BACKGROUND: The neurobiological features of pediatric bipolar disorder (BD) are largely unknown. Children and adolescents with BD may be important to study with functional neuroimaging techniques because of their unique status of early-onset BD and high familial loading for the disorder. Neuroimaging studies of adults with BD have implicated the dorsolateral prefrontal cortex (DLPFC) and anterior cingulate cortex (ACC) in the development of this disorder. OBJECTIVES: To study children and adolescents with BD via functional magnetic resonance imaging using cognitive and affective tasks and to examine possible abnormalities in the DLPFC and ACC, as well as selected subcortical areas, in pediatric familial BD. DESIGN: We evaluated 12 male subjects aged 9 to 18 years with BD who had at least 1 parent with BD as well as 10 age- and IQ-matched healthy male controls. Stimulants were discontinued for at least 24 hours; other medications were continued. Subjects underwent functional magnetic resonance imaging at 3 T while performing a 2-back visuospatial working memory task and an affective task involving the visualization of positively, neutrally, or negatively valenced pictures. SETTING: An academic referral setting, drawing from the Bay Area of San Francisco, Calif. RESULTS: Compared with controls, for the visuospatial working memory task, subjects with BD had greater activation in several areas including the bilateral ACC, left putamen, left thalamus, left DLPFC, and right inferior frontal gyrus. Controls had greater activation in the cerebellar vermis. In viewing negatively valenced pictures, subjects with BD had greater activation in the bilateral DLPFC, inferior frontal gyrus, and right insula. Controls had greater activation in the right posterior cingulate gyrus. For positively valenced pictures, subjects with BD had greater activation in the bilateral caudate and thalamus, left middle/superior frontal gyrus, and left ACC, whereas controls had no areas of greater activation. CONCLUSIONS: Children and adolescents with BD may have underlying abnormalities in the regulation of prefrontal-subcortical circuits. Further functional magnetic resonance imaging studies of attention and mood with greater sample sizes are needed.
BACKGROUND: The neurobiological features of pediatric bipolar disorder (BD) are largely unknown. Children and adolescents with BD may be important to study with functional neuroimaging techniques because of their unique status of early-onset BD and high familial loading for the disorder. Neuroimaging studies of adults with BD have implicated the dorsolateral prefrontal cortex (DLPFC) and anterior cingulate cortex (ACC) in the development of this disorder. OBJECTIVES: To study children and adolescents with BD via functional magnetic resonance imaging using cognitive and affective tasks and to examine possible abnormalities in the DLPFC and ACC, as well as selected subcortical areas, in pediatric familial BD. DESIGN: We evaluated 12 male subjects aged 9 to 18 years with BD who had at least 1 parent with BD as well as 10 age- and IQ-matched healthy male controls. Stimulants were discontinued for at least 24 hours; other medications were continued. Subjects underwent functional magnetic resonance imaging at 3 T while performing a 2-back visuospatial working memory task and an affective task involving the visualization of positively, neutrally, or negatively valenced pictures. SETTING: An academic referral setting, drawing from the Bay Area of San Francisco, Calif. RESULTS: Compared with controls, for the visuospatial working memory task, subjects with BD had greater activation in several areas including the bilateral ACC, left putamen, left thalamus, left DLPFC, and right inferior frontal gyrus. Controls had greater activation in the cerebellar vermis. In viewing negatively valenced pictures, subjects with BD had greater activation in the bilateral DLPFC, inferior frontal gyrus, and right insula. Controls had greater activation in the right posterior cingulate gyrus. For positively valenced pictures, subjects with BD had greater activation in the bilateral caudate and thalamus, left middle/superior frontal gyrus, and left ACC, whereas controls had no areas of greater activation. CONCLUSIONS:Children and adolescents with BD may have underlying abnormalities in the regulation of prefrontal-subcortical circuits. Further functional magnetic resonance imaging studies of attention and mood with greater sample sizes are needed.
Authors: Pilyoung Kim; Sarah E Jenkins; Megan E Connolly; Christen M Deveney; Stephen J Fromm; Melissa A Brotman; Eric E Nelson; Daniel S Pine; Ellen Leibenluft Journal: J Psychiatr Res Date: 2011-10-22 Impact factor: 4.791
Authors: Daniel P Dickstein; Cristina Gorrostieta; Hernando Ombao; Lisa D Goldberg; Alison C Brazel; Christopher J Gable; Clare Kelly; Dylan G Gee; Xi-Nian Zuo; F Xavier Castellanos; Michael P Milham Journal: Biol Psychiatry Date: 2010-08-24 Impact factor: 13.382
Authors: Michael A Cerullo; Caleb M Adler; Martine Lamy; James C Eliassen; David E Fleck; Stephen M Strakowski; Melissa P DelBello Journal: Early Interv Psychiatry Date: 2009-08 Impact factor: 2.732
Authors: Daniel P Dickstein; Brendan A Rich; Roxann Roberson-Nay; Lisa Berghorst; Deborah Vinton; Daniel S Pine; Ellen Leibenluft Journal: Bipolar Disord Date: 2007-11 Impact factor: 6.744