Abstract
Multisensory perception is shaped by both attentional selection of relevant sensory inputs and exploitation of stimulus-driven factors that promote cross-modal binding. Underlying mechanisms of both top-down and bottom-up modulations have been linked to changes in alpha/gamma dynamics in primary sensory cortices and temporoparietal cortex. Accordingly, it has been proposed that alpha oscillations provide pulsed inhibition for gamma activity and thereby dynamically route cortical information flow. In this study, we employed a recently introduced multisensory paradigm incorporating both bottom-up and top-down aspects of cross-modal attention in an EEG study. The same trimodal stimuli were presented in two distinct attentional conditions, focused on visual-tactile or audio-visual components, for which cross-modal congruence of amplitude changes had to be evaluated. Neither top-down nor bottom-up cross-modal attention modulated alpha or gamma power in primary sensory cortices. Instead, we found alpha band effects in bilateral frontal and right parietal cortex. We propose that frontal alpha oscillations reflect the origin of top-down control regulating perceptual gains and that modulations of parietal alpha oscillations relates to intersensory re-orienting. Taken together, we suggest that the idea of selective cortical routing via alpha oscillations can be extended from sensory cortices to the frontoparietal attention network.
Highlights
Human perception is governed by constant influx of information through multiple sensory channels
It was proposed that alpha oscillations might inhibit cortical processing in a cyclic manner delivering pulsed inhibition to gamma oscillations involved in local cortical processing[10]
We did not find alpha/gamma oscillations in primary sensory areas to be modulated by bottom-up or top-down cross-modal attention
Summary
Human perception is governed by constant influx of information through multiple sensory channels. MEG and EEG studies have shown that gain regulation can be reflected in alpha band dynamics[4] This has been demonstrated in several studies with respect to anticipatory biasing of visual processing in visuospatial cueing[5,6,7,8]. In a recent study on audio-visual matching, we demonstrated that top-down attention modulated alpha/ gamma power in sensory regions while cross-modal congruence affected right temporal beta band coupling[28]. These findings are well in line with the literature reviewed above. As a bottom-up effect of cross-modal binding, beta/gamma band activity in sensory cortices or temporal/parietal cortex is expected to be modulated by cross-modal congruence
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