection mechanisms in parietal cortex: a simultaneous transcranial magnetic stimulation and EEG study.Modulation of early cortical processing during divided attention to non-contiguous locations.Interests shape how adolescents pay attention: the interaction of motivation and top-down attentional processes in biasing sensory activations to anticipated events.Is that a belt or a snake? Object attentional selection affects the early stages of visual sensory processing.Attentional selection of location and modality in vision and touch modulates low-frequency activity in associated sensory cortices.Stimulus-dependent spiking relationships with the EEGSpontaneous Alpha Power Lateralization Predicts Detection Performance in an Un-Cued Signal Detection TaskTheta and Alpha Band Modulations Reflect Error-Related Adjustments in the Auditory Condensation Task.Laminar Profile and Physiology of the α Rhythm in Primary Visual, Auditory, and Somatosensory Regions of Neocortex.Mindfulness starts with the body: somatosensory attention and top-down modulation of cortical alpha rhythms in mindfulness meditationNeural substrates of perceptual integration during bistable object perception.Attention-modulated alpha-band oscillations protect against intrusion of irrelevant information.Attending to global versus local stimulus features modulates neural processing of low versus high spatial frequencies: an analysis with event-related brain potentials.The Role of Alpha-Band Brain Oscillations as a Sensory Suppression Mechanism during Selective Attention.Attention to memory: orienting attention to sound object representations.The impact of visual gaze direction on auditory object tracking.Neural mechanisms of selective attention in the somatosensory system.A symbolic information approach to determine anticipated and delayed synchronization in neuronal circuit models.Why do we need to use a zero reference? Reference influences on the ERPs of audiovisual effects.Cross-modal distractors modulate oscillatory alpha power: the neural basis of impaired task performance.
P2860
Q24278190-14066B58-7555-4635-8591-82A59A5ED728Q30357575-058F72B2-917E-4632-998F-6107C57F4F99Q30362907-E6BFC110-A8BE-48F1-95B0-9B13E42F7588Q30372852-6683F841-B8BE-482E-9EB1-5140E97A1222Q30401109-7B69B082-2944-4C56-A270-96D7C6AFEA06Q30401357-8EC07AB2-DE22-488A-9C1B-79F067051AFFQ30405585-8ADB8C4C-F84E-4A36-9F5A-8FE54068C97FQ30410199-357765AE-E039-4E6E-AB27-2276C353280AQ30419563-03784256-8C8F-4F60-804E-0106C07C68AEQ30424307-7C573CC6-E07E-4509-8203-EBE31A8F6492Q30437161-12C59C53-FCF8-4B8C-907A-77986948237EQ30443622-7294430E-7872-4DFD-A7A6-FA3A1F0ABCC0Q30459086-AC651C11-5A18-496F-BD5D-DE584BCEEABAQ30466618-B2EE1352-9918-4902-9928-873E90F8E8C2Q30466698-EAA7BD83-51D8-4F22-8928-9370EE33EB11Q30564041-259D875E-5406-401E-9C6C-84E1433B6A43Q30583213-9FE31DDF-9C7E-4A26-BA73-B5A1A1857E85Q33906579-AD3C2932-501C-49B6-B6A0-60025D863E88Q34435402-91402C0F-6B28-43B5-ACE3-9B966EF0AE79Q34707153-9691ED0D-62E0-44AD-B6EB-33BED7BDB272Q34946338-8C1C6251-F6FE-4032-BFFF-B7DEBAE33C26Q35113911-590381F2-F130-4946-875C-0B707B74AD59Q35535168-D01506A5-E24C-45DE-9E02-65DBCD910677Q35968359-77E807BF-49E7-40FA-8E71-07FEF555D9E7Q35994760-654BADCF-F298-428A-ACBF-374621420D0FQ36017461-05C5ED1D-4D98-45F6-8028-89A42CE565DFQ36098595-E6D70926-EB6C-464F-9EDF-EA3B50AA7B0AQ36381786-7C61F0AD-3D02-44CB-BE2F-B21BC33628D2Q36383314-FB0BED45-DACA-480C-B3FD-6690AB1CD151Q36605976-602EF8D2-2903-42BA-9CCB-6130F8892813Q37323766-93E6609A-0CB5-4516-9817-1C1C42B82280Q37704803-C3C18FBD-F23D-4C0D-A089-E9D723A0C17BQ37705453-AA01A7AC-8320-45E7-98CF-344492BAE660Q37903678-162F0AAA-17B9-409C-B6E4-5D3A6F38C22EQ38172426-2A1D342C-9CAE-4B57-9099-56A980566377Q38692171-256FE1FA-BCCA-4276-AB7A-1E3EDC5A38E6Q38873947-4C55D803-665F-4015-A7B5-2C9E5174129DQ38946967-CE89BB2D-D57C-4F34-8989-22730CE14FE7Q39367752-0DFF6654-CD01-4741-962B-64BCC4E03530Q39549384-425D225C-D23C-4D1C-8F26-090EB5F59429
P2860
Oscillatory alpha-band mechanisms and the deployment of spatial attention to anticipated auditory and visual target locations: supramodal or sensory-specific control mechanisms?
description
2011 nî lūn-bûn
@nan
2011 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Oscillatory alpha-band mechani ...... y-specific control mechanisms?
@ast
Oscillatory alpha-band mechani ...... y-specific control mechanisms?
@en
type
label
Oscillatory alpha-band mechani ...... y-specific control mechanisms?
@ast
Oscillatory alpha-band mechani ...... y-specific control mechanisms?
@en
prefLabel
Oscillatory alpha-band mechani ...... y-specific control mechanisms?
@ast
Oscillatory alpha-band mechani ...... y-specific control mechanisms?
@en
P2093
P2860
P1476
Oscillatory alpha-band mechani ...... y-specific control mechanisms?
@en
P2093
Adam C Snyder
John J Foxe
Snigdha Banerjee
Sophie Molholm
P2860
P304
P356
10.1523/JNEUROSCI.4660-10.2011
P407
P577
2011-07-01T00:00:00Z