Abstract
BackgroundPrevious 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.ResultsThe 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.ConclusionsN30 amplitude increase may be a result of altered sensory gating from motor areas known to be specifically active during non-dominant hand movement.
Highlights
Previous literature has shown that the frontal N30 is increased during movement of the hand contralateral to median nerve stimulation
No latency differences were observed for any of the somatosensory evoked potentials (SEPs) measured and M-wave amplitudes (an electromyographic (EMG) wave resulting from the direct stimulation of the motoneuronal axons serving the thenar musculature) displayed no differences across conditions
The between subjects effect was driven by a larger N30 amplitude as a whole for the left-handed group collapsed across movement hand and timing epochs relative to control (116% vs. 102% (t (126) = 1.99, = 0.05))
Summary
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 righthanded participants. Legon et al [18] demonstrated that N30 facilitation only occurs during but not before or after voluntary movement, suggesting an influence of motor cortical activity as a result of contralateral hand movement. It is unclear if N30 facilitation is contingent upon the relationship between the side of sensory input and motor output as a reversal of sensory input and motor output across the upper limbs was not investigated. Use of the non-dominant hand results in unique recruitment of basal-ganglia nuclei [20], SMA [21], ipsilateral motor cortex [22,23] and subsequent differences in inter-hemispheric inhibition between motor cortices both before and during movement [24,25]
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