Recent research has indicated that the mismatch negativity (MMN) is elicited in response to a discernible small change of a somatosensory stimulus applied on the hand. However, the neural mechanism for detecting small change of somatosensory stimulus remains unknown. In the present study, we developed a novel pressure stimulation device using air jet applied on the index finger pad, and determined the just noticeable differences (JNDs) of pressure discrimination for each subject. Using the deviant-standard-reversed oddball paradigm, we analyzed the average dynamic changes in MMN amplitude and changes of evoked spectral power. We found a clear MMN component at the frontal and central regions at 100-300 msec after deviant stimulus presentation. Statistical tests showed that theta band activity played pivotal roles in the generation of the MMN elicited by a change in somatosensory pressure stimulation. Our results indicate that the somatosensory discriminatory process reflected on MMN is accompanied by phase-locked oscillation at the theta frequency.
Keywords: Event-related potentials; Mismatch negativity; Pressure stimulation; Theta oscillation; Time-frequency analysis; Wavelet transform.
Copyright © 2019. Published by Elsevier B.V.