Abstract
Cross-modal interaction occurs during the early stages of processing in the sensory cortex; however, its effect on neuronal activity speed remains unclear. We used magnetoencephalography to investigate whether auditory stimulation influences the initial cortical activity in the primary somatosensory cortex. A 25-ms pure tone was randomly presented to the left or right side of healthy volunteers at 1000 ms when electrical pulses were applied to the left or right median nerve at 20 Hz for 1500 ms because we did not observe any cross-modal effect elicited by a single pulse. The latency of N20 m originating from Brodmann’s area 3b was measured for each pulse. The auditory stimulation significantly shortened the N20 m latency at 1050 and 1100 ms. This reduction in N20 m latency was identical for the ipsilateral and contralateral sounds for both latency points. Therefore, somatosensory–auditory interaction, such as input to the area 3b from the thalamus, occurred during the early stages of synaptic transmission. Auditory information that converged on the somatosensory system was considered to have arisen from the early stages of the feedforward pathway. Acceleration of information processing through the cross-modal interaction seemed to be partly due to faster processing in the sensory cortex.
Highlights
Humans receive several multisensory signals including, visual, audible, and tactile stimuli
median nerve (MN) stimulation induced a clear early component, which peaked at approximately 23 ms (N20 m)
The original MEG and source-strength waveforms for stimulus combination: 1-dipole model (S1) belonging to one participant are shown in Fig. 1 as an example
Summary
Humans receive several multisensory signals including, visual, audible, and tactile stimuli. FMRI and transcranial magnetic stimulation studies have revealed multisensory interactions in the visual cortex[25,26,27]. These findings suggest that the convergence of sensory information from different modalities occurs during the early stages of sensory processing. Studies using cross-modal mismatch negativity paradigms have reported that auditory and somatosensory interactions take place in unisensory areas in humans[34,35]. The somatosensory system showed a considerable advantage over the auditory and visual systems in the present study because the initial cortical activity can be and clearly observed even during repetitive stimulations[42,43,44]. We hypothesized that auditory stimulation shortens the latency of N20 m due to the accelerative nature of cross-modal interaction[45]
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