Add to ORKGLearning that certain actions lead to risky rewards is critical for biological, social, and economic survival, but the precise neural mechanisms of such reward-guided learning remain unclear. Here, we show that the human nucleus accumbens plays a key role in learning about risks by representing reward value. We recorded electrophysiological activity directly from the nucleus accumbens of five patients undergoing deep brain stimulation for treatment of refractory major depression. Patients engaged in a simple reward-learning task in which they first learned stimulus-outcome associations (learning task), and then were able to choose from among the learned stimuli (choosing task). During the learning task, nucleus accumbens activity reflected ...
The nucleus accumbens (NAc) and its population of GABAergic medium spiny neurons (MSNs) converge inp...
International audienceA critical mechanism for maximizing reward is instrumental learning. In standa...
A crucial skill, especially in rapidly changing environments, is to be able to learn efficiently fro...
Real-world decisions about reward often involve a complex counterbalance of risk and value. Although...
The ability to form and maintain associations between environmental cues, actions, and rewarding sti...
Real-world decisions about reward often involve a complex counterbalance of risk and value. Although...
Humans and animals are exquisitely, though idiosyncratically, sensitive to risk or variance in the o...
Avoiding repeated mistakes and learning to reinforce rewarding decisions is critical for human survi...
The nucleus accumbens plays a key role in reinforcement-guided behaviors. Here, we report that elect...
The nucleus accumbens and medial frontal cortex (MFC) are part of a loop involved in modulating beha...
International audienceWhether maximizing rewards and minimizing punishments rely on distinct brain s...
Reward processing engages diverse brain regions, including multiple prefrontal regions and the basal...
Using environmental cues to acquire good things and avoid harmful things is critical for survival. R...
International audienceThe orbitofrontal cortex is known to carry information regarding expected rewa...
Learning is characterized by the ability to appropriately respond to external cues that predict re...
The nucleus accumbens (NAc) and its population of GABAergic medium spiny neurons (MSNs) converge inp...
International audienceA critical mechanism for maximizing reward is instrumental learning. In standa...
A crucial skill, especially in rapidly changing environments, is to be able to learn efficiently fro...
Real-world decisions about reward often involve a complex counterbalance of risk and value. Although...
The ability to form and maintain associations between environmental cues, actions, and rewarding sti...
Real-world decisions about reward often involve a complex counterbalance of risk and value. Although...
Humans and animals are exquisitely, though idiosyncratically, sensitive to risk or variance in the o...
Avoiding repeated mistakes and learning to reinforce rewarding decisions is critical for human survi...
The nucleus accumbens plays a key role in reinforcement-guided behaviors. Here, we report that elect...
The nucleus accumbens and medial frontal cortex (MFC) are part of a loop involved in modulating beha...
International audienceWhether maximizing rewards and minimizing punishments rely on distinct brain s...
Reward processing engages diverse brain regions, including multiple prefrontal regions and the basal...
Using environmental cues to acquire good things and avoid harmful things is critical for survival. R...
International audienceThe orbitofrontal cortex is known to carry information regarding expected rewa...
Learning is characterized by the ability to appropriately respond to external cues that predict re...
The nucleus accumbens (NAc) and its population of GABAergic medium spiny neurons (MSNs) converge inp...
International audienceA critical mechanism for maximizing reward is instrumental learning. In standa...
A crucial skill, especially in rapidly changing environments, is to be able to learn efficiently fro...