about
Distinct parietal sites mediate the influences of mood, arousal, and their interaction on human recognition memory.Pleasant music overcomes the loss of awareness in patients with visual neglectInterplay between affect and arousal in recognition memory.Music listening after stroke: beneficial effects and potential neural mechanisms.Automatic guidance of attention from working memory.Visuospatial sequence learning without seeing.Neural repetition effects in the medial temporal lobe complex are modulated by previous encoding experience.Dissociable causal roles for left and right parietal cortex in controlling attentional biases from the contents of working memory.Seeing the content of the mind: enhanced awareness through working memory in patients with visual extinction.Fractionating the neural substrates of incidental recognition memory.How imagery changes self-motion perception.Dissociating the neural mechanisms of memory-based guidance of visual selection.Cognitive control over working memory biases of selection.Reward modulates spatial neglectLearning and Recognition of a Non-conscious Sequence of Events in Human Primary Visual CortexTriple dissociation of attention networks in stroke according to lesion locationReappraising the relationship between working memory and conscious awareness.Semantically induced distortions of visual awareness in a patient with Balint's syndrome.Separating top-down and bottom-up cueing of attention from response inhibition in utilization behavior.Working memory and target-related distractor effects on visual search.Motivation and attention following hemispheric stroke.Thalamic control of human attention driven by memory and learning.On the independence of visual awareness and metacognition: a signal detection theoretic analysis.Metacognition of Visual Short-Term Memory: Dissociation between Objective and Subjective Components of VSTM.Functional connectivity between ventral and dorsal frontoparietal networks underlies stimulus-driven and working memory-driven sources of visual distraction.Distinct causal mechanisms of attentional guidance by working memory and repetition priming in early visual cortex.The interrelations between verbal working memory and visual selection of emotional faces.How Do We Keep Information 'Online'?Transcranial magnetic stimulation of the primary motor cortex modulates response interference in a flanker task.The effects of motivational reward on the pathological attentional blink following right hemisphere stroke.Motor dexterity and strength depend upon integrity of the attention-control system.How the human brain introspects about one's own episodes of cognitive control.Automatic guidance of visual attention from verbal working memory.A parieto-medial temporal pathway for the strategic control over working memory biases in human visual attention.Constraints on task-based control of behaviour following frontal lobe damage: a single-case study.The Anatomy of Non-conscious Recognition Memory.Electrophysiological evidence for attentional guidance by the contents of working memory.Dividing the mind: the necessary role of the frontal lobes in separating memory from search.Working memory can guide pop-out search.Parietal structure and function explain human variation in working memory biases of visual attention.
P50
Q30359889-A9A8719A-49D0-4D69-9534-129DEA815F9CQ30375707-1BBFD1BA-CA42-438F-973E-656E43497895Q30391987-7C68F009-3CD5-40AE-850B-3A0EFB41CAC7Q30415847-02CA5B34-EE87-402E-920A-87EC464E2058Q31170776-930E699B-456E-4598-BE0C-0DDE755D1B86Q33650863-FD812AB0-58F6-4F8A-A7ED-9FA85FCDED29Q34351101-11097924-BC07-4840-9F96-81881E669432Q34404723-1210B03A-46FF-470C-AAC9-BC57961B8391Q34575000-24B971B1-284F-4D94-8E48-964556C081FFQ34759810-05C0AFAA-C776-4E09-AD89-31A33F1EADBCQ35213487-30FABCF3-478B-40AB-9526-F7EA1EBD937AQ36089111-0DCC35B3-86DF-4FB0-AF1B-4D7D5CE59752Q36089688-18D6AAC6-A6BA-47EE-8B69-0F9DEF00B645Q36682236-E8F6BB9D-61E5-488F-B0EA-045E7E486D65Q36761579-21DBFD30-931C-4702-93B1-26F7C4116C6BQ37536737-9D35FB6E-0226-4B0F-9031-208294EA5E9AQ38234782-05A7108C-78C3-4397-BA7D-CD5B86F6E505Q38385604-08F9118B-F0A7-4C1E-9BD6-2E7D5074BFBFQ38482507-124F1A6C-2328-4362-9C69-2F0AE679AA6FQ38496797-9F6A58B1-E665-44C2-BDB4-0108F8ECBFC8Q39031576-C52F0AB9-76F9-4832-A0B5-5F84E5FA392BQ39305831-17EA3A16-071A-4CD2-8B8C-466A4F8D77D6Q41459565-FE8B2EF8-C182-453A-B053-803C8FC35E4CQ43247644-AE89DF26-8269-48B9-9CC8-D067CBB321F5Q43681622-9B814907-6A48-49BE-8B10-33AFDB55FE49Q45123612-60F48714-B0D7-4851-B51E-688B8A3A24A8Q45330832-A3B4608D-3935-492E-85A1-7FB6E38A915FQ45949092-34DCEBB6-1E21-43D3-83FC-C1436657D543Q46161234-B83A29A9-9491-41BB-BD0B-77A7F2F1B66EQ47437251-D07E57C3-B66A-4B1D-A945-601071111FAFQ47892228-07759782-F6D2-4F6A-ADA7-BA3627706248Q47938078-20BC10BC-B1BE-4944-90F8-E111EA1F8DCAQ48138702-5EBF9CCC-F905-4134-A656-D3175A530E3BQ48261517-CF1EF223-2D33-478E-A584-4194AAAFEA64Q48447372-64FEFC1B-D87C-4B2D-A6DC-CB1D9A358825Q48474861-E8C4C788-78D7-4480-B84C-8BEB5E2F7251Q48481431-C183B731-A744-4473-A996-B9271D82CCC9Q48622101-837DA597-C9F7-4087-A447-3520023720FAQ48713212-48AF4E80-8271-4029-AF09-CF349311355CQ48836442-064C5567-AD03-48B7-AD66-8AE15A75B29C
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
David Soto
@ast
David Soto
@en
David Soto
@es
David Soto
@nl
David Soto
@sl
type
label
David Soto
@ast
David Soto
@en
David Soto
@es
David Soto
@nl
David Soto
@sl
prefLabel
David Soto
@ast
David Soto
@en
David Soto
@es
David Soto
@nl
David Soto
@sl
P106
P1153
8501597500
P2038
David_Soto6
P21
P2456
P31
P4012
P496
0000-0003-0205-7513