Reward-seeking behavior depends critically on processing of positive and negative information at various stages such as reward anticipation, outcome monitoring, and choice evaluation. Behavioral and neuropsychological evidence suggests that processing of positive (e.g., gain) and negative (e.g., loss) reward information may be dissociable and individually disrupted. However, it remains uncertain whether different stages of reward processing share certain neural circuitry in frontal and striatal areas, and whether distinct but interactive systems in these areas are recruited for positive and negative reward processing. To explore these issues, we used a monetary decision-making task to investigate the roles of frontal and striatal areas at a...
Functional neuroimaging research in humans has identified a number of brain areas that are activated...
Controversial results have been reported concerning the neural mechanisms involved in the processing...
A large network of spatially contiguous, yet anatomically distinct regions in medial frontal cortex ...
Reward-seeking behavior depends critically on processing of positive and negative information at var...
Reward processing engages diverse brain regions, including multiple prefrontal regions and the basal...
Avoiding repeated mistakes and learning to reinforce rewarding decisions is critical for human survi...
Introduction: Rewarding and punishing stimuli elicit BOLD responses in the affective division of the...
Previous event-related brain potential (ERP) studies have identified a medial frontal negativity (MFN...
The value of rewards arises from multiple hedonic and motivational dimensions. Reward-encoding brain...
Objective: Functional imaging studies offer alternative explanations for the neural correlates of mo...
Although previous studies have implicated a diverse set of brain regions in reward-related decision ...
Incentive delay tasks implicate the striatum and medial frontal cortex in reward processing. However...
This study investigates differential neural activation patterns in response to reward-related feedba...
Controversial results have been reported concerning the neural mechanisms involved in the processing...
There is accumulating evidence implicating a set of key brain regions in encoding rewarding and puni...
Functional neuroimaging research in humans has identified a number of brain areas that are activated...
Controversial results have been reported concerning the neural mechanisms involved in the processing...
A large network of spatially contiguous, yet anatomically distinct regions in medial frontal cortex ...
Reward-seeking behavior depends critically on processing of positive and negative information at var...
Reward processing engages diverse brain regions, including multiple prefrontal regions and the basal...
Avoiding repeated mistakes and learning to reinforce rewarding decisions is critical for human survi...
Introduction: Rewarding and punishing stimuli elicit BOLD responses in the affective division of the...
Previous event-related brain potential (ERP) studies have identified a medial frontal negativity (MFN...
The value of rewards arises from multiple hedonic and motivational dimensions. Reward-encoding brain...
Objective: Functional imaging studies offer alternative explanations for the neural correlates of mo...
Although previous studies have implicated a diverse set of brain regions in reward-related decision ...
Incentive delay tasks implicate the striatum and medial frontal cortex in reward processing. However...
This study investigates differential neural activation patterns in response to reward-related feedba...
Controversial results have been reported concerning the neural mechanisms involved in the processing...
There is accumulating evidence implicating a set of key brain regions in encoding rewarding and puni...
Functional neuroimaging research in humans has identified a number of brain areas that are activated...
Controversial results have been reported concerning the neural mechanisms involved in the processing...
A large network of spatially contiguous, yet anatomically distinct regions in medial frontal cortex ...