Objectives: Brain responses to auditory and visual stimuli have been previo
usly shown to depend on the level of spontaneous brain activity in the 8-13
Hz range. Our aim was to determine whether somatosensory evoked responses
are influenced by ongoing rhythmic activity in the 8-13 Hz frequency range
originating in the sensorimotor cortex (mu rhythm).
Methods: We used a whole-head 122 channel magnetoencephalography (MEG) syst
em to record somatosensory evoked fields (SEFs) in response to median nerve
stimulation in 11 subjects. Spontaneous oscillations in the 8-13 Hz band o
ver the contralateral sensorimotor cortex were evaluated in 3 different pre
-stimulus time intervals using wavelet analysis.
Results: The N20m SEF deflection did not depend on pre-stimulus activity, w
hile the amplitude of the P35m deflection, and to a lesser extent that of t
he P60m deflection, showed a small positive correlation with the amplitude
of the pre-stimulus mu rhythm. Although the amplitude of the mu rhythm vari
ed by a factor of 2.3-5, the maximum variations in P35m and P60m amplitude
were only 21 and 12%, respectively. The latencies of the peaks were not aff
ected by the strength of the pre-stimulus mu rhythm.
Conclusions: It appears that the first excitatory cortical response (N20m)
is independent of the oscillatory state (8-13 Hz frequency range) of the se
nsorimotor cortex. Later parts of the response (P35m and P60m) are also rel
atively stable compared with the large variations in mu rhythm. (C) 2000 El
sevier Science Ireland Ltd. All rights reserved.