Abstract

Hearing loss, and the resulting consequences of it, is an important problem that affects all humans. No person is exempt from the process of aging or the eventual impact it has on the ear-brain system. This point is noteworthy because the portion of the population aged 65 years and older is increasing at a faster rate than the total population. Twenty percent of the population is predicted to be 65 years or older by 2030 and between 35% and 50% will likely report having presbycusis, a sensory impairment that is treated primarily through the use of hearing aids (HA). A major problem, however, is that HA use among people with hearing loss is not prevalent (approximately 25%) and only half of those users report being satisfied with their aided performance in noise. Despite careful efforts to verify that hearing aids (HA) are fitted appropriately in the clinic, there is little evidence to support that current practices result in successful outcomes. Our hypothesis is that successful HA use depends, in part, on the signal-to-noise (SNR) ratio being delivered to a person's auditory system by their HA as well as a person's own ability to neurally encode speech in noise. Our overall project goal is to identify patient- and device-centered variables that contribute to HA success so that related outcome measures can be developed and applied in clinical settings. Two expected predictors of real-world HA success are the individual's threshold for speech in noise (SNR-50) as well as the SNR at the output of the HA.

Public Health Relevance

Despite careful efforts to verify that hearing aids (HA) are fitted appropriately in the clinic, there is little evidence to support that current practices resut in successful outcomes. Nor is it clear what clinical tools should be used to effectively measure and predict real-world, patient-centered outcomes. What is known is that the most common complaint about HAs is poor performance in noisy environments, which in turn contributes to discontinue HA use. Because untreated hearing loss contributes to a reduced quality of life, avoidance of social situations, and feelings of loneliness, successful use of amplification in noise is an important problem to solve. Our hypothesis is that successful HA use depends, in part, on the signal-to-noise ratio (SNR) being delivered to a person's auditory system by their HA as well as a person's own ability to neurally encode speech in noise. Our overall project goal is to identify patient- and device-centered variables that contribute to HA success so that related outcome measures can be developed and applied in clinical settings. Two expected predictors of real-world HA success are the individual's threshold for speech in noise (SNR-50) as well as the SNR at the output of the HA.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute on Deafness and Other Communication Disorders (NIDCD)
Type
Research Project (R01)
Project #
4R01DC012769-04
Application #
8994726
Study Section
Special Emphasis Panel (ZRG1)
Program Officer
Donahue, Amy
Project Start
2013-02-05
Project End
2018-01-31
Budget Start
2016-02-01
Budget End
2017-01-31
Support Year
4
Fiscal Year
2016
Total Cost
Indirect Cost

  Institution

Name
University of Washington
Department
Other Health Professions
Type
Schools of Arts and Sciences
DUNS #
605799469
City
Seattle
State
WA
Country
United States
Zip Code
98195

  Publications

Wu, Yu-Hsiang; Dumanch, Kelsey; Stangl, Elizabeth et al. (2017) Is the Device-Oriented Subjective Outcome (DOSO) Independent of Personality? J Am Acad Audiol 28:932-940
Miller, Christi W; Bentler, Ruth A; Wu, Yu-Hsiang et al. (2017) Output signal-to-noise ratio and speech perception in noise: effects of algorithm. Int J Audiol 56:568-579
Miller, Christi W; Stewart, Erin K; Wu, Yu-Hsiang et al. (2017) Working Memory and Speech Recognition in Noise Under Ecologically Relevant Listening Conditions: Effects of Visual Cues and Noise Type Among Adults With Hearing Loss. J Speech Lang Hear Res 60:2310-2320
Wu, Yu-Hsiang; Stangl, Elizabeth; Zhang, Xuyang et al. (2016) Psychometric Functions of Dual-Task Paradigms for Measuring Listening Effort. Ear Hear 37:660-670
Chun, Ingyu; Billings, Curtis J; Miller, Christi W et al. (2016) Aided Electrophysiology Using Direct Audio Input: Effects of Amplification and Absolute Signal Level. Am J Audiol 25:14-24
Wu, Yu-Hsiang; Ho, Hsu-Chueh; Hsiao, Shih-Hsuan et al. (2016) Predicting three-month and 12-month post-fitting real-world hearing-aid outcome using pre-fitting acceptable noise level (ANL). Int J Audiol 55:285-94
Won, Jong Ho; Tremblay, Kelly; Clinard, Christopher G et al. (2016) The neural encoding of formant frequencies contributing to vowel identification in normal-hearing listeners. J Acoust Soc Am 139:1-11
Tremblay, Kelly L; Backer, Kristina C (2016) Listening and Learning: Cognitive Contributions to the Rehabilitation of Older Adults With and Without Audiometrically Defined Hearing Loss. Ear Hear 37 Suppl 1:155S-62S
Tremblay, Kelly L (2015) The Ear-Brain Connection: Older Ears and Older Brains. Am J Audiol 24:117-20
Tremblay, K L; Scollie, S; Abrams, H B et al. (2014) Hearing AIDS and the brain. Int J Otolaryngol 2014:518967

Showing the most recent 10 out of 12 publications