2015
DOI: 10.1007/s10162-015-0524-x
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Stapes Vibration in the Chinchilla Middle Ear: Relation to Behavioral and Auditory-Nerve Thresholds

Abstract: The vibratory responses to tones of the stapes and incus were measured in the middle ears of deeply anesthetized chinchillas using a wide-band acousticstimulus system and a laser velocimeter coupled to a microscope. With the laser beam at an angle of about 40°relative to the axis of stapes piston-like motion, the sensitivity-vs.-frequency curves of vibrations at the head of the stapes and the incus lenticular process were very similar to each other but larger, in the range 15-30 kHz, than the vibrations of the… Show more

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Cited by 5 publications
(13 citation statements)
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References 38 publications
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“…This advantage has led to a breadth of detailed published data on normal middle-ear and cochlear function, device development, and the effects of conductive and peripheral hearing losses (Martin, 2012). The readily accessible middle-ear space and cochlea allow for complex experimental manipulations to quantify sound transmission through the middle ear and into the cochlea (Rosowski et al , 2006; Slama et al , 2010; Ravicz and Rosowski, 2013; Robles et al , 2015; Wang and Gan, 2016; Peacock et al , 2018). Furthermore, easy cochlear accessibility allowed for thorough and rigorous characterizations of cochlear-nonlinearity properties (i.e., level-dependent gain and bandwidth effects in basilar-membrane responses) to be collected following delicate microsurgical procedures that can easily damage the normal function of the cochlea (Robles et al , 1997; Ruggero et al , 1997; Rhode and Recio, 2000).…”
Section: Chinchillas As a General Model For Hearing Sciencementioning
confidence: 99%
“…This advantage has led to a breadth of detailed published data on normal middle-ear and cochlear function, device development, and the effects of conductive and peripheral hearing losses (Martin, 2012). The readily accessible middle-ear space and cochlea allow for complex experimental manipulations to quantify sound transmission through the middle ear and into the cochlea (Rosowski et al , 2006; Slama et al , 2010; Ravicz and Rosowski, 2013; Robles et al , 2015; Wang and Gan, 2016; Peacock et al , 2018). Furthermore, easy cochlear accessibility allowed for thorough and rigorous characterizations of cochlear-nonlinearity properties (i.e., level-dependent gain and bandwidth effects in basilar-membrane responses) to be collected following delicate microsurgical procedures that can easily damage the normal function of the cochlea (Robles et al , 1997; Ruggero et al , 1997; Rhode and Recio, 2000).…”
Section: Chinchillas As a General Model For Hearing Sciencementioning
confidence: 99%
“…The he speaker) so TM and three l and the wall a itude. n can be ether with mbo with nce arises observed nce of ~5 ); the rest o the TM, and phase the stapes (green square 75%) than the incus and stap additional del than ~8 kHz, delay of the m difference be increase can measurements consistent wit [5,9]. Figure 6 show frequencies: 3 with the stim vibration patt phase maps indicating stan presence of measurements ) e tion view um of the the stapes anal bone from the Fig.…”
Section: Acousticmentioning
confidence: 66%
“…Modern investigations are generally conducted using more sensitive optical interferometric techniques, particularly laser Doppler vibrometry (LDV) and holography [6][7][8]. LDV and holography are surface measurement techniques and, therefore, require surgical preparation to access structures beyond the TM [9]. They are also subject to artefacts caused by other vibrating structures located behind the tissue of interest if those structures are sufficiently reflective [10].…”
Section: Introductionmentioning
confidence: 99%
“…This led these authors to conclude that the inner ear could have “a crucial role in setting the frequency limits..” but that “It remains to be seen whether the finding that the bandwidth of middle-ear vibrations exceeds that of the audiogram in chinchilla, gerbil, guinea pig, horseshoe bat, pigeon, and turtle will be confirmed..” 3 . A number of subsequent biological measurements and finite element simulations seem to support the lack of frequency specificity of the outer and middle ear (e.g., refs 23 , 24 and 25 , respectively). For the reader’s convenience, data underlying this view are presented for the example of the Gerbil’s hearing system in our Suppl.…”
Section: Introductionmentioning
confidence: 97%
“…7 and the discussion in ref. 24 ); the main role in shaping hearing sensitivity seems to be commonly still attributed to the outer and middle ear.…”
Section: Introductionmentioning
confidence: 99%