2018
DOI: 10.7554/elife.37625
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Timing of the reticular lamina and basilar membrane vibration in living gerbil cochleae

Abstract: Auditory sensory outer hair cells are thought to amplify sound-induced basilar membrane vibration through a feedback mechanism to enhance hearing sensitivity. For optimal amplification, the outer hair cell-generated force must act on the basilar membrane at an appropriate time at every cycle. However, the temporal relationship between the outer hair cell-driven reticular lamina vibration and the basilar membrane vibration remains unclear. By measuring sub-nanometer vibrations directly from outer hair cells usi… Show more

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Cited by 77 publications
(82 citation statements)
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References 69 publications
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“…In turn 1, the compressive cochlear gain of OoC presented in a broader region more than a half octave below the BF at moderate stimuli intensities and more than one octave at high sound pressure level, i.e., 70 -80 dB SPL. This finding was consistent with the new data found in the mouse and gerbil reticular lamina and the BM vibrations (Cooper et al 2018;He et al 2018;Lee et al 2016;Ren et al 2016). This was likely because our measurements came from within the OoC near the top of the OHCs, the reticular lamina.…”
Section: Discussionsupporting
confidence: 92%
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“…In turn 1, the compressive cochlear gain of OoC presented in a broader region more than a half octave below the BF at moderate stimuli intensities and more than one octave at high sound pressure level, i.e., 70 -80 dB SPL. This finding was consistent with the new data found in the mouse and gerbil reticular lamina and the BM vibrations (Cooper et al 2018;He et al 2018;Lee et al 2016;Ren et al 2016). This was likely because our measurements came from within the OoC near the top of the OHCs, the reticular lamina.…”
Section: Discussionsupporting
confidence: 92%
“…This nonlinear cochlear gain between 40 and 80 dB SPL was~23 dB at the BF. However, nonlinear gain was also found at frequencies down to 5 kHz with higher intensities, i.e., 70 -80 dB SPL, which was consistent with observations at the reticular lamina in the mouse and gerbil (Cooper et al 2018;He et al 2018;Lee et al 2016;Ren et al 2016). Finally, the phase demonstrated progressive lags with increasing frequency, which is consistent with traveling wave propagation.…”
Section: Abr Thresholds Remain Stable In This Animal Preparationsupporting
confidence: 86%
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“…The membrane model confirms the main predictions of the 1D model: A single mode of vibration of organ of Corti can be supported up to about 10 kHz but to cover the entire auditory range cannot be supported without multiple modes of motion in the cochlear partition [13]. This prediction appears consistent with recent observations with optical techniques in that the organ of Corti shows multiple modes of motion [44][45][46].…”
Section: Discussionsupporting
confidence: 89%