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Transient-Evoked Otoacoustic Emissions Reflect Audiometric Patterns of Age-Related Hearing Loss.


ABSTRACT: Distinct forms of age-related hearing loss are hypothesized based on evidence from animal models of aging, which are identifiable in human audiograms. The Sensory phenotype results from damage (e.g., excessive noise or ototoxic drugs) to outer hair cells and sometimes inner hair cells, producing large threshold increases predominately at high frequencies. The Metabolic phenotype results from a decline in endocochlear potential that can reduce outer hair cell motility throughout the cochlea, producing gradually sloping thresholds from lower to higher frequencies. Finally, the combined Metabolic?+?Sensory phenotype results in low-frequency losses similar to the Metabolic phenotype and high-frequency losses similar to the Sensory phenotype. Because outer hair cell function appears to be affected differently in each phenotype, this study used audiograms from 618 adults aged 50 to 93 years ( n?=?1,208 ears) to classify phenotypes and characterize differences in transient-evoked otoacoustic emission (TEOAE) data. Significant phenotype differences were observed in frequency-band TEOAEs and configuration (intercept and slope), including large and broadly distributed TEOAE reductions for Metabolic and Metabolic?+?Sensory ears and more focused high-frequency TEOAE reductions for Sensory ears. These findings are consistent with metabolic declines that reduce cochlear amplification across a broad range of frequencies and more basally situated, high-frequency declines in sensory hearing loss. The results provide further validation for the classification of age-related hearing loss phenotypes based on audiograms and show human TEOAE declines that are highly consistent with animal models.

SUBMITTER: Vaden KI 

PROVIDER: S-EPMC6131303 | biostudies-literature | 2018 Jan-Dec

REPOSITORIES: biostudies-literature

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Transient-Evoked Otoacoustic Emissions Reflect Audiometric Patterns of Age-Related Hearing Loss.

Vaden Kenneth I KI   Matthews Lois J LJ   Dubno Judy R JR  

Trends in hearing 20180101


Distinct forms of age-related hearing loss are hypothesized based on evidence from animal models of aging, which are identifiable in human audiograms. The Sensory phenotype results from damage (e.g., excessive noise or ototoxic drugs) to outer hair cells and sometimes inner hair cells, producing large threshold increases predominately at high frequencies. The Metabolic phenotype results from a decline in endocochlear potential that can reduce outer hair cell motility throughout the cochlea, prod  ...[more]

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