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Abstract
Objective To assess with magnetoencephalography the developmental vs progressive character of the impairment of spinocortical proprioceptive pathways in Friedreich ataxia (FRDA).
Methods Neuromagnetic signals were recorded from 16 right-handed patients with FRDA (9 female patients, mean age 27 years, mean Scale for the Assessment and Rating Of ataxia [SARA] score 22.25) and matched healthy controls while they performed right finger movements either actively or passively. The coupling between movement kinematics (i.e., acceleration) and neuromagnetic signals was assessed by the use of coherence at sensor and source levels. Such coupling, that is, the corticokinematic coherence (CKC), specifically indexes proprioceptive afferent inputs to the contralateral primary sensorimotor (cSM1) cortex. Nonparametric permutations and Spearman rank correlation test were used for statistics.
Results In both groups of participants and movement conditions, significant coupling peaked at the cSM1 cortex. Coherence levels were 70% to 75% lower in patients with FRDA than in healthy controls in both movement conditions. In patients with FRDA, coherence levels correlated with genotype alteration (i.e., the size of GAA1 triplet expansion) and the age at symptom onset but not with disease duration or SARA score.
Conclusion This study provides electrophysiologic evidence demonstrating that proprioceptive impairment in FRDA is mostly genetically determined and scarcely progressive after symptom onset. It also positions CKC as a reliable, robust, specific marker of proprioceptive impairment in FRDA.
Glossary
- ANOVA=
- analysis of variance;
- CKC=
- corticokinematic coherence;
- cSM1=
- contralateral primary sensorimotor;
- FRDA=
- Friedreich ataxia;
- FWHM=
- full width at half-maximum;
- FXN=
- frataxin;
- DRG=
- dorsal root ganglia;
- iSM1=
- ipsilateral primary sensorimotor;
- MEG=
- magnetoencephalography;
- PAM=
- pneumatic artificial muscle;
- SARA=
- Scale for the Assessment and Rating of Ataxia;
- SEP=
- somatosensory evoked potential
Footnotes
Go to Neurology.org/N for full disclosures. Funding information and disclosures deemed relevant by the authors, if any, are provided at the end of the article.
↵* These authors contributed equally to this work.
Editorial, page 49
- Received September 27, 2018.
- Accepted in final form February 25, 2019.
- © 2019 American Academy of Neurology
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