Complementary fMRI and EEG evidence for more efficient neural processing of rhythmic vs. unpredictably timed sounds

N. van Atteveldt*, G. Musacchia, E. Zion-Golumbic, P. Sehatpour, D.C. Javitt, C. Schroeder

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

The brain's fascinating ability to adapt its internal neural dynamics to the temporal structure of the sensory environment is becoming increasingly clear. It is thought to be metabolically beneficial to align ongoing oscillatory activity to the relevant inputs in a predictable stream, so that they will enter at optimal processing phases of the spontaneously occurring rhythmic excitability fluctuations. However, some contexts have a more predictable temporal structure than others. Here, we tested the hypothesis that the processing of rhythmic sounds is more efficient than the processing of irregularly timed sounds. To do this, we simultaneously measured functional magnetic resonance imaging (fMRI) and electro-encephalograms (EEG) while participants detected oddball target sounds in alternating blocks of rhythmic (e.g., with equal inter-stimulus intervals) or random (e.g., with randomly varied inter-stimulus intervals) tone sequences. Behaviorally, participants detected target sounds faster and more accurately when embedded in rhythmic streams. The fMRI response in the auditory cortex was stronger during random compared to random tone sequence processing. Simultaneously recorded N1 responses showed larger peak amplitudes and longer latencies for tones in the random (vs. the rhythmic) streams. These results reveal complementary evidence for more efficient neural and perceptual processing during temporally predictable sensory contexts.
Original languageEnglish
Article number1663
Number of pages11
JournalFrontiers in Psychology
Volume6
DOIs
Publication statusPublished - 27 Oct 2015

Keywords

  • EEG
  • fMRI
  • temporal context
  • sound processing
  • rhythm
  • auditory cortex
  • PRIMARY AUDITORY-CORTEX
  • NEURONAL OSCILLATIONS
  • SELECTIVE-ATTENTION
  • BRAIN-STEM
  • MISMATCH NEGATIVITY
  • VISUAL-CORTEX
  • FREQUENCY
  • PERFORMANCE
  • POTENTIALS
  • PERCEPTION

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