Neural Correlates of Successful Response Inhibition in Unmedicated Patients With Late-Life Depression
| Autor: | Madhukar H. Trivedi, Carol A. Tamminga, David S. Bobb, Kaundinya Gopinath, F. Andrew Kozel, C. Munro Cullum, Bryon Adinoff, Steven J. Laken, Hung Wei Huang, Shawn M. McClintock, Mustafa M. Husain, Katya Rubia, Kimberly S. Mapes |
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| Rok vydání: | 2012 |
| Předmět: |
Male
Cingulate cortex medicine.medical_specialty Neuroimaging Audiology Insular cortex Brain mapping Executive Function medicine Humans Aged Aged 80 and over Cerebral Cortex Brain Mapping Depressive Disorder Blood-oxygen-level dependent medicine.diagnostic_test Middle Aged Magnetic Resonance Imaging Texas Inhibition Psychological Psychiatry and Mental health FMRIB Software Library Female Geriatrics and Gerontology Psychology Functional magnetic resonance imaging Neuroscience Psychomotor Performance Executive dysfunction |
| Zdroj: | The American Journal of Geriatric Psychiatry. 20:1057-1069 |
| ISSN: | 1064-7481 |
| DOI: | 10.1097/jgp.0b013e318235b728 |
| Popis: | Objective Accumulating evidence implicates a strong association between abnormal frontostriatal-limbic brain circuits, executive dysfunction, and late-life depression (LLD). The stop signal task (SST) was designed by Rubia et al. for use with functional magnetic resonance imaging (fMRI) to identify the neural correlates of motor response inhibition, a well-characterized executive function. In this study, we compared brain activation between a group of unmedicated participants with LLD and an unmedicated healthy cohort during SST performance. Methods Participants 55–85 years of age were screened, clinically evaluated, and entered into either the LLD (n = 15) or healthy comparison group (n = 13). Both groups underwent neuroimaging while performing the SST under similar conditions. The brain circuitry of successful motor inhibition was evaluated by contrasting the condition of correctly inhibiting responses with the condition of correctly responding to Go signals. Differential areas of brain activation between the LLD and comparison groups were determined with FMRIB Software Library. Results Despite comparable SST performance measures, LLD participants demonstrated greater blood oxygen level dependent activation relative to the comparison group in predominantly left-lateralized frontostriatal-limbic circuitry that included the bilateral superior frontal cortices and left-hemispheric orbitofrontal gyri, insular cortex, cingulate cortex, caudate, and putamen. Conversely, the healthy comparison group did not exhibit any areas of greater activation than the LLD group. Conclusion Unmedicated participants with LLD activate additional areas within frontostriatal-limbic brain circuitry when performing the SST at a level comparable to a healthy cohort. |
| Databáze: | OpenAIRE |
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