Abstract
Individuals with normal hearing exhibit considerable variability in their capacity to understand speech in noisy environments. Previous research suggests the cause of this variance may be due to individual differences in cognition and auditory perception. To investigate the impact of cognitive and perceptual differences on speech comprehension, 25 adult human participants with normal hearing completed numerous cognitive and psychoacoustic tasks including the Flanker, Stroop, Trail Making, Reading Span, and temporal fine structure (TFS) tests. They also completed a continuous multi-talker spatial attention task while neural activity was recorded using electroencephalography (EEG). The auditory cortical N1 response was extracted as a measure of neural speech encoding during continuous speech listening using an engineered “chirped-speech” (Cheech) stimulus. We compared N1 component morphologies of target and masker speech stimuli to assess neural correlates of attentional gains while listening to concurrently played short story narratives. Performance on cognitive and psychoacoustic tasks were used to predict N1 component amplitude differences between attended and unattended speech using multiple regression. Results show inhibitory control and working memory abilities can predict N1 amplitude differences between the target and masker stories. Interestingly, none of the cognitive and psychoacoustic predictors correlated with behavioral speech-in-noise listening performance in the attention task, suggesting that neural measures may capture different aspects of cognitive and auditory processing compared to behavioral measures alone.
Significance statement These findings contribute to our understanding of how cognition affects the neural encoding of auditory selective attention during speech perception. Specifically, our results highlight the complex interplay between cognitive abilities and neural encoding of speech in challenging listening environments with multiple speakers. By incorporating these additional measures of cognition, we can achieve a more comprehensive understanding of an individual’s speech perception abilities, even in individuals with normal hearing. This approach could lead to earlier detection of hearing issues and more personalized interventions, ultimately enhancing communication outcomes for those with hearing difficulty.
Footnotes
This work was supported by the Office of the Assistant Secretary of Defense for Health Affairs through the Congressionally Directed Medical Research Program (CDMRP) Hearing Restoration Research Program (HRRP) under Award No. W81XWH-20-1-0485 (to LMM). Opinions, interpretations, conclusions, and recommendations are those of the author and are not necessarily endorsed by the Department of Defense. This work was also supported by the Child Family Fund for the Center for Mind & Brain (to LMM). The authors would like to thank members of the University of California, Davis Health audiology and clinical research team for performing initial hearing evaluations of our participants: Dr. Robert Ivory, Au.D., Dr. Mackenzie Quinn, Au.D., Dr. Rachel Krager, Au.D., Dr. Steven Zurawski, Au.D., Dr. Austin Childers, Au.D., Dr. Kimberly Smith, Au.D., Randev Sandhu, and Angela Beliveau. We extend our thanks to Cathleen Chan and Jillian McKie for their assistance in data collection. We are also grateful to Elyse Ehlert and Tiana Smith for their efforts in participant recruitment. We would like to acknowledge Sophie Burstein, Alicia Dye, Reina Itakura, Zachary McNaughton, Ferdous Rahimi, Tyler Statema, Audrey Vargas, and Nina Wade for their insightful discussions and constructive feedback. Special thanks to Dr. Chhayakant Patro for providing us with the computerized version of the Trail Making Test. Finally, we sincerely thank the participants of this research study without whom none of this work would be possible. This research is published in remembrance of our team member, lab mate, and friend, Karim Abou Najm.
Lee M. Miller is an inventor on intellectual property related to chirped-speech (Cheech) owned by the Regents of the University of California and not presently licensed.
This work was supported by the Office of the Assistant Secretary of Defense for Health Affairs through the Congressionally Directed Medical Research Program (CDMRP) Hearing Restoration Research Program (HRRP) under Award No. W81XWH-20-1-0485 (to LMM). Opinions, interpretations, conclusions, and recommendations are those of the author and are not necessarily endorsed by the Department of Defense. This work was also supported by the Child Family Fund for the Center for Mind & Brain (to LMM).
This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license, which permits unrestricted use, distribution and reproduction in any medium provided that the original work is properly attributed.
