Litcius/Paper detail

Dimensions of self-reported listening effort and fatigue on a digits-in-noise task, and association with baseline pupil size and performance accuracy

Sara Alhanbali, Kevin J. Munro, Piers Dawes, Peter J. Carolan, Rebecca E. Millman

2020International Journal of Audiology40 citationsDOIOpen Access PDF

Abstract

OBJECTIVE: Pupillometry is sensitive to cognitive resource allocation and has been used as a potential measure of listening-related effort and fatigue. We investigated associations between peak pupil diameter, pre-stimulus pupil diameter, performance on a listening task, and the dimensionality of self-reported outcomes (task-related listening effort and fatigue). DESIGN: Pupillometry was recorded while participants performed a speech-in-noise task. Participants rated their experience of listening effort and fatigue using the NASA-Task Load Index (NASA-TLX) and the Visual Analogue Scale of Fatigue (VAS-F), respectively. The dimensionality of the NASA-TLX and the VAS-F was investigated using factor analysis. STUDY SAMPLE: 82 participants with either normal hearing or aided hearing impairment (age range: 55-85 years old, 43 male). RESULTS: Hierarchal linear regression analyses suggested that pre-stimulus pupil diameter predicts a dimension of self-reported fatigue, which we interpreted as tiredness/drowsiness, and listening task performance when controlling for hearing level and age: Larger pre-stimulus pupil diameter was associated with less tiredness/drowsiness and better task performance. CONCLUSION: Pre-stimulus pupil diameter is a potential index of listening fatigue associated with speech processing in challenging listening conditions. To our knowledge, this is the first investigation of the associations between pre-stimulus pupil diameter and self-reported ratings of listening effort and fatigue.

Topics & Concepts

PupillometryActive listeningAudiologyPupillary responsePsychologyStimulus (psychology)PupilCognitive psychologyMedicineCommunicationNeuroscienceHearing Loss and RehabilitationNoise Effects and ManagementHearing, Cochlea, Tinnitus, Genetics