Leanne Tamm1, Vinod Menon, Allan L Reiss. 1. Department of Psychiatry and Behavioral Science, Stanford University School of Medicine, Stanford, California 94305-5719, USA.
Abstract
BACKGROUND: Turner syndrome (TuS) arises from the partial or complete absence of one X chromosome. Although neuropsychological studies report impaired attentional function and response inhibition in TuS, the neural correlates of these cognitive problems are unknown. METHODS: Eleven female subjects with TuS and 11 individually matched normal control subjects were imaged using functional magnetic resonance imaging while performing a Go/NoGo task. RESULTS: Groups did not differ on accuracy or reaction time; however, the TuS group activated more in the bilateral superior and middle frontal gyri than control subjects. Control subjects did not activate more than the TuS group in any region. CONCLUSION: These findings suggest that female subjects with TuS compensate for executive dysfunction via recruitment of additional prefrontal cortex regions involved in inhibition, attention, and working memory, functions necessary for successful performance of Go/NoGo tasks. Elucidating brain function in TuS will advance our understanding of the influence of X-chromosome genes on neurodevelopment and brain function and contribute to planning future intervention strategies.
BACKGROUND:Turner syndrome (TuS) arises from the partial or complete absence of one X chromosome. Although neuropsychological studies report impaired attentional function and response inhibition in TuS, the neural correlates of these cognitive problems are unknown. METHODS: Eleven female subjects with TuS and 11 individually matched normal control subjects were imaged using functional magnetic resonance imaging while performing a Go/NoGo task. RESULTS: Groups did not differ on accuracy or reaction time; however, the TuS group activated more in the bilateral superior and middle frontal gyri than control subjects. Control subjects did not activate more than the TuS group in any region. CONCLUSION: These findings suggest that female subjects with TuS compensate for executive dysfunction via recruitment of additional prefrontal cortex regions involved in inhibition, attention, and working memory, functions necessary for successful performance of Go/NoGo tasks. Elucidating brain function in TuS will advance our understanding of the influence of X-chromosome genes on neurodevelopment and brain function and contribute to planning future intervention strategies.
Authors: Susana Carmona; Elseline Hoekzema; J Antoni Ramos-Quiroga; Vanesa Richarte; Clara Canals; Rosa Bosch; Mariana Rovira; Juan Carlos Soliva; Antonio Bulbena; Adolf Tobeña; Miguel Casas; Oscar Vilarroya Journal: Hum Brain Mapp Date: 2011-08-08 Impact factor: 5.038
Authors: Shelli R Kesler; Amy Garrett; Bruce Bender; Jerome Yankowitz; She Min Zeng; Allan L Reiss Journal: Neuropsychologia Date: 2004 Impact factor: 3.139