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The role of cingulate cortex in the detection of errors with and without awareness: a high‐density electrical mapping study
TLDR
The data suggest that the ACC might participate in both preconscious and conscious error detection and that cortical arousal provides a necessary setting condition for error awareness.
View on Wiley
Executive Dysfunction in Cocaine Addiction: Evidence for Discordant Frontal, Cingulate, and Cerebellar Activity
TLDR
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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Neural mechanisms involved in error processing: A comparison of errors made with and without awareness
View on Elsevier
Individual differences in the functional neuroanatomy of inhibitory control
View on Elsevier
Impaired error awareness and anterior cingulate cortex hypoactivity in chronic cannabis users
TLDR
Increased levels of hypoactivity in both the ACC and right insula regions were significantly correlated with error-awareness rates in the cannabis group (but not controls), which is consistent with earlier reports of hypOactivity in the neural systems underlying cognitive control and the monitoring of interoceptive awareness in chronic drug users.
View on Nature
Systematic review of ERP and fMRI studies investigating inhibitory control and error processing in people with substance dependence and behavioural addictions.
TLDR
The most consistent findings in addicted individuals relative to healthy controls were lower N2, error-related negativity and error positivity amplitudes as well as hypoactivation in the anterior cingulate cortex, inferior frontal gyrus and dorsolateral prefrontal cortex.
View on PubMed
The functional neuroanatomical correlates of response variability: evidence from a response inhibition task
View on Elsevier
Prefrontal‐subcortical dissociations underlying inhibitory control revealed by event‐related fMRI
TLDR
The results are discussed in terms of the understanding of the impact of preparation on the distributed network underlying response inhibition and the contribution of subcortical areas, such as the basal ganglia, to executive control processes.
View on Wiley
Predicting Success: Patterns of Cortical Activation and Deactivation Prior to Response Inhibition
TLDR
The results suggest that when cues are provided to signify the imminent requirement for behavioral control, successful performance results from a coordinated pattern of preparatory activation in task-relevant areas and deactivation of task-irrelevant ones.
View on MIT Press
Individual differences in error processing: a review and reanalysis of three event-related fMRI studies using the GO/NOGO task.
TLDR
A review of the current imaging literature on error-related activation indicates that, despite the use of a variety of other cognitive paradigms, the network of regions identified here is consistent with these previous studies, suggesting that these regions are critical to a 'general' error- related response.
View on PubMed
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