Literature DB >> 532610

Critical bands following the selective destruction of cochlear inner and outer hair cells.

T G Nienhuys, G M Clark.   

Abstract

Critical bandwidths and absolute intensity thresholds were measured in cats before and after kanamycin treatment which induced selective inner and outer hair cell losses. Hair cell losses were measured from cochleograms constructed from surface preparations of the organ of Corti. Results suggested that, for the test frequencies and stimulus intensities employed, critical bandwidths were not affected for frequencies tonotopically located in cochlear regions where only outer hair cells were lost. Critical bands were widened or not measurable only when inner hair cell losses exceeding 40% were also associated with complete loss of outer hair cells. The experiment suggests that cochlear frequency selectivity can be mediated by inner hair cells alone.

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Year:  1979        PMID: 532610     DOI: 10.3109/00016487909137179

Source DB:  PubMed          Journal:  Acta Otolaryngol        ISSN: 0001-6489            Impact factor:   1.494


  9 in total

1.  Critical bands and critical ratios in animal psychoacoustics: an example using chinchilla data.

Authors:  William A Yost; William P Shofner
Journal:  J Acoust Soc Am       Date:  2009-01       Impact factor: 1.840

Review 2.  Rodent auditory perception: Critical band limitations and plasticity.

Authors:  J King; M Insanally; M Jin; A R O Martins; J A D'amour; R C Froemke
Journal:  Neuroscience       Date:  2015-03-28       Impact factor: 3.590

3.  Frequency selectivity in macaque monkeys measured using a notched-noise method.

Authors:  Jane A Burton; Margit E Dylla; Ramnarayan Ramachandran
Journal:  Hear Res       Date:  2017-11-28       Impact factor: 3.208

4.  Selective Inner Hair Cell Dysfunction in Chinchillas Impairs Hearing-in-Noise in the Absence of Outer Hair Cell Loss.

Authors:  Edward Lobarinas; Richard Salvi; Dalian Ding
Journal:  J Assoc Res Otolaryngol       Date:  2015-12-21

5.  Behavioral measures of auditory streaming in ferrets (Mustela putorius).

Authors:  Ling Ma; Christophe Micheyl; Pingbo Yin; Andrew J Oxenham; Shihab A Shamma
Journal:  J Comp Psychol       Date:  2010-08       Impact factor: 2.231

6.  Identifying cues for tone-in-noise detection using decision variable correlation in the budgerigar (Melopsittacus undulatus).

Authors:  Kenneth S Henry; Kassidy N Amburgey; Kristina S Abrams; Laurel H Carney
Journal:  J Acoust Soc Am       Date:  2020-02       Impact factor: 1.840

7.  Changes in audiometric threshold and frequency selectivity correlate with cochlear histopathology in macaque monkeys with permanent noise-induced hearing loss.

Authors:  Jane A Burton; Chase A Mackey; Kaitlyn S MacDonald; Troy A Hackett; Ramnarayan Ramachandran
Journal:  Hear Res       Date:  2020-09-24       Impact factor: 3.208

8.  Transfer Learning for Improved Audio-Based Human Activity Recognition.

Authors:  Stavros Ntalampiras; Ilyas Potamitis
Journal:  Biosensors (Basel)       Date:  2018-06-25

9.  Tonotopic Selectivity in Cats and Humans: Electrophysiology and Psychophysics.

Authors:  Francois Guérit; John C Middlebrooks; Matthew L Richardson; Akshat Arneja; Andrew J Harland; Robin Gransier; Jan Wouters; Robert P Carlyon
Journal:  J Assoc Res Otolaryngol       Date:  2022-06-13
  9 in total

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