Effects of Task Demands on Neural Correlates of Acoustic and Semantic Processing in Challenging Listening Conditions

Purpose: Listeners shift their listening strategies between lower level acoustic information and higher level semantic information to prioritize maximum speech intelligibility in challenging listening conditions. Although increasing task demands via acoustic degradation modulates lexical-semantic pr...

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Bibliographic Details
Published in:Journal of speech, language, and hearing research language, and hearing research, 2021-09, Vol.64 (9), p.3697-3706
Main Authors: Devaraju, Dhatri S, Kemp, Amy, Eddins, David A, Shrivastav, Rahul, Chandrasekaran, Bharath, Wray, Amanda Hampton
Format: Article
Language:English
Subjects:
Acoustics
Adults
Amplitude (Acoustics)
Auditory Perception
Auditory Stimuli
Brain Hemisphere Functions
Correlation
Cues
Diagnostic Tests
Difficulty Level
Electroencephalography
Encoding (Cognitive process)
Feedback (Response)
Hearing loss
Intelligibility
Language Processing
Lexical semantics
Listening
Listening Comprehension
Listening strategies
Native Speakers
Neurophysiology
Observations
Perceptions
Phonemes
Phonetics
Phonology
Physiological aspects
Reaction Time
Semantic differential
Semantic processing
Semantics
Semiotics
Sentences
Signal to noise ratio
Singing
Speech
Speech Communication
Speech perception
Task Analysis
Vocabulary
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Summary:Purpose: Listeners shift their listening strategies between lower level acoustic information and higher level semantic information to prioritize maximum speech intelligibility in challenging listening conditions. Although increasing task demands via acoustic degradation modulates lexical-semantic processing, the neural mechanisms underlying different listening strategies are unclear. The current study examined the extent to which encoding of lower level acoustic cues is modulated by task demand and associations with lexical-semantic processes. Method: Electroencephalography was acquired while participants listened to sentences in the presence of four-talker babble that contained either higher or lower probability final words. Task difficulty was modulated by time available to process responses. Cortical tracking of speech-neural correlates of acoustic temporal envelope processing--were estimated using temporal response functions. Results: Task difficulty did not affect cortical tracking of temporal envelope of speech under challenging listening conditions. Neural indices of lexical-semantic processing (N400 amplitudes) were larger with increased task difficulty. No correlations were observed between the cortical tracking of temporal envelope of speech and lexical-semantic processes, even after controlling for the effect of individualized signal-to-noise ratios. Conclusions: Cortical tracking of the temporal envelope of speech and semantic processing are differentially influenced by task difficulty. While increased task demands modulated higher level semantic processing, cortical tracking of the temporal envelope of speech may be influenced by task difficulty primarily when the demand is manipulated in terms of acoustic properties of the stimulus, consistent with an emerging perspective in speech perception.
ISSN:1092-4388
1558-9102
DOI:10.1044/2021_JSLHR-21-00006