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Frequency Change Detection in Human Auditory Cortex
Authors:Patrick May  Hannu Tiitinen  Risto J. Ilmoniemi  Göte Nyman  John G. Taylor  Risto Näätänen
Affiliation:(1) Department of Mathematics, King's College London, Strand, London, WC2R 2LS, UK;(2) Cognitive Brain Research Unit, Department of Psychology, University of Helsinki, P.O. Box 13, FIN-00014, Finland;(3) BioMag Laboratory, Medical Engineering Centre, Helsinki University Central Hospital, Tukholmankatu 8 F, FIN-00290 Helsinki, Finland;(4) Department of Psychology, University of Helsinki, Finland;(5) Department of Mathematics, King's College London, Strand, London, WC2R 2LS, UK;(6) Cognitive Brain Research Unit, Department of Psychology, University of Helsinki, P.O. Box 13, FIN-00014, Finland
Abstract:We offer a model of how human cortex detects changes in the auditory environment. Auditory change detection has recently been the object of intense investigation via the mismatch negativity (MMN). MMN is a preattentive response to sudden changes in stimulation, measured noninvasively in the electroencephalogram (EEG) and the magnetoencephalogram (MEG). It is elicited in the oddball paradigm, where infrequent deviant tones intersperse a series of repetitive standard tones. However, little apart from the participation of tonotopically organized auditory cortex is known about the neural mechanisms underlying change detection and the MMN. In the present study, we investigate how poststimulus inhibition might account for MMN and compare the effects of adaptation with those of lateral inhibition in a model describing tonotopically organized cortex. To test the predictions of our model, we performed MEG and EEG measurements on human subjects and used both small- (<1/3 octave) and large- (>5 octaves) frequency differences between the standard and deviant tones. The experimental results bear out the prediction that MMN is due to both adaptation and lateral inhibition. Finally, we suggest that MMN might serve as a probe of what stimulus features are mapped by human auditory cortex.
Keywords:adaptation  auditory cortex  change detection  lateral inhibition  mismatch negativity  MMN
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