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Literature DB >> 30037987

Cochlear Frequency Tuning and Otoacoustic Emissions.

Christopher A Shera¹, Karolina K Charaziak².

Abstract

Otoacoustic emissions (OAEs) evoked from the inner ear are the barely audible, signature byproduct of the delicate hydromechanical amplifier that evolved within its bony walls. Compared to the sounds evoked from the ears of common laboratory animals, OAEs from human ears have exceptionally long delays, typically exceeding those of cats, guinea pigs, and chinchillas by a factor of two to three. This review asks "Why are human OAE delays so long?" and recounts efforts to locate answers in the characteristics of mechanical frequency selectivity in the inner ear. The road to understanding species differences in OAE delay leads to the identification of new invariances and to the emergence of new questions.

Entities: Species

Mesh：

Year: 2019 PMID： 30037987 PMCID： PMC6360871 DOI： 10.1101/cshperspect.a033498

Source DB: PubMed Journal: Cold Spring Harb Perspect Med ISSN： 2157-1422 Impact factor: 6.915

21 in total

1. Estimates of human cochlear tuning at low levels using forward and simultaneous masking.

Authors: Andrew J Oxenham; Christopher A Shera
Journal: J Assoc Res Otolaryngol Date: 2003-07-10

2. Effects of low-frequency biasing on otoacoustic and neural measures suggest that stimulus-frequency otoacoustic emissions originate near the peak region of the traveling wave.

Authors: Jeffery T Lichtenhan
Journal: J Assoc Res Otolaryngol Date: 2011-10-15

3. Coherent reflection in a two-dimensional cochlea: Short-wave versus long-wave scattering in the generation of reflection-source otoacoustic emissions.

Authors: Christopher A Shera; Arnold Tubis; Carrick L Talmadge
Journal: J Acoust Soc Am Date: 2005-07 Impact factor: 1.840

Cochlear Frequency Tuning and Otoacoustic Emissions.

1. Estimates of human cochlear tuning at low levels using forward and simultaneous masking.

2. Effects of low-frequency biasing on otoacoustic and neural measures suggest that stimulus-frequency otoacoustic emissions originate near the peak region of the traveling wave.

3. Coherent reflection in a two-dimensional cochlea: Short-wave versus long-wave scattering in the generation of reflection-source otoacoustic emissions.

4. Longitudinally propagating traveling waves of the mammalian tectorial membrane.

5. The origin of periodicity in the spectrum of evoked otoacoustic emissions.

6. Modeling otoacoustic emission and hearing threshold fine structures.

7. Frequency selectivity in Old-World monkeys corroborates sharp cochlear tuning in humans.

8. Estimating cochlear frequency selectivity with stimulus-frequency otoacoustic emissions in chinchillas.

9. The spandrels of San Marco and the Panglossian paradigm: a critique of the adaptationist programme.

10. Stimulus-frequency-emission group delay: a test of coherent reflection filtering and a window on cochlear tuning.

1. Cochlear tuning and the peripheral representation of harmonic sounds in mammals.

2. A cochlea with three parts? Evidence from otoacoustic emission phase in humans.

3. Mammalian behavior and physiology converge to confirm sharper cochlear tuning in humans.