Preserved Coupling between the Reader's Voice and the Listener's Cortical Activity in Autism Spectrum Disorders

Research output: Contribution to journalArticleScientificpeer-review

Researchers

  • Catherine Clumeck
  • Sarah Suarez Garcia
  • Mathieu Bourguignon
  • Vincent Wens
  • Marc Op de Beeck
  • Brice Marty
  • Nicolas Deconinck
  • Marie-Vincianne Soncarrieu
  • Serge Goldman
  • Veikko Jousmäki

  • Patrick Van Bogaert
  • Xavier De Tiege

Research units

Abstract

Purpose

Investigating the steadiness of the phase-coupling between the time-course of the reader's voice and brain signals of subjects with autism spectrum disorder (ASD) passively listening to connected speech using magnetoencephalography (MEG). In typically developed subjects, such coupling occurs at the right posterior temporal sulcus (pSTS) for frequencies below 1 Hz, and reflects the neural processing of sentence-level rhythmic prosody at the prelexical level.

Methods

Cortical neuromagnetic signals were recorded with MEG (Elekta Oy, Finland) while seven right-handed and native French-speaking ASD subjects (six males, one female, range: 13–20 years) listened to live (Live) or recorded (Recorded) voices continuously reading a text in French for five minutes. Coherence was computed between the reader's voice time-course and ASD subjects' MEG signals. Coherent neural sources were subsequently reconstructed using a beamformer.

Key findings

Significant coupling was found at 0.5 Hz in all ASD subjects in Live and in six subjects in Recorded. Coherent sources were located close to the right pSTS in both conditions. No significant difference was found in coherence levels between Live and Recorded, and between ASD subjects and ten typically developed subjects (right-handed, native French-speaking adults, 5 males, 5 females, age range: 21–38 years) included in a previous study.

Significance

This study discloses a preserved coupling between the reader's voice and ASD subjects' cortical activity at the right pSTS. These findings support the existence of preserved neural processing of sentence-level rhythmic prosody in ASD. The preservation of early cortical processing of prosodic elements in verbal language might be exploited in therapeutic interventions in ASD.

Details

Original languageEnglish
Article numbere92329
Pages (from-to)1-8
JournalPloS one
Volume9
Issue number3
Publication statusPublished - 2014
MoE publication typeA1 Journal article-refereed

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