SummaryStimulus-reward coupling without attention can induce highly specific perceptual learning effects, suggesting that reward triggers selective plasticity within visual cortex. Additionally, dopamine-releasing events—temporally surrounding stimulus-reward associations—selectively enhance memory. These forms of plasticity may be evoked by selective modulation of stimulus representations during dopamine-inducing events. However, it remains to be shown whether dopaminergic signals can selectively modulate visual cortical activity. We measured fMRI activity in monkey visual cortex during reward-only trials apart from intermixed cue-reward trials. Reward without visual stimulation selectively decreased fMRI activity within the cue representa...
It is commonly accepted that reward is an effective motivator of behavior, but little is known about...
Abstract Dopamine neurons respond to reward-predicting cues but also modulate information processing...
SummaryMonkey electrophysiology [1, 2] suggests that the activity of the ventral tegmental area (VTA...
SummaryStimulus-reward coupling without attention can induce highly specific perceptual learning eff...
Stimulus-reward coupling without attention can induce highly specific perceptual learning effects, s...
Stimulus-reward relationships have been shown to modify activity within sensory cortex (Serences 200...
Purpose. A previous monkey fMRI study (Arsenault and Vanduffel, SfN abstract 2011) has discovered a ...
Responses of midbrain dopamine (DA) neurons reflecting expected reward from sensory cues are critica...
SummaryWhat role does reward play in real-world human vision? Reward coding in the midbrain is thoug...
AbstractReward outcome signalling in the sensory cortex is held as important for linking stimuli to ...
Humans reliably learn which actions lead to rewards. One prominent question is how credit is assigne...
Dopamine neurons in the ventral tegmental area (VTA) encode reward prediction errors and can drive r...
SummaryDopamine is essential to cognitive functions. However, despite abundant studies demonstrating...
AbstractRecent neurophysiological studies reveal that neurons in certain brain structures carry spec...
The ability to learn highly skilled movements may depend on the dopamine-related plasticity occurrin...
It is commonly accepted that reward is an effective motivator of behavior, but little is known about...
Abstract Dopamine neurons respond to reward-predicting cues but also modulate information processing...
SummaryMonkey electrophysiology [1, 2] suggests that the activity of the ventral tegmental area (VTA...
SummaryStimulus-reward coupling without attention can induce highly specific perceptual learning eff...
Stimulus-reward coupling without attention can induce highly specific perceptual learning effects, s...
Stimulus-reward relationships have been shown to modify activity within sensory cortex (Serences 200...
Purpose. A previous monkey fMRI study (Arsenault and Vanduffel, SfN abstract 2011) has discovered a ...
Responses of midbrain dopamine (DA) neurons reflecting expected reward from sensory cues are critica...
SummaryWhat role does reward play in real-world human vision? Reward coding in the midbrain is thoug...
AbstractReward outcome signalling in the sensory cortex is held as important for linking stimuli to ...
Humans reliably learn which actions lead to rewards. One prominent question is how credit is assigne...
Dopamine neurons in the ventral tegmental area (VTA) encode reward prediction errors and can drive r...
SummaryDopamine is essential to cognitive functions. However, despite abundant studies demonstrating...
AbstractRecent neurophysiological studies reveal that neurons in certain brain structures carry spec...
The ability to learn highly skilled movements may depend on the dopamine-related plasticity occurrin...
It is commonly accepted that reward is an effective motivator of behavior, but little is known about...
Abstract Dopamine neurons respond to reward-predicting cues but also modulate information processing...
SummaryMonkey electrophysiology [1, 2] suggests that the activity of the ventral tegmental area (VTA...