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Author Notes:

Correspondence: H. A. Jinnah, hjinnah@emory.edu.

For author contributions and acknowledgments, please see the full article.

Conflict of Interest Statement: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The reviewer (GM) and handling Editor declared their shared affiliation, and the handling Editor states that the process nevertheless met the standards of a fair and objective review.

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Research Funding:

This study was supported by the Office of Rare Diseases Research in the National Center for Advancing Translational Sciences (U54 TR001456) and the National Institute of Neurological Disorders and Stroke at the National Institutes of Health (U54 NS065701 and U54 NS065701-03S1); the Emory University Research Committee (URC) (UL1 RR025008); and the Pilot Projects Program from the Emory Biomedical Imaging Technology Center.

We also acknowledge support from the Veterans Administration to KS and the Sartain Lanier Foundation to SAF.

Keywords:

  • Life Sciences & Biomedicine
  • Clinical Neurology
  • Neurosciences
  • Neurosciences & Neurology
  • cervical dystonia
  • spasmodic torticollis
  • head movements
  • fMRI
  • isometric
  • cerebellum
  • CEREBRAL GLUCOSE-METABOLISM
  • GRAY-MATTER CHANGES
  • SPASMODIC TORTICOLLIS
  • FOCAL DYSTONIA
  • CEREBELLAR DYSFUNCTION
  • BASAL-GANGLIA
  • INHIBITION
  • ACTIVATION

A Functional Magnetic Resonance Imaging Study of Head Movements in Cervical Dystonia

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Journal Title:

Frontiers in Neurology

Volume:

Volume 7, Number NOV

Publisher:

, Pages 201-201

Type of Work:

Article | Final Publisher PDF

Abstract:

Cervical dystonia (CD) is a neurological disorder characterized by abnormal movements and postures of the head. The brain regions responsible for these abnormal movements are not well understood, because most imaging techniques for assessing regional brain activity cannot be used when the head is moving. Recently, we mapped brain activation in healthy individuals using functional magnetic resonance imaging during isometric head rotation, when muscle contractions occur without actual head movements. In the current study, we used the same methods to explore the neural substrates for head movements in subjects with CD who had predominantly rotational abnormalities (torticollis). Isometric wrist extension was examined for comparison. Electromyography of neck and hand muscles ensured compliance with tasks during scanning, and any head motion was measured and corrected. Data were analyzed in three steps. First, we conducted within-group analyses to examine task-related activation patterns separately in subjects with CD and in healthy controls. Next, we directly compared task-related activation patterns between participants with CD and controls. Finally, considering that the abnormal head movements in CD occur in a consistently patterned direction for each individual, we conducted exploratory analyses that involved normalizing data according to the direction of rotational CD. The between-group comparisons failed to reveal any significant differences, but the normalization procedure in subjects with CD revealed that isometric head rotation in the direction of dystonic head rotation was associated with more activation in the ipsilateral anterior cerebellum, whereas isometric head rotation in the opposite direction was associated with more activity in sensorimotor cortex. These findings suggest that the cerebellum contributes to abnormal head rotation in CD, whereas regions in the cerebral cortex are involved in opposing the involuntary movements.

Copyright information:

© 2016 Prudente, Stilla, Singh, Buetefisch, Evatt, Factor, Freeman, Hu, Hess, Sathian and Jinnah.

This is an Open Access work distributed under the terms of the Creative Commons Attribution 4.0 International License (https://creativecommons.org/licenses/by/4.0/).
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