about
A review of intentional and cognitive control in autismCortico-basal ganglia networks subserving goal-directed behavior mediated by conditional visuo-goal associationERP Correlates of Encoding Success and Encoding Selectivity in Attention SwitchingThe Structural and Functional Organization of CognitionPre-encoding gamma-band activity during auditory working memory.Early visual cortex reflects initiation and maintenance of task set.An FMRI study of the neural systems involved in visually cued auditory top-down spatial and temporal attentionInteracting outcome retrieval, anticipation, and feedback processes in the human brain.Evaluating self-generated decisions in frontal pole cortex of monkeys.Prefrontal dynamics underlying rapid instructed task learning reverse with practiceGoal-directed decision making as probabilistic inference: a computational framework and potential neural correlates.Cognitive Control Structures in the Imitation Learning of Spatial Sequences and Rhythms-An fMRI Study.Double dissociation of the roles of the left and right prefrontal cortices in anticipatory regulation of actionFunctional MRI: Genesis, State of the art and the SequelRegional cerebral metabolic patterns demonstrate the role of anterior forebrain mesocircuit dysfunction in the severely injured brainPre-task prefrontal activation during cognitive processes in aging: a near-infrared spectroscopy studyAttentional spreading to task-irrelevant object features: experimental support and a 3-step model of attention for object-based selection and feature-based processing modulation.Switching from automatic to controlled behavior: cortico-basal ganglia mechanismsBrains in dialogue: decoding neural preparation of speaking to a conversational partner.Automaticity and Flexibility of S-R Retrieval During PrimingControlling the Anchoring Effect through Transcranial Direct Current Stimulation (tDCS) to the Right Dorsolateral Prefrontal Cortex.Intrinsic and task-evoked network architectures of the human brain.Age-related shifts in brain activity dynamics during task switchingPrefrontal cortex mediation of cognitive enhancement in rewarding motivational contextsTracking the unconscious generation of free decisions using ultra-high field fMRI.The many faces of preparatory control in task switching: reviewing a decade of fMRI research.The mixed block/event-related design.A pallidus-habenula-dopamine pathway signals inferred stimulus values.Motivated cognitive control: reward incentives modulate preparatory neural activity during task-switching.Dynamics of within-, inter-, and cross-modal attentional modulation.The function and organization of lateral prefrontal cortex: a test of competing hypotheses.The frontoparietal control system: a central role in mental health.Reasoning, learning, and creativity: frontal lobe function and human decision-makingAn evolutionary computational theory of prefrontal executive function in decision-making.Neural mechanisms underlying the cost of task switching: an ERP study.Strengthening of top-down frontal cognitive control networks underlying the development of inhibitory control: a functional magnetic resonance imaging effective connectivity study.Electrophysiological evidence for domain-general inhibitory control during bilingual language switching.Levels of integration in cognitive control and sequence processing in the prefrontal cortex.How instructed knowledge modulates the neural systems of reward learningComputational psychiatry.
P2860
Q24623572-FCA94566-AA05-457B-B0D7-823CD9E7A6A9Q26859452-C42BF10A-FE2B-4C33-8FB6-D2E42A13DCAEQ28554641-1360C1C4-B168-4713-8EBA-43A1A926570AQ28597453-C5DFB342-9EE6-4BF6-ABBA-ACABF94D80FDQ30362907-4E1D5073-014D-4F19-A12A-AF06F13504F2Q30391043-823A2038-C26B-4291-9E1D-74E0C4B61885Q30460740-73AA0111-85F9-4F82-8DDF-66207509C855Q30492699-CF420C44-9CD3-40FD-AB05-5908D5482356Q30493537-A8572735-A760-4890-8871-1C33177DF3EDQ30502024-DAB8031F-1666-445E-BF1B-BF83D5C2F476Q30544338-10C62886-4321-4219-A27D-22E4AFEB99FBQ30572182-96118E74-E496-45CD-9A16-100319D25EB2Q30591419-8BE28A96-DEC3-4B59-8A03-12AB919D4475Q33641427-C7E1CCCB-2B7C-4F0D-9A09-86E72B8BEA84Q33674407-0C3C15D2-E747-4431-ADA4-C283B6A36AF7Q33712200-28D4A6DA-5424-4C53-B6DD-80C3D954AE82Q33732631-D66BCE0A-95F4-4E5C-A172-6F228BF2BA13Q33763015-EF4D70EA-2F1B-44A4-9681-2B249C709859Q33802864-18C69C1B-2F07-4CA1-984E-F71471C96A71Q33831787-7CA2107F-A459-4CBB-9F01-AC643D261F41Q33843341-181FD2B3-49EB-47AC-B006-D39948EA5449Q33849591-9EF8FA37-8268-43E5-B33E-E729059C821CQ33854767-3D74E9A9-DDC7-4EF8-83D5-F511A59176DBQ33928372-B66FCD64-5616-4C8B-922E-E83853F44468Q33961398-6057F8C2-48BF-4ABE-BFF5-8D64B73E14F7Q34048044-307AD350-0E76-4608-9510-81D32CE4BC23Q34050842-294B569A-49E7-44E3-8955-407449A5D07EQ34108315-4539C7DB-B9BE-4B55-B4A4-61E44B01A4CBQ34111257-C51C7478-3EEA-4E29-9A1A-A9E7D5E53420Q34154243-42A7B8D6-2DFA-45F3-8193-C9C061C561E4Q34166157-B4C58519-6415-4C1B-9032-6E22C0BD32E9Q34173912-4FEEDB75-FFE1-48C1-BE32-D0438BD86F34Q34220886-CE4DD288-943D-4266-BB41-E2C2CD044B5AQ34291907-21D55433-3B8D-412B-8977-5875C7933423Q34364685-8055F07E-5AF0-4224-A322-F22F1E5C2A84Q34371929-A81F3866-F7C4-458C-AAC4-843C2712524DQ34400836-4EA999CE-E391-4E73-87F7-778ED44B6603Q34405572-89F016C0-F2C9-4322-9077-723D68CC15ABQ34471653-592C80C4-9CBB-435A-872B-42975FAADD6CQ34630298-71B9F0A6-71D8-48AC-A3B9-D07FA7BC5854
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Task set and prefrontal cortex.
@en
Task set and prefrontal cortex.
@nl
type
label
Task set and prefrontal cortex.
@en
Task set and prefrontal cortex.
@nl
prefLabel
Task set and prefrontal cortex.
@en
Task set and prefrontal cortex.
@nl
P1476
Task set and prefrontal cortex.
@en
P2093
Katsuyuki Sakai
P304
P356
10.1146/ANNUREV.NEURO.31.060407.125642
P577
2008-01-01T00:00:00Z