Different neural correlates of reward expectation and reward expectation error in the putamen and caudate nucleus during stimulus-action-reward association learning.
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The Striatum and Subthalamic Nucleus as Independent and Collaborative Structures in Motor ControlPreservation of function in Parkinson's disease: what's learning got to do with it?A universal role of the ventral striatum in reward-based learning: evidence from human studiesAbnormal ventromedial prefrontal cortex function in children with psychopathic traits during reversal learningBayesian cue integration as a developmental outcome of reward mediated learningThe Role of Corticostriatal Systems in Speech Category LearningReward vs. Retaliation-the Role of the Mesocorticolimbic Salience Network in Human Reactive Aggression.Dorsolateral striatum is critical for the expression of surprise-induced enhancements in cue associability.Finding and feeling the musical beat: striatal dissociations between detection and prediction of regularity.Dose dependent dopaminergic modulation of reward-based learning in Parkinson's diseaseBeta drives brain beats.Deep brain stimulation of the subthalamic nucleus improves reward-based decision-learning in Parkinson's diseaseDifferential neural network configuration during human path integration.Masking level differences--a diffusion tensor imaging and functional MRI study.Stable encoding of task structure coexists with flexible coding of task events in sensorimotor striatumExpectation modulates neural responses to pleasant and aversive stimuli in primate amygdala.Value representations in the primate striatum during matching behavior.Statistical and perceptual updating: correlated impairments in right brain injury.The sum of its parts--effects of gastric distention, nutrient content and sensory stimulation on brain activationDistinct roles for primate caudate dopamine D1 and D2 receptors in visual discrimination learning revealed using shRNA knockdown.Neural correlates of metacognitive ability and of feeling confident: a large-scale fMRI studyHow do the basal ganglia contribute to categorization? Their roles in generalization, response selection, and learning via feedback.Modeling the violation of reward maximization and invariance in reinforcement schedulesReward-related processing in the human brain: developmental considerations.Encoding of marginal utility across time in the human brain.Dissociating the contributions of independent corticostriatal systems to visual categorization learning through the use of reinforcement learning modeling and Granger causality modelingMany hats: intratrial and reward level-dependent BOLD activity in the striatum and premotor cortex.Reward-related activity in the human motor cortexEvent-related potential activity in the basal ganglia differentiates rewards from nonrewards: temporospatial principal components analysis and source localization of the feedback negativity.Lasting associations between early-childhood temperament and late-adolescent reward-circuitry response to peer feedback.States versus rewards: dissociable neural prediction error signals underlying model-based and model-free reinforcement learningGreater emotional eating scores associated with reduced frontolimbic activation to palatable taste in adolescents.Altered emotional and BOLD responses to negative, positive and ambiguous performance feedback in OCD.Impulsivity across the course of bipolar disorderA pallidus-habenula-dopamine pathway signals inferred stimulus values.Working together may be better: activation of reward centers during a cooperative maze task.Neural activity in the macaque putamen associated with saccades and behavioral outcome.Parallel contributions of distinct human memory systems during probabilistic learning.Neurophysiological effects of acute oxytocin administration: systematic review and meta-analysis of placebo-controlled imaging studies.New insights on the subcortical representation of reward.
P2860
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P2860
Different neural correlates of reward expectation and reward expectation error in the putamen and caudate nucleus during stimulus-action-reward association learning.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh-hant
name
Different neural correlates of ...... n-reward association learning.
@en
Different neural correlates of ...... n-reward association learning.
@nl
type
label
Different neural correlates of ...... n-reward association learning.
@en
Different neural correlates of ...... n-reward association learning.
@nl
prefLabel
Different neural correlates of ...... n-reward association learning.
@en
Different neural correlates of ...... n-reward association learning.
@nl
P2860
P356
P1476
Different neural correlates of ...... n-reward association learning.
@en
P2093
Masahiko Haruno
Mitsuo Kawato
P2860
P304
P356
10.1152/JN.00382.2005
P407
P577
2005-09-28T00:00:00Z