Cochlear function changes throughout the human lifespan in a continuum of maturation and aging. Otoacoustic emissions (OAE) provide a non-invasive window into the cochlea and the mechanisms driving these changes. Here, we apply OAEs to map age-related shifts in cochlear mechanics and explore the potential for new probes of hearing.
In Aim 1 we exploit the robust reflection generated by neonatal ears and record stimulus frequency (SF) OAEs, a reflection-source emission, in newborns. SFOAEs have been linked to cochlear tuning and gain yet have never been characterized in newborns, mostly because of their need for prohibitively long protocols to achieve adequate signal-to-noise ratios. This problem is rendered tractable by novel algorithms allowing for the rapid presentation of stimuli as sweeping tones. We will characterize the SFOAE for the first time in a large cohort of newborn ears and adapt the innovative swept-tone algorithm for optimal use within this age group.
Aim 2 studies the apical portion of the newborn and adult cochlea, a region representing nearly half of our audible frequency range, yet poorly understood and wholly unexplored during maturation. In newborn ears, non-adult-like DPOAE phase has been observed for low-frequency signals; we hypothesize that subtle immaturities in the apical frequency-place map may account for these findings. Here, seek converging evidence from reflection- and distortion-source OAEs, record and model DPOAE apical phase maps, and conduct histological analysis of human temporal bones to link apical anatomy to OAE features during development. Changes in cochlear mechanics do not cease after infancy; the aging ear experiences documented changes in the health of its sensory cells and in its metabolic environment, producing altered cochlear efficiency. Cochlear-based deficits contribute to perceptual difficulties common to older listeners.
In Aim 3, we hypothesize that one such deficit is the loss of cochlear nonlinearity in the aging ear, and we define how OAE-based metrics of nonlinearity change from middle-age through senescence. Furthermore, we hypothesize that the cochlea becomes more rough with aging, possibly accounting for its ability to generate reflection emissions despite declining cochlear health. These three aims apply diverse experimental and theoretical tools and break new ground; they characterize SFOAEs in newborns as a first step in exploring their potential as a neonatal hearing screen, probe the oft-neglected apical half of the human cochlea where neonatal immaturities have been observed, and define how cochlear nonlinearities and OAE generation change in the aging ear.

Public Health Relevance

The cochlea changes throughout the continuum of human maturation and aging. Here, we apply innovative otoacoustic emissions methods to map the time course for age-related shifts, and study the mechanisms driving these changes and the impact they have on perception. By understanding normal cochlear function throughout the human lifespan, we hope to develop more effective probes of hearing.

Agency
National Institute of Health (NIH)
Institute
National Institute on Deafness and Other Communication Disorders (NIDCD)
Type
Research Project (R01)
Project #
5R01DC003552-16
Application #
9115548
Study Section
Auditory System Study Section (AUD)
Program Officer
Donahue, Amy
Project Start
1998-08-01
Project End
2020-07-31
Budget Start
2016-08-01
Budget End
2017-07-31
Support Year
16
Fiscal Year
2016
Total Cost
Indirect Cost
Name
University of Southern California
Department
Otolaryngology
Type
Schools of Medicine
DUNS #
072933393
City
Los Angeles
State
CA
Country
United States
Zip Code
90032
Abdala, Carolina; Guardia, Yeini C; Shera, Christopher A (2018) Swept-tone stimulus-frequency otoacoustic emissions: Normative data and methodological considerations. J Acoust Soc Am 143:181
Abdala, Carolina; Ortmann, Amanda J; Shera, Christopher A (2018) Reflection- and Distortion-Source Otoacoustic Emissions: Evidence for Increased Irregularity in the Human Cochlea During Aging. J Assoc Res Otolaryngol 19:493-510
Abdala, Carolina; Kalluri, Radha (2017) Towards a joint reflection-distortion otoacoustic emission profile: Results in normal and impaired ears. J Acoust Soc Am 142:812
Salehi, Pezhman; Ge, Marshall X; Gundimeda, Usha et al. (2017) Role of Neuropilin-1/Semaphorin-3A signaling in the functional and morphological integrity of the cochlea. PLoS Genet 13:e1007048
Abdala, Carolina; Luo, Ping; Shera, Christopher A (2017) Characterizing spontaneous otoacoustic emissions across the human lifespan. J Acoust Soc Am 141:1874
Ortmann, Amanda J; Abdala, Carolina (2016) Changes in the Compressive Nonlinearity of the Cochlea During Early Aging: Estimates From Distortion OAE Input/Output Functions. Ear Hear 37:603-14
Shera, Christopher A; Abdala, Carolina (2016) Frequency shifts in distortion-product otoacoustic emissions evoked by swept tones. J Acoust Soc Am 140:936
Mishra, Srikanta K; Abdala, Carolina (2015) Stability of the medial olivocochlear reflex as measured by distortion product otoacoustic emissions. J Speech Lang Hear Res 58:122-34
Abdala, Carolina; Luo, Ping; Shera, Christopher A (2015) Optimizing swept-tone protocols for recording distortion-product otoacoustic emissions in adults and newborns. J Acoust Soc Am 138:3785-99
Abdala, Carolina; Kalluri, Radha (2015) Exploiting Dual Otoacoustic Emission Sources. AIP Conf Proc 1703:

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