Reward-guided decision-making and learning depends on distributed neural circuits with many components. Here we focus on recent evidence that suggests four frontal lobe regions make distinct contributions to reward-guided learning and decision-making: the lateral orbitofrontal cortex, the ventromedial prefrontal cortex and adjacent medial orbitofrontal cortex, anterior cingulate cortex, and the anterior lateral prefrontal cortex. We attempt to identify common themes in experiments with human participants and with animal models, which suggest roles that the areas play in learning about reward associations, selecting reward goals, choosing actions to obtain reward, and monitoring the potential value of switching to alternative courses of acti...
Patients with damage to the prefrontal cortex (PFC)--especially the ventral and medial parts of PFC-...
The orbitofrontal cortex (OFC) has been implicated in reinforcement-guided decision making, error mo...
Although previous studies have implicated a diverse set of brain regions in reward-related decision ...
Reward-guided decision-making and learning depends on distributed neural circuits with many componen...
Reward-guided decision-making and learning depends on distributed neural circuits with many componen...
Functional magnetic resonance imaging was used to measure activity in three frontal cortical areas, ...
Behaviour is guided by accumulated experience, valuation and comparison. While many aspects associat...
The orbitofrontal cortex and adjacent ventromedial prefrontal cortex carry reward representations an...
Economic theories of decision making are based on the principle of utility maximization, and reinfor...
Neurons throughout frontal cortex show robust responses to rewards, but a challenge is determining t...
BACKGROUND: Choosing between actions associated with uncertain rewards and punishments is mediated b...
This review outlines some of the main conclusions about the contributions of the orbitofrontal corte...
The prefrontal cortex (PFC) is an area of the brain which controls many higher-level functions inclu...
The frontopolar cortex (FPC), the most anterior part of the frontal lobes, forms the apex of the exe...
Reward-guided decision-making depends on a network of brain regions. Among these are the orbitofront...
Patients with damage to the prefrontal cortex (PFC)--especially the ventral and medial parts of PFC-...
The orbitofrontal cortex (OFC) has been implicated in reinforcement-guided decision making, error mo...
Although previous studies have implicated a diverse set of brain regions in reward-related decision ...
Reward-guided decision-making and learning depends on distributed neural circuits with many componen...
Reward-guided decision-making and learning depends on distributed neural circuits with many componen...
Functional magnetic resonance imaging was used to measure activity in three frontal cortical areas, ...
Behaviour is guided by accumulated experience, valuation and comparison. While many aspects associat...
The orbitofrontal cortex and adjacent ventromedial prefrontal cortex carry reward representations an...
Economic theories of decision making are based on the principle of utility maximization, and reinfor...
Neurons throughout frontal cortex show robust responses to rewards, but a challenge is determining t...
BACKGROUND: Choosing between actions associated with uncertain rewards and punishments is mediated b...
This review outlines some of the main conclusions about the contributions of the orbitofrontal corte...
The prefrontal cortex (PFC) is an area of the brain which controls many higher-level functions inclu...
The frontopolar cortex (FPC), the most anterior part of the frontal lobes, forms the apex of the exe...
Reward-guided decision-making depends on a network of brain regions. Among these are the orbitofront...
Patients with damage to the prefrontal cortex (PFC)--especially the ventral and medial parts of PFC-...
The orbitofrontal cortex (OFC) has been implicated in reinforcement-guided decision making, error mo...
Although previous studies have implicated a diverse set of brain regions in reward-related decision ...