Left Superior Temporal Gyrus Is Coupled to Attended Speech in a Cocktail-Party Auditory Scene
Date
2016Author
Ghinst, Marc Vander
Bourguignon, Mathieu
Op de Beeck, Marc
Wens, Vincent
Marty, Brice
Hassid, Sergio
Choufani, Georges
Jousmäki, Veikko
Hari, Riitta
Bogaert, Patrick Van
Goldman, Serge
De Tiège, Xavier
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Marc Vander Ghinst, Mathieu Bourguignon, Marc Op de Beeck, Vincent Wens, Brice Marty, Sergio Hassid, Georges Choufani, Veikko Jousmäki, Riitta Hari, Patrick Van Bogaert, Serge Goldman, Xavier De Tiège Journal of Neuroscience 3 February 2016, 36 (5) 1596-1606; DOI: 10.1523/JNEUROSCI.1730-15.2016
Abstract
Using a continuous listening task, we evaluated the coupling between the listener’s cortical activity and the temporal envelopes of
different sounds in a multitalker auditory scene using magnetoencephalography and corticovocal coherence analysis. Neuromagnetic
signals were recorded from 20 right-handed healthy adult humans who listened to five different recorded stories (attended speech
streams), one without any multitalker background (No noise) and four mixed with a “cocktail party” multitalker background noise at
four signal-to-noise ratios (5, 0, 5, and 10 dB) to produce speech-in-noise mixtures, here referred to as Global scene. Coherence
analysis revealed that the modulations of the attended speech stream, presented without multitalker background, were coupled at 0.5
Hz to the activity of both superior temporal gyri, whereas the modulations at 4–8 Hz were coupled to the activity of the right supratemporal
auditory cortex. In cocktail party conditions, with the multitalker background noise, the coupling was at both frequencies stronger
for the attended speech stream than for the unattended Multitalker background. The coupling strengths decreased as the Multitalker
background increased. During the cocktail party conditions, the 0.5 Hz coupling became left-hemisphere dominant, compared with
bilateral coupling without the multitalker background, whereas the 4–8 Hz coupling remained right-hemisphere lateralized in both
conditions. The brain activity was not coupled to the multitalker background or to its individual talkers. The results highlight the key role
of listener’s left superior temporal gyri in extracting the slow 0.5 Hz modulations, likely reflecting the attended speech stream within a
multitalker auditory scene.