D S Manoach1, K A Lindgren, J J S Barton. 1. Department of Psychiatry and the Athinoula A Martinos Center for Biomedical Imaging, Massachusetts General Hospital, Harvard Medical School, Boston, Massachusetts 02129, USA. dara@nmr.mgh.harvard.edu
Abstract
BACKGROUND: Both Asperger's disorder and the social-emotional processing disorder (SEPD), a form of non-verbal learning disability, are associated with executive function deficits. SEPD has been shown to be associated with deficient saccadic inhibition. OBJECTIVE: To study two executive functions in Asperger's disorder and SEPD, inhibition and task switching, using a single saccadic paradigm. METHODS: 22 control subjects and 27 subjects with developmental social processing disorders-SEPD, Asperger's disorder, or both syndromes-performed random sequences of prosaccades and antisaccades. This design resulted in four trial types, prosaccades and antisaccades, that were either repeated or switched. The design allowed the performance costs of inhibition and task switching to be isolated. RESULTS: Subjects with both Asperger's disorder and SEPD showed deficient inhibition, as indicated by increased antisaccade errors and a disproportionate increase in latency for antisaccades relative to prosaccades. In contrast, task switching error and latency costs were normal and unrelated to the costs of inhibition. CONCLUSIONS: This study replicates the finding of deficient saccadic inhibition in SEPD, extends it to Asperger's disorder, and implicates prefrontal cortex dysfunction in these syndromes. The finding of intact task switching shows that executive function deficits in Asperger's disorder and SEPD are selective and suggests that inhibition and task switching are mediated by distinct neural networks.
BACKGROUND: Both Asperger's disorder and the social-emotional processing disorder (SEPD), a form of non-verbal learning disability, are associated with executive function deficits. SEPD has been shown to be associated with deficient saccadic inhibition. OBJECTIVE: To study two executive functions in Asperger's disorder and SEPD, inhibition and task switching, using a single saccadic paradigm. METHODS: 22 control subjects and 27 subjects with developmental social processing disorders-SEPD, Asperger's disorder, or both syndromes-performed random sequences of prosaccades and antisaccades. This design resulted in four trial types, prosaccades and antisaccades, that were either repeated or switched. The design allowed the performance costs of inhibition and task switching to be isolated. RESULTS: Subjects with both Asperger's disorder and SEPD showed deficient inhibition, as indicated by increased antisaccade errors and a disproportionate increase in latency for antisaccades relative to prosaccades. In contrast, task switching error and latency costs were normal and unrelated to the costs of inhibition. CONCLUSIONS: This study replicates the finding of deficient saccadic inhibition in SEPD, extends it to Asperger's disorder, and implicates prefrontal cortex dysfunction in these syndromes. The finding of intact task switching shows that executive function deficits in Asperger's disorder and SEPD are selective and suggests that inhibition and task switching are mediated by distinct neural networks.
Authors: Jennifer E McDowell; Gregory G Brown; Martin Paulus; Antigona Martinez; Sara E Stewart; David J Dubowitz; David L Braff Journal: Biol Psychiatry Date: 2002-02-01 Impact factor: 13.382
Authors: Jason J S Barton; Cathleen Greenzang; Rebecca Hefter; Jay Edelman; Dara S Manoach Journal: Exp Brain Res Date: 2005-08-12 Impact factor: 1.972
Authors: Tal Kenet; Elena V Orekhova; Hari Bharadwaj; Nandita R Shetty; Emily Israeli; Adrian K C Lee; Yigal Agam; Mikael Elam; Robert M Joseph; Matti S Hämäläinen; Dara S Manoach Journal: Neuroimage Date: 2012-03-11 Impact factor: 6.556