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Journal Abstract Search

136 related items for PubMed ID: 37584075

  • 1. Cochlear aging disrupts the correlation between spontaneous rate- and sound-level coding in auditory nerve fibers.
    Heeringa AN, Teske F, Ashida G, Köppl C.
    J Neurophysiol; 2023 Sep 01; 130(3):736-750. PubMed ID: 37584075
    [Abstract] [Full Text] [Related]

  • 2. Sound Coding in the Auditory Nerve: From Single Fiber Activity to Cochlear Mass Potentials in Gerbils.
    Huet A, Batrel C, Wang J, Desmadryl G, Nouvian R, Puel JL, Bourien J.
    Neuroscience; 2019 May 21; 407():83-92. PubMed ID: 30342201
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  • 3. Mass Potentials Recorded at the Round Window Enable the Detection of Low Spontaneous Rate Fibers in Gerbil Auditory Nerve.
    Batrel C, Huet A, Hasselmann F, Wang J, Desmadryl G, Nouvian R, Puel JL, Bourien J.
    PLoS One; 2017 May 21; 12(1):e0169890. PubMed ID: 28085968
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  • 4. Sound coding in the auditory nerve of gerbils.
    Huet A, Batrel C, Tang Y, Desmadryl G, Wang J, Puel JL, Bourien J.
    Hear Res; 2016 Aug 21; 338():32-9. PubMed ID: 27220483
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  • 5. Maturation of Spontaneous Firing Properties after Hearing Onset in Rat Auditory Nerve Fibers: Spontaneous Rates, Refractoriness, and Interfiber Correlations.
    Wu JS, Young ED, Glowatzki E.
    J Neurosci; 2016 Oct 12; 36(41):10584-10597. PubMed ID: 27733610
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  • 7. Auditory-nerve responses in mice with noise-induced cochlear synaptopathy.
    Suthakar K, Liberman MC.
    J Neurophysiol; 2021 Dec 01; 126(6):2027-2038. PubMed ID: 34788179
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  • 8. Contribution of auditory nerve fibers to compound action potential of the auditory nerve.
    Bourien J, Tang Y, Batrel C, Huet A, Lenoir M, Ladrech S, Desmadryl G, Nouvian R, Puel JL, Wang J.
    J Neurophysiol; 2014 Sep 01; 112(5):1025-39. PubMed ID: 24848461
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  • 10. Peristimulus Time Responses Predict Adaptation and Spontaneous Firing of Auditory-Nerve Fibers: From Rodents Data to Humans.
    Huet A, Batrel C, Dubernard X, Kleiber JC, Desmadryl G, Venail F, Liberman MC, Nouvian R, Puel JL, Bourien J.
    J Neurosci; 2022 Mar 16; 42(11):2253-2267. PubMed ID: 35078924
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  • 13. Cochlear basal and apical differences reflected in the effects of cooling on responses of single auditory nerve fibers.
    Ohlemiller KK, Siegel JH.
    Hear Res; 1994 Nov 16; 80(2):174-90. PubMed ID: 7896576
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  • 14. Phase-locked responses to tones of chinchilla auditory nerve fibers: implications for apical cochlear mechanics.
    Temchin AN, Ruggero MA.
    J Assoc Res Otolaryngol; 2010 Jun 16; 11(2):297-318. PubMed ID: 19921334
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  • 15. Auditory nerve fibers in young and quiet-aged gerbils: morphometric correlations with endocochlear potential.
    Suryadevara AC, Schulte BA, Schmiedt RA, Slepecky NB.
    Hear Res; 2001 Nov 16; 161(1-2):45-53. PubMed ID: 11744280
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  • 16. Chronic reduction of endocochlear potential reduces auditory nerve activity: further confirmation of an animal model of metabolic presbyacusis.
    Lang H, Jyothi V, Smythe NM, Dubno JR, Schulte BA, Schmiedt RA.
    J Assoc Res Otolaryngol; 2010 Sep 16; 11(3):419-34. PubMed ID: 20372958
    [Abstract] [Full Text] [Related]

  • 17. Primary Neural Degeneration in Noise-Exposed Human Cochleas: Correlations with Outer Hair Cell Loss and Word-Discrimination Scores.
    Wu PZ, O'Malley JT, de Gruttola V, Liberman MC.
    J Neurosci; 2021 May 19; 41(20):4439-4447. PubMed ID: 33883202
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  • 18. Functional correlates of characteristic frequency in single cochlear nerve fibers of the Mongolian gerbil.
    Ohlemiller KK, Echteler SM.
    J Comp Physiol A; 1990 Aug 19; 167(3):329-38. PubMed ID: 2231475
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  • 20. The aging cochlea: Towards unraveling the functional contributions of strial dysfunction and synaptopathy.
    Heeringa AN, Köppl C.
    Hear Res; 2019 May 19; 376():111-124. PubMed ID: 30862414
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