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Multimodal Magnetic Resonance Imaging reveals alterations of sensorimotor circuits in restless legs syndrome.

Publication ,  Journal Article
Stefani, A; Mitterling, T; Heidbreder, A; Steiger, R; Kremser, C; Frauscher, B; Gizewski, ER; Poewe, W; Högl, B; Scherfler, C
Published in: Sleep
December 24, 2019

STUDY OBJECTIVES: Integrated information on brain microstructural integrity and iron storage and its impact on the morphometric profile is not available in restless legs syndrome (RLS). We applied multimodal magnetic resonance imaging (MRI) including diffusion tensor imaging, the transverse relaxation rate (R2*), a marker for iron storage, as well as gray and white matter volume measures to characterize RLS-related MRI signal distribution patterns and to analyze their associations with clinical parameters. METHODS: Eighty-seven patients with RLS (mean age 51, range 20-72 years; disease duration, mean 13 years, range 1-46 years, of those untreated n = 30) and 87 healthy control subjects, individually matched for age and gender, were investigated with multimodal 3T MRI. RESULTS: Volume of the white matter compartment adjacent to the post- and precentral cortex and fractional anisotropy (FA) of the frontopontine tract were both significantly reduced in RLS compared to healthy controls, and these alterations were associated with disease duration (r = 0.25, p = 0.025 and r = 0.23, p = 0.037, respectively). Corresponding gray matter volume increases of the right primary motor cortex in RLS (p < 0.001) were negatively correlated with the right FA signal of the frontopontine tract (r = -0.22; p < 0.05). Iron content evaluated with R2* was reduced in the putamen as well as in temporal and occipital compartments of the RLS cohort compared to the control group (p < 0.01). CONCLUSIONS: Multimodal MRI identified progressing white matter decline of key somatosensory circuits that may underlie the perception of sensory leg discomfort. Increases of gray matter volume of the premotor cortex are likely to be a consequence of functional neuronal reorganization.

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Published In

Sleep

DOI

EISSN

1550-9109

Publication Date

December 24, 2019

Volume

42

Issue

12

Location

United States

Related Subject Headings

  • Young Adult
  • White Matter
  • Restless Legs Syndrome
  • Neurology & Neurosurgery
  • Nerve Net
  • Multimodal Imaging
  • Motor Cortex
  • Middle Aged
  • Male
  • Magnetic Resonance Imaging
 

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Stefani, A., Mitterling, T., Heidbreder, A., Steiger, R., Kremser, C., Frauscher, B., … Scherfler, C. (2019). Multimodal Magnetic Resonance Imaging reveals alterations of sensorimotor circuits in restless legs syndrome. Sleep, 42(12). https://doi.org/10.1093/sleep/zsz171
Stefani, Ambra, Thomas Mitterling, Anna Heidbreder, Ruth Steiger, Christian Kremser, Birgit Frauscher, Elke R. Gizewski, Werner Poewe, Birgit Högl, and Christoph Scherfler. “Multimodal Magnetic Resonance Imaging reveals alterations of sensorimotor circuits in restless legs syndrome.Sleep 42, no. 12 (December 24, 2019). https://doi.org/10.1093/sleep/zsz171.
Stefani A, Mitterling T, Heidbreder A, Steiger R, Kremser C, Frauscher B, et al. Multimodal Magnetic Resonance Imaging reveals alterations of sensorimotor circuits in restless legs syndrome. Sleep. 2019 Dec 24;42(12).
Stefani, Ambra, et al. “Multimodal Magnetic Resonance Imaging reveals alterations of sensorimotor circuits in restless legs syndrome.Sleep, vol. 42, no. 12, Dec. 2019. Pubmed, doi:10.1093/sleep/zsz171.
Stefani A, Mitterling T, Heidbreder A, Steiger R, Kremser C, Frauscher B, Gizewski ER, Poewe W, Högl B, Scherfler C. Multimodal Magnetic Resonance Imaging reveals alterations of sensorimotor circuits in restless legs syndrome. Sleep. 2019 Dec 24;42(12).
Journal cover image

Published In

Sleep

DOI

EISSN

1550-9109

Publication Date

December 24, 2019

Volume

42

Issue

12

Location

United States

Related Subject Headings

  • Young Adult
  • White Matter
  • Restless Legs Syndrome
  • Neurology & Neurosurgery
  • Nerve Net
  • Multimodal Imaging
  • Motor Cortex
  • Middle Aged
  • Male
  • Magnetic Resonance Imaging