Non-dominant hand movement facilitates the frontal N30 somatosensory evoked potential

Wynn Legon, Jennifer K. Dionne, Sean K. Meehan, W. Richard Staines

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19 Scopus citations

Abstract

Background: Previous literature has shown that the frontal N30 is increased during movement of the hand contralateral to median nerve stimulation. This finding was a result of non-dominant left hand movement in right-handed participants. It is unclear however if the effect depends upon non-dominant hand movement or if this is a generalized phenomenon across the upper-limbs. This study tests the effect of dominant and non-dominant hand movement upon contralateral frontal and parietal somatosensory evoked potentials (SEPs) and further tests if this relationship persists in left hand dominant participants. Median nerve SEPs were elicited from the wrist contralateral to movement in both right hand and left hand dominant participants alternating the movement hand in separate blocks. Participants were required to volitionally squeeze (~ 20% of a maximal voluntary contraction) a pressure-sensitive bulb every ~3 seconds with the hand contralateral to median nerve stimulation. SEPs were continuously collected during the task and individual traces were grouped into time bins relative to movement according to the timing of components of the Bereitschaftspotential. SEPs were then averaged and quantified from both FCZ and CP3/4 scalp electrode sites during both the squeeze task and at rest.Results: The N30 is facilitated during non-dominant hand movement in both right and left hand dominant individuals. There was no effect for dominant hand movement in either group.Conclusions: N30 amplitude increase may be a result of altered sensory gating from motor areas known to be specifically active during non-dominant hand movement.

Original languageEnglish (US)
Article number112
JournalBMC neuroscience
Volume11
DOIs
StatePublished - Sep 7 2010
Externally publishedYes

Bibliographical note

Funding Information:
The authors would like to thank Mark Linseman for help with data collection. This work was supported by grants to WRS from the Natural Sciences and Engineering Research Council of Canada (NSERC), the Canada Foundation for Innovation, the Ontario Research Fund and the Canada Research Chairs Program. WL and JKD were supported by graduate scholarships from NSERC. SKM was supported by an Ontario Graduate Scholarship.

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