Participants will perform two different listening tasks: (1) listening to, and repeating back, sentence lists presented in noise, and (2) listening to short radio excerpts and answering subsequent comprehension questions. At the same time participants are required to perform a manual target-tracking task on a touch screen. During this study, continuous, non-invasive physiological measurements (heart rate, skin conductance and hemoencephalography) will be made from participants. Using this paradigm we will be assessing the effect of different hearing aid processing algorithms on listening effort. The study takes the form of a three factor (listening task x algorithm x signal-to-noise ratio), within-subjects design. Each participant performs each listening task (about 4min long each) with each algorithm (reference, noise reduction I, noise reduction II), at two signal-to-noise ratios (+4 decibel and 0 decibel) twice (test-retest).
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
17
Each participant will be fitted with noise reduction disabled. Disabled means that no sound processing algorithm that removes noise from the speech signal is active.
Each participant will be fitted with the noise reduction program on the same hearing aid. The principle of the noise reduction algorithm is to remove noise from a speech signal with the aim of improving the speech intelligibility and comfort.
Each participant will be fitted with a second noise reduction program on the same hearing aid. The parameterization of this NR algorithm differs from that in NR(1).
Sonova AG
Stäfa, Switzerland
Heart rate variability data
Heart rate variability will be recorded from the participant both before and during the performance of the auditory tasks. Analyses will be carried out relative to the baseline recording (made before the auditory tasks), in order to account for differences in baseline physiological activity. Heart rate variability will be analysed in both the time \[ms\] and frequency \[ms squared\] domains.
Time frame: 6 weeks
Skin conductance data
Skin conductance will be recorded from the participant both before and during the performance of the auditory tasks. Analyses will be carried out relative to the baseline recording (made before the auditory tasks), in order to account for differences in baseline physiological activity. It is planned to analyse mean levels of skin conductance \[micro-Siemens\].
Time frame: 6 weeks
Hemoencephalography data
Hemoencephalography will be recorded from the participant both before and during the performance of the auditory tasks. Analyses will be carried out relative to the baseline recording (made before the auditory tasks), in order to account for differences in baseline physiological activity. Hemoencephalography will be analysed simply as the ratio of the blue and red light \[%\] during auditory task performance.
Time frame: 6 weeks
Dual-task performance test 1
Performance on the secondary tracking task will be analysed in order to observe whether there is a dual-task cost associated with performing both tasks simultaneously. Typically the level of degradation on the secondary task is thought to reflect an increased listening effort (provided that the primary task performance remains stable). Accordingly, success on the primary task will also be monitored and used in analyses (speech intelligibility in \[%\] correct). For the Secondary task performance the reaction time \[ms\] will be analysed.
Time frame: 6 weeks
Dual-task performance test 2
Performance on the secondary tracking task will be analysed in order to observe whether there is a dual-task cost associated with performing both tasks simultaneously. Typically the level of degradation on the secondary task is thought to reflect an increased listening effort (provided that the primary task performance remains stable). Accordingly, success on the primary task will also be monitored and used in analyses (comprehension questions \[numbers\] correct after listening to radio excerpts). For the Secondary task performance the reaction time \[ms\] will be analysed.
Time frame: 6 weeks
Subjective Listening Effort rating
Subjective Listening Effort will also be assessed through self-reported individual listening effort on a 14 point scale from "only noise" to "no effort" after each auditory task.
Time frame: 6 weeks
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