Altered neocortical tactile but preserved auditory early change detection responses in Friedreich ataxia
Ikusi/ Ireki
Data
2019Egilea
Naeije, Gilles
Wens, Vincent
Bourguignon, Mathieu
Goldman, Serge
Pandolfo, Massimo
De Tiège, Xavier
Gilles Naeije, Vincent Wens, Mathieu Bourguignon, Serge Goldman, Massimo Pandolfo, Xavier De Tiège, Altered neocortical tactile but preserved auditory early change detection responses in Friedreich ataxia, Clinical Neurophysiology, Volume 130, Issue 8, 2019, Pages 1299-1310, ISSN 1388-2457, https://doi.org/10.1016/j.clinph.2019.05.003.
Laburpena
Objective: To study using magnetoencephalography (MEG) the spatio-temporal dynamics of neocortical
responses involved in sensory processing and early change detection in Friedreich ataxia (FRDA).
Methods: Tactile (TERs) and auditory (AERs) evoked responses, and early neocortical change detection
responses indexed by the mismatch negativity (MMN) were recorded using tactile and auditory oddballs
in sixteen FRDA patients and matched healthy subjects. Correlations between the maximal amplitude of
each response, genotype and clinical parameters were investigated.
Results: Evoked responses were detectable in all FRDA patients but one. In patients, TERs were delayed
and reduced in amplitude, while AERs were only delayed. Only tactile MMN responses at the contralateral
secondary somatosensory cortex were altered in FRDA patients. Maximal amplitudes of TERs, AERs
and tactile MMN correlated with genotype, but did not correlate with clinical parameters.
Conclusions: In FRDA, the amplitude of tactile MMN responses at SII cortex are reduced and correlate
with the genotype, while auditory MMN responses are not altered.
Significance: Somatosensory pathways and tactile early change detection are selectively impaired in
FRDA