Peer-Reviewed Journal Details
Mandatory Fields
Hallahan, B,Newell, J,Soares, JC,Brambilla, P,Strakowski, SM,Fleck, DE,Kieseppa, T,Altshuler, LL,Fornito, A,Malhi, GS,McIntosh, AM,Yurgelun-Todd, DA,Labar, KS,Sharma, V,MacQueen, GM,Murray, RM,McDonald, C
2011
February
Biological Psychiatry
Structural Magnetic Resonance Imaging in Bipolar Disorder: An International Collaborative MegaAnalysis of Individual Adult Patient Data
Published
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Optional Fields
Amygdala bipolar disorder hippocampus lateral ventricles lithium mega-analysis SUBGENUAL PREFRONTAL CORTEX TEMPORAL-LOBE STRUCTURES BRAIN GRAY-MATTER HIPPOCAMPAL VOLUME MOOD DISORDERS WHITE-MATTER LITHIUM TREATMENT BASAL GANGLIA HEALTHY-INDIVIDUALS NEUROTROPHIC FACTOR
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Background: There is substantial inconsistency in results of brain structural magnetic resonance imaging studies in adult bipolar disorder. This is likely consequent upon limited statistical power of studies together with their clinical and methodological heterogeneity. The current study was undertaken to perform an international collaborative mega-analysis of regional volumetric measurements of individual patient and healthy subject data, to optimize statistical power, detect case-control differences, assess the association of psychotropic medication usage with brain structural variation, and detect other possible sources of heterogeneity.Methods: Eleven international research groups contributed published and unpublished data on 321 individuals with bipolar disorder land 442 healthy subjects. We used linear mixed effects regression models to evaluate differences in brain structure between patient groups.Results: Individuals with bipolar disorder had increased right lateral ventricular, left temporal lobe, and right putamen volumes. Bipolar patients taking lithium displayed significantly increased hippocampal and amygdala volume compared with patients not treated with lithium and healthy comparison subjects. Cerebral volume reduction was significantly associated with illness duration in bipolar individuals.Conclusions: The application of mega-analysis to bipolar disorder imaging identified lithium use and illness duration as substantial and consistent sources of heterogeneity, with lithium use associated with regionally specific increased brain volume.
DOI 10.1016/j.biopsych.2010.08.029
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