Contributions of listening effort and intelligibility to cortical tracking of speech in adverse listening conditions
Date
2024Author
Ershaid, Hadeel
Lizarazu, Mikel
McLaughlin, Drew J.
Cooke, Martin
Simantiraki, Olympia
Koutsogiannaki, Maria
Lallier, Marie
Metadata
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Ershaid, H., Lizarazu, M., McLaughlin, D.J., Cooke, M., Simantiraki, O., Koutsogiannaki, M., & Lallier, M. (2024). Contributions of Listening Effort and Intelligibility to Cortical Tracking of Speech in Adverse Listening Conditions. Cortex, 172, 54-57. Doi:10.1016/j.cortex.2023.11.018
Cortex
Cortex
Abstract
Cortical tracking of speech is vital for speech segmentation and is linked to speech intelligibility. However, there is no clear consensus as to whether reduced intelligibility leads to a decrease or an increase in cortical speech tracking, warranting further investigation of the factors influencing this relationship. One such factor is listening effort, defined as the cognitive resources necessary for speech comprehension, and reported to have a strong negative correlation with speech intelligibility. Yet, no studies have examined the relationship between speech intelligibility, listening effort, and cortical tracking of speech. The aim of the present study was thus to examine these factors in quiet and distinct adverse listening conditions. Forty-nine normal hearing adults listened to sentences produced casually, presented in quiet and two adverse listening conditions: cafeteria noise and reverberant speech. Electrophysiological responses were registered with electroencephalogram, and listening effort was estimated subjectively using self-reported scores and objectively using pupillometry. Results indicated varying impacts of adverse conditions on intelligibility, listening effort, and cortical tracking of speech, depending on the preservation of the speech temporal envelope. The more distorted envelope in the reverberant condition led to higher listening effort, as reflected in higher subjective scores, increased pupil diameter, and stronger cortical tracking of speech in the delta band. These findings suggest that using measures of listening effort in addition to those of intelligibility is useful for interpreting cortical tracking of speech results. Moreover, reading and phonological skills of participants were positively correlated with listening effort in the cafeteria condition, suggesting a special role of expert language skills in processing speech in this noisy condition. Implications for future research and theories linking atypical cortical tracking of speech and reading disorders are further discussed.