Internal representations of action-outcome relationships are necessary for flexible adaptation of motivated behavior in dynamic environments. Prefrontal cortex (PFC) is implicated in flexible planning and execution of goal-directed actions, but little is known about how information about action-outcome relationships is represented across functionally distinct regions of PFC. Here, we observe distinct patterns of action-evoked single unit activity in the medial prefrontal cortex (mPFC) and orbitofrontal cortex (OFC) during a task in which the relationship between outcomes and actions was independently manipulated. The mPFC encoded changes in the number of actions required to earn a reward, but not fluctuations in outcome magnitude. In contra...
Actions performed by others are mostly not observed in isolation, but embedded in sequences of actio...
According to ideomotor theory, goal-directed action involves the active perceptual anticipation of a...
A large network of spatially contiguous, yet anatomically distinct regions in medial frontal cortex ...
The prefrontal cortex (PFC) is thought to play a critical role in behavioral flexibility by monitori...
Given the prefrontal cortex (PFC) is involved in tracking consequences from both one's environment a...
To adapt behavior to a changing environment, one must monitor outcomes of executed actions and adjus...
The orbital frontal cortex appears to be involved in learning the rules of goal-directed behavior ne...
The orbital frontal cortex appears to be involved in learning the rules of goal-directed behavior ne...
The prefrontal cortex (PFC) is critical for organizing thought and behavior in accordance with inter...
Adaptive goal-directed behavior involves monitoring of ongoing actions and performance outcomes, and...
Adaptive goal-directed behavior involves monitoring of ongoing actions and performance outcomes, and...
Choice between actions often requires the ability to retrieve action consequences in circumstances w...
Goal-directed behavior is based on representations of contingencies between a certain situation (S),...
According to ideomotor theory, goal-directed action involves the active perceptual anticipation of a...
Humans make choices every day, which are often intended to lead to desirable outcomes. While we ofte...
Actions performed by others are mostly not observed in isolation, but embedded in sequences of actio...
According to ideomotor theory, goal-directed action involves the active perceptual anticipation of a...
A large network of spatially contiguous, yet anatomically distinct regions in medial frontal cortex ...
The prefrontal cortex (PFC) is thought to play a critical role in behavioral flexibility by monitori...
Given the prefrontal cortex (PFC) is involved in tracking consequences from both one's environment a...
To adapt behavior to a changing environment, one must monitor outcomes of executed actions and adjus...
The orbital frontal cortex appears to be involved in learning the rules of goal-directed behavior ne...
The orbital frontal cortex appears to be involved in learning the rules of goal-directed behavior ne...
The prefrontal cortex (PFC) is critical for organizing thought and behavior in accordance with inter...
Adaptive goal-directed behavior involves monitoring of ongoing actions and performance outcomes, and...
Adaptive goal-directed behavior involves monitoring of ongoing actions and performance outcomes, and...
Choice between actions often requires the ability to retrieve action consequences in circumstances w...
Goal-directed behavior is based on representations of contingencies between a certain situation (S),...
According to ideomotor theory, goal-directed action involves the active perceptual anticipation of a...
Humans make choices every day, which are often intended to lead to desirable outcomes. While we ofte...
Actions performed by others are mostly not observed in isolation, but embedded in sequences of actio...
According to ideomotor theory, goal-directed action involves the active perceptual anticipation of a...
A large network of spatially contiguous, yet anatomically distinct regions in medial frontal cortex ...