Current Biology
Volume 21, Issue 7, 12 April 2011, Pages 580-585
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Compensatory Neural Reorganization in Tourette Syndrome

https://doi.org/10.1016/j.cub.2011.02.047Get rights and content
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Summary

Children with neurological disorders may follow unique developmental trajectories whereby they undergo compensatory neuroplastic changes in brain structure and function that help them gain control over their symptoms [1, 2, 3, 4, 5, 6]. We used behavioral and brain imaging techniques to investigate this conjecture in children with Tourette syndrome (TS). Using a behavioral task that induces high levels of intermanual conflict, we show that individuals with TS exhibit enhanced control of motor output. Then, using structural (diffusion-weighted imaging) brain imaging techniques, we demonstrate widespread differences in the white matter (WM) microstructure of the TS brain that include alterations in the corpus callosum and forceps minor (FM) WM that significantly predict tic severity in TS. Most importantly, we show that task performance for the TS group (but not for controls) is strongly predicted by the WM microstructure of the FM pathways that lead to the prefrontal cortex and by the functional magnetic resonance imaging blood oxygen level-dependent response in prefrontal areas connected by these tracts. These results provide evidence for compensatory brain reorganization that may underlie the increased self-regulation mechanisms that have been hypothesized to bring about the control of tics during adolescence.

Highlights

► We combine behavioral studies with structural and functional neuroimaging ► We report enhanced cognitive control in children with Tourette syndrome ► Frontal lobe white-matter microstructure predicts tic severity in Tourette syndrome ► Frontal lobe white-matter and fMRI BOLD predict cognitive control in Tourette syndrome

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