Spatial attention evokes similar activation patterns for visual and auditory stimuli
about
Using neuroimaging to understand the cortical mechanisms of auditory selective attentionAuditory Spatial Coding Flexibly Recruits Anterior, but Not Posterior, Visuotopic Parietal Cortex.Pre-encoding gamma-band activity during auditory working memory.Neural representation of three-dimensional acoustic space in the human temporal lobe.Auditory spatial attention representations in the human cerebral cortex.Distinct cortical networks activated by auditory attention and working memory load.Dynamic oscillatory processes governing cued orienting and allocation of auditory attentionNeural correlates of sound localization in complex acoustic environmentsLateralization of frequency-specific networks for covert spatial attention to auditory stimuli.An FMRI study of the neural systems involved in visually cued auditory top-down spatial and temporal attentionBrain networks of novelty-driven involuntary and cued voluntary auditory attention shifting.Dissociable influences of auditory object vs. spatial attention on visual system oscillatory activity.Oscillatory alpha-band mechanisms and the deployment of spatial attention to anticipated auditory and visual target locations: supramodal or sensory-specific control mechanisms?Subsymmetries predict auditory and visual pattern complexity.Cognitive control signals in posterior cingulate cortexDecoding the anatomical network of spatial attentionThe frontoparietal attention network of the human brain: action, saliency, and a priority map of the environment.Are you listening? Brain activation associated with sustained nonspatial auditory attention in the presence and absence of stimulation.Cognitive basis of individual differences in speech perception, production and representations: The role of domain general attentional switching.Mapping the spatiotemporal dynamics of processing task-relevant and task-irrelevant sound feature changes using concurrent EEG-fMRI.Modality-specificity of Selective Attention Networks.Activation of Right Ventral Prefrontal Cortex Using a Predictive Cue during Visual Spatial Orienting of Attentional Processes: An fMRI Study.Toward a cumulative science of functional integration: A meta-analysis of psychophysiological interactions.For Better or Worse: The Effect of Prismatic Adaptation on Auditory Neglect.An event-related FMRI study of exogenous orienting across vision and audition.Involvement of the dorsal and ventral attention networks in oddball stimulus processing: a meta-analysis.Supramodal effect of rightward prismatic adaptation on spatial representations within the ventral attentional system.Hierarchies of Attention and Experimental Designs: Effects of Spatial and Intermodal Attention Revisited.Modality-dependent "what" and "where" preparatory processes in auditory and visual systems.Association Between Auditory and Visual Continuous Performance Tests in Students With ADHD.Neural substrates of sign language vocabulary processing in less-skilled hearing M2L2 signers: Evidence for difficult phonological movement perception
P2860
Q26824258-02FB5E36-57C1-4922-8818-BE000CDBD75FQ27302765-98311E41-0182-49D0-AADC-EBDA410CB284Q30362907-FBC01E1C-1E61-4902-A98E-2E79203A3A0FQ30413348-B8E068AE-5EDE-4791-ABED-48D8D1F7F264Q30417576-409AA98A-0EFA-47C8-B4EB-D620FEFF98DAQ30424307-3D3BA75C-F958-430F-B002-30A34199BFADQ30443622-A9D3801E-CC8B-4E11-B11B-DA195D7DD48CQ30454530-7B09FD5C-E1B0-47FE-88FA-9B69958076AEQ30459486-77F46067-C4CC-4527-AB59-EBE0608DBC8FQ30460740-3EC7F338-E602-4A54-A5F1-26F1BB32AABCQ30464384-A2FA65DB-E762-4C34-9531-00B21ABB83CEQ30466698-F17E75DF-F231-4B7A-BC21-1FF292EF8331Q30467826-D72AD5B8-70B6-4461-A584-B6B172FA0CD0Q30560540-DFD3CD01-906E-4C40-B817-78A1D0B1ECF6Q34406563-81A1A63E-D809-4105-A5F0-3C2F5D5FFEB7Q36567805-43537335-E5FC-45EF-AB10-01408E476DB9Q37884308-6332A891-1AE4-4AE2-999A-84654D469D6CQ38447278-BC76B16A-9BA5-48A1-AA1A-50B88E548617Q38987769-DA6CB3FE-3F9A-40ED-A0D5-59B3258EE74DQ39697216-6FB84BE7-B82D-43E8-9E0D-04F93DA6469FQ40243409-A94C9D1F-0240-4AAE-BBC2-A4F0962F1657Q42113017-A80C68CF-B250-44F3-8884-139419444262Q42143815-E3D50C4A-3B84-4A13-AAF5-95A159F68838Q43375904-565C6B91-3036-4862-B078-3D2CE07F2DBBQ45388550-51E5FDC6-AF47-47F4-BF3B-8F2BD9D9A340Q45884870-2DA90761-834E-4980-9D94-779161C65BD7Q47963612-82C891E8-0166-4146-B639-08246485599BQ48515788-1DF14A06-19A3-4F36-B887-13F0DDB1B286Q51853585-45AE11A9-35C1-443B-81F4-B71BD3A3AF45Q54551493-CD94F417-8C95-4D28-B4A4-1CC504A8881AQ58213921-E1C14B16-01E8-429D-9A69-DCDC962D275D
P2860
Spatial attention evokes similar activation patterns for visual and auditory stimuli
description
2010 nî lūn-bûn
@nan
2010 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Spatial attention evokes similar activation patterns for visual and auditory stimuli
@ast
Spatial attention evokes similar activation patterns for visual and auditory stimuli
@en
Spatial attention evokes similar activation patterns for visual and auditory stimuli
@nl
type
label
Spatial attention evokes similar activation patterns for visual and auditory stimuli
@ast
Spatial attention evokes similar activation patterns for visual and auditory stimuli
@en
Spatial attention evokes similar activation patterns for visual and auditory stimuli
@nl
prefLabel
Spatial attention evokes similar activation patterns for visual and auditory stimuli
@ast
Spatial attention evokes similar activation patterns for visual and auditory stimuli
@en
Spatial attention evokes similar activation patterns for visual and auditory stimuli
@nl
P2093
P2860
P356
P1476
Spatial attention evokes similar activation patterns for visual and auditory stimuli
@en
P2093
David V Smith
Eric W Healy
Julius Fridriksson
Leonardo Bonilha
Paul S Morgan
P2860
P304
P356
10.1162/JOCN.2009.21241
P407
P50
P577
2010-02-01T00:00:00Z