Cocaine dependent individuals with attenuated striatal activation during reinforcement learning are more susceptible to relapse.
Author(s)
Stewart, Jennifer LConnolly, Colm G
May, April C
Tapert, Susan F
Wittmann, Marc
Paulus, Martin P
Keywords
BrainCorpus Striatum
Cerebral Cortex
Frontal Lobe
Humans
Substance-Related Disorders
Cocaine-Related Disorders
Recurrence
Magnetic Resonance Imaging
Motivation
Learning
Reinforcement (Psychology)
Reward
Decision Making
Adult
Middle Aged
Female
Male
Abstinence
Cocaine dependence
Functional magnetic resonance imaging
Relapse
Medical and Health Sciences
Psychology and Cognitive Sciences
Psychiatry
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https://escholarship.org/uc/item/29n658bmAbstract
Cocaine-dependent individuals show altered brain activation during decision making. It is unclear, however, whether these activation differences are related to relapse vulnerability. This study tested the hypothesis that brain-activation patterns during reinforcement learning are linked to relapse 1 year later in individuals entering treatment for cocaine dependence. Subjects performed a Paper-Scissors-Rock task during functional magnetic resonance imaging (fMRI). A year later, we examined whether subjects had remained abstinent (n=15) or relapsed (n=15). Although the groups did not differ on demographic characteristics, behavioral performance, or lifetime substance use, abstinent patients reported greater motivation to win than relapsed patients. The fMRI results indicated that compared with abstinent individuals, relapsed users exhibited lower activation in (1) bilateral inferior frontal gyrus and striatum during decision making more generally; and (2) bilateral middle frontal gyrus and anterior insula during reward contingency learning in particular. Moreover, whereas abstinent patients exhibited greater left middle frontal and striatal activation to wins than losses, relapsed users did not demonstrate modulation in these regions as a function of outcome valence. Thus, individuals at high risk for relapse relative to those who are able to abstain allocate fewer neural resources to action-outcome contingency formation and decision making, as well as having less motivation to win on a laboratory-based task.Date
2014-08-01Type
ArticleIdentifier
oai:escholarship.org/ark:/13030/qt29n658bmqt29n658bm
https://escholarship.org/uc/item/29n658bm