Executive Dysfunction in Cocaine Addiction: Evidence for Discordant Frontal, Cingulate, and Cerebellar Activity
Adult
Male
Decision Making
150
cocaine
Prefrontal Cortex
Activation
Gyrus Cinguli
working memory
Drug-addiction
Cocaine-Related Disorders
03 medical and health sciences
Cognition
Mental Processes
0302 clinical medicine
Memory
Cerebellum
Humans
response inhibition
Response-inhibition
Neuropsychological Performance
Functional Mri
Verbal Working-memory
Rhesus-monkey
fMRI
Neurosciences
Error-detection
Middle Aged
Magnetic Resonance Imaging
Frontal Lobe
Inhibition, Psychological
executive function
Event-related Fmri
Female
addiction
DOI:
10.1523/jneurosci.3321-04.2004
Publication Date:
2004-12-08T21:54:14Z
AUTHORS (2)
ABSTRACT
Using a GO-NOGO response inhibition task in which working memory (WM) demands can be varied, we demonstrate that the compromised abilities of cocaine users to exert control over strong prepotent urges are associated with reduced activity in anterior cingulate and right prefrontal cortices, two regions thought to be critical for implementing cognitive control. Furthermore, unlike drug-naive controls, and opposite to the anterior cingulate pattern, cocaine users showed an over-reliance on the left cerebellum, a compensatory pattern previously seen in alcohol addiction. The results indicate that cocaine users find it difficult to inhibit their own actions, particularly when WM demands, which have been shown previously to increase during cue-induced craving for the drug, are increased. The results reveal a neuroanatomical basis for this dysexecutive component to addiction, supporting the suggested importance cognitive functions may play in prolonging abuse or predisposing users toward relapse.
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