Cortical differentiation of speech and nonspeech sounds at 100 ms: implications for dyslexia

doi:10.1093/cercor/bhh206

Cerebral Cortex Advance Access published online on November 24, 2004
Cerebral Cortex, doi:10.1093/cercor/bhh206
© 2004 by Oxford University Press

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Article

Cortical differentiation of speech and nonspeech sounds at 100 ms: implications for dyslexia

Tiina Parviainen ¹^*, Päivi Helenius ¹, and Riitta Salmelin ¹

¹ Brain Research Unit, Low Temperature Laboratory, Helsinki University of Technology, Espoo, Finland

^* To whom correspondence should be addressed.
Tiina Parviainen, E-mail: tiina{at}neuro.hut.fi

Abstract

Neurophysiological measures indicate cortical sensitivity tospeech sounds by 150 ms after stimulus onset. In this time windowdyslexic subjects start to show abnormal cortical processing.We investigated whether phonetic analysis is reflected in therobust auditory cortical activation at $~$ 100 ms (N100m), and whetherdyslexic subjects show abnormal N100m responses to speech ornonspeech sounds. We used magnetoencephalography to record auditoryresponses of 10 normally reading and 10 dyslexic adults. Thespeech stimuli were synthetic Finnish speech sounds (/a/, /u/,/pa/, /ka/). The nonspeech stimuli were complex nonspeech soundsand simple sine wave tones, composed of the F1+F2+F3 and F2formant frequencies of the speech sounds, respectively. Allsounds evoked a prominent N100m response in the bilateral auditorycortices. The N100m activation was stronger to speech than nonspeechsounds in the left but not in the right auditory cortex, inboth subject groups. The leftward shift of hemispheric balancefor speech sounds is likely to reflect analysis at the phoneticlevel. In dyslexic subjects the overall interhemispheric amplitudebalance and timing were altered for all sound types alike. Dyslexicindividuals thus seem to have an unusual cortical organizationof general auditory processing in the time window of speech-sensitiveanalysis.

Keywords: dyslexia; MEG; N100; speech perception.

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