Prefrontal hypoactivation during cognitive control in early abstinent methamphetamine-dependent subjects
Individuals who abuse methamphetamine (MA) perform at levels below those of healthy controls on tests that require cognitive control. As cognitive control deficits may influence the success of treatment for addiction, we sought to help clarify the neural correlates of this deficit. MA-dependent (n=1...
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| Published in | Psychiatry research. Neuroimaging Vol. 194; no. 3; pp. 287 - 295 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Shannon
Elsevier B.V
30.12.2011
Elsevier |
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| Abstract | Individuals who abuse methamphetamine (MA) perform at levels below those of healthy controls on tests that require cognitive control. As cognitive control deficits may influence the success of treatment for addiction, we sought to help clarify the neural correlates of this deficit. MA-dependent (n=10, abstinent 4–7days) and control subjects (n=18) performed a color-word Stroop task, which requires cognitive control, during functional MRI (fMRI). The task included a condition in which participants were required to respond to one stimulus dimension while ignoring another conflicting dimension, and another condition without conflict. We compared the groups on performance and neural activation in the two conditions. MA-dependent subjects made more errors and responded more slowly than controls. Controlling for response times in the incongruent condition, voxel-wise mixed effects analyses (whole-brain corrected) demonstrated that MA-dependent subjects had less activation than control subjects in the right inferior frontal gyrus, supplementary motor cortex/anterior cingulate gyrus and the anterior insular cortex during the incongruent condition only. MA-dependent subjects did not exhibit greater activation in any brain region in either of the Stroop conditions. These preliminary findings suggest that hypofunction in cortical areas that are important for executive function underlies cognitive control deficits associated with MA dependence. |
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| AbstractList | Individuals who abuse methamphetamine (MA) perform at levels below those of healthy controls on tests that require cognitive control. As cognitive control deficits may influence the success of treatment for addiction, we sought to help clarify the neural correlates of this deficit. MA-dependent (n=10, abstinent 4–7days) and control subjects (n=18) performed a color-word Stroop task, which requires cognitive control, during functional MRI (fMRI). The task included a condition in which participants were required to respond to one stimulus dimension while ignoring another conflicting dimension, and another condition without conflict. We compared the groups on performance and neural activation in the two conditions. MA-dependent subjects made more errors and responded more slowly than controls. Controlling for response times in the incongruent condition, voxel-wise mixed effects analyses (whole-brain corrected) demonstrated that MA-dependent subjects had less activation than control subjects in the right inferior frontal gyrus, supplementary motor cortex/anterior cingulate gyrus and the anterior insular cortex during the incongruent condition only. MA-dependent subjects did not exhibit greater activation in any brain region in either of the Stroop conditions. These preliminary findings suggest that hypofunction in cortical areas that are important for executive function underlies cognitive control deficits associated with MA dependence. Individuals who abuse methamphetamine (MA) perform at levels below those of healthy controls on tests that require cognitive control. As cognitive control deficits may influence the success of treatment for addiction, we sought to help clarify the neural correlates of this deficit. MA-dependent (n=10, abstinent 4-7 days) and control subjects (n=18) performed a color-word Stroop task, which requires cognitive control, during functional MRI (fMRI). The task included a condition in which participants were required to respond to one stimulus dimension while ignoring another conflicting dimension, and another condition without conflict. We compared the groups on performance and neural activation in the two conditions. MA-dependent subjects made more errors and responded more slowly than controls. Controlling for response times in the incongruent condition, voxel-wise mixed effects analyses (whole-brain corrected) demonstrated that MA-dependent subjects had less activation than control subjects in the right inferior frontal gyrus, supplementary motor cortex/anterior cingulate gyrus and the anterior insular cortex during the incongruent condition only. MA-dependent subjects did not exhibit greater activation in any brain region in either of the Stroop conditions. These preliminary findings suggest that hypofunction in cortical areas that are important for executive function underlies cognitive control deficits associated with MA dependence. Abstract Individuals who abuse methamphetamine (MA) perform at levels below those of healthy controls on tests that require cognitive control. As cognitive control deficits may influence the success of treatment for addiction, we sought to help clarify the neural correlates of this deficit. MA-dependent ( n = 10, abstinent 4–7 days) and control subjects ( n = 18) performed a color-word Stroop task, which requires cognitive control, during functional MRI (fMRI). The task included a condition in which participants were required to respond to one stimulus dimension while ignoring another conflicting dimension, and another condition without conflict. We compared the groups on performance and neural activation in the two conditions. MA-dependent subjects made more errors and responded more slowly than controls. Controlling for response times in the incongruent condition, voxel-wise mixed effects analyses (whole-brain corrected) demonstrated that MA-dependent subjects had less activation than control subjects in the right inferior frontal gyrus, supplementary motor cortex/anterior cingulate gyrus and the anterior insular cortex during the incongruent condition only. MA-dependent subjects did not exhibit greater activation in any brain region in either of the Stroop conditions. These preliminary findings suggest that hypofunction in cortical areas that are important for executive function underlies cognitive control deficits associated with MA dependence. Individuals who abuse methamphetamine (MA) perform at levels below those of healthy controls on tests that require cognitive control. As cognitive control deficits may influence the success of treatment for addiction, we sought to help clarify the neural correlates of this deficit. MA-dependent (n=10, abstinent 4-7 days) and control subjects (n=18) performed a color-word Stroop task, which requires cognitive control, during functional MRI (fMRI). The task included a condition in which participants were required to respond to one stimulus dimension while ignoring another conflicting dimension, and another condition without conflict. We compared the groups on performance and neural activation in the two conditions. MA-dependent subjects made more errors and responded more slowly than controls. Controlling for response times in the incongruent condition, voxel-wise mixed effects analyses (whole-brain corrected) demonstrated that MA-dependent subjects had less activation than control subjects in the right inferior frontal gyrus, supplementary motor cortex/anterior cingulate gyrus and the anterior insular cortex during the incongruent condition only. MA-dependent subjects did not exhibit greater activation in any brain region in either of the Stroop conditions. These preliminary findings suggest that hypofunction in cortical areas that are important for executive function underlies cognitive control deficits associated with MA dependence.Individuals who abuse methamphetamine (MA) perform at levels below those of healthy controls on tests that require cognitive control. As cognitive control deficits may influence the success of treatment for addiction, we sought to help clarify the neural correlates of this deficit. MA-dependent (n=10, abstinent 4-7 days) and control subjects (n=18) performed a color-word Stroop task, which requires cognitive control, during functional MRI (fMRI). The task included a condition in which participants were required to respond to one stimulus dimension while ignoring another conflicting dimension, and another condition without conflict. We compared the groups on performance and neural activation in the two conditions. MA-dependent subjects made more errors and responded more slowly than controls. Controlling for response times in the incongruent condition, voxel-wise mixed effects analyses (whole-brain corrected) demonstrated that MA-dependent subjects had less activation than control subjects in the right inferior frontal gyrus, supplementary motor cortex/anterior cingulate gyrus and the anterior insular cortex during the incongruent condition only. MA-dependent subjects did not exhibit greater activation in any brain region in either of the Stroop conditions. These preliminary findings suggest that hypofunction in cortical areas that are important for executive function underlies cognitive control deficits associated with MA dependence. |
| Author | London, Edythe D. Ghahremani, Dara G. Monterosso, John Nestor, Liam J. |
| AuthorAffiliation | b Department of Psychology, University of Southern California, Los Angeles, CA, USA d Department of Molecular and Medical Pharmacology, UCLA, Los Angeles, CA, USA c Brain Research Institute, UCLA, Los Angeles, CA, USA a Department of Psychiatry and Biobehavioral Sciences, UCLA, Los Angeles, CA, USA |
| AuthorAffiliation_xml | – name: c Brain Research Institute, UCLA, Los Angeles, CA, USA – name: b Department of Psychology, University of Southern California, Los Angeles, CA, USA – name: d Department of Molecular and Medical Pharmacology, UCLA, Los Angeles, CA, USA – name: a Department of Psychiatry and Biobehavioral Sciences, UCLA, Los Angeles, CA, USA |
| Author_xml | – sequence: 1 givenname: Liam J. surname: Nestor fullname: Nestor, Liam J. organization: Department of Psychiatry and Biobehavioral Sciences, UCLA, Los Angeles, CA, USA – sequence: 2 givenname: Dara G. surname: Ghahremani fullname: Ghahremani, Dara G. organization: Department of Psychiatry and Biobehavioral Sciences, UCLA, Los Angeles, CA, USA – sequence: 3 givenname: John surname: Monterosso fullname: Monterosso, John organization: Department of Psychology, University of Southern California, Los Angeles, CA, USA – sequence: 4 givenname: Edythe D. surname: London fullname: London, Edythe D. email: elondon@mednet.ucla.edu organization: Department of Psychiatry and Biobehavioral Sciences, UCLA, Los Angeles, CA, USA |
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| Keywords | fMRI Insula Prefrontal cortex Stroop Cognitive control Methamphetamine Amphetamine derivatives Psychotropic Central nervous system Metamfetamine Cognition Encephalon Dependence Functional magnetic resonance imaging Human Drug addiction CNS stimulant Sympathomimetic Nuclear magnetic resonance imaging Abstinence Stroop effect Medical imagery Early Insular cortex Functional imaging |
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| Snippet | Individuals who abuse methamphetamine (MA) perform at levels below those of healthy controls on tests that require cognitive control. As cognitive control... Abstract Individuals who abuse methamphetamine (MA) perform at levels below those of healthy controls on tests that require cognitive control. As cognitive... |
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| SubjectTerms | Addictive behaviors Adult Adult and adolescent clinical studies Amphetamine-Related Disorders - complications Biological and medical sciences Brain Mapping Cognition Disorders - etiology Cognition Disorders - pathology Cognitive control Drug addiction Female fMRI Humans Image Processing, Computer-Assisted Insula Magnetic Resonance Imaging Male Medical sciences Methamphetamine Middle Aged Neuropharmacology Neuropsychological Tests Oxygen - blood Pharmacology. Drug treatments Prefrontal cortex Prefrontal Cortex - blood supply Psychiatry Psychoanaleptics: cns stimulant, antidepressant agent, nootropic agent, mood stabilizer Psychoanaleptics: cns stimulant, antidepressant agent, nootropic agent, mood stabilizer..., (alzheimer disease) Psychology. Psychoanalysis. Psychiatry Psychopathology. Psychiatry Psychopharmacology Radiology Reaction Time Stroop Young Adult |
| Title | Prefrontal hypoactivation during cognitive control in early abstinent methamphetamine-dependent subjects |
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