Abstract
Instrumental learning is mediated by goal-directed and habit systems in the brain. While rodent studies implicate distinct prefrontal/striatal regions in goal-directed and habit learning, neural systems underpinning these two processes in humans remain poorly understood. Here, using a validated discrimination learning task that distinguishes goal-directed learning from habit learning in 72 subjects in fMRI, we investigated the corticostriatal correlates of goal-directed learning and tested whether brain activation during learning is associated with trait motivation and behavioral performance in the post-learning test phase. Participants showed enhanced activation in medial prefrontal and posterior cingulate cortices during goal-directed action selection in the training phase, whereas habitual action selection activated bilateral insula, bilateral dorsal caudate and left precentral gyrus. In addition, early phase of learning was associated with increased activation in the frontoparietal control network and dorsal striatum, whereas default mode regions depicted increased activation in the late phase. Finally, avoidance motivation scores measured by Behavioral Inhibition/Activation System (BIS/BAS) correlated with accuracy during goal-directed learning and showed a nominally significant correlation with activation in dorsomedial prefrontal cortex during goal-directed acquisition of stimuli. These findings reveal the temporal dynamics of instrumental behavior and suggest that avoidance motivation predicts performance and brain activity during goal-directed learning.
Highlights
Instrumental behavior is supported by goal-directed and habit systems in the brain[1, 2]
Building upon previous animal and human research that identified two distinct systems mediating instrumental learning and using a validated task in fMRI, we investigated the cortical and subcortical brain areas that are involved in goal-directed and habit learning
Our findings reveal the central role of medial prefrontal cortex in goal-directed learning and implicate insula and dorsal striatum in processes that mimic habit learning
Summary
Instrumental behavior is supported by goal-directed and habit systems in the brain[1, 2]. The habit system increases efficiency at the expense of flexibility, whereas the goal-directed system optimizes action selection in a way sensitive to the current value of the outcome Based on this account, there is a balance between these two systems, which serves to optimize action selection, increase efficiency and maintain flexibility. We investigated whether any differential brain activity between goal-directed and habit learning is associated with individual approach/avoidance motivation traits using Behavioral Inhibition/Activation System (BIS/BAS) scales[19]. Both systems are thought to influence the motivational state of an individual and consequent action selection[20, 21]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
