1994
DOI: 10.1121/1.408331
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Mapping the cochlear partition’s stiffness to its cellular architecture

Abstract: The mechanical properties of the cochlear partition are fundamental to auditory transduction. We measured the point stiffness of the partition, in vivo, at up to 17 radial positions spanning its width, in the basal turn of the gerbil cochlea. We found the linear stiffness at the position that is most likely under the outer pillar cells to be 1.5 times greater than adjacent positions toward the ligament, in the pectinate zone, and five times greater than adjacent positions toward the lamina, in the arcuate zone… Show more

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Cited by 64 publications
(62 citation statements)
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“…Our conclusion is that the second stiffness plateau of the measurements is substantially less, by a factor of 2-5, than the linear stiffness of the BM. This explains the long initial plateau spanning over 10-25 µm of deflection observed consistently in the measurements by Emadi et al [7,8] and Mountain et al [16,17], which they described as noise possibly because the behavior is contrary to the expectation of a monotonically increasing stiffness. In fact, Emadi et al [7] commented that the measured plateau stiffness may not be the physiologically relevant one, and that the relevant stiffness might occur at a much smaller deflection.…”
Section: Point-loading Resultsmentioning
confidence: 44%
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“…Our conclusion is that the second stiffness plateau of the measurements is substantially less, by a factor of 2-5, than the linear stiffness of the BM. This explains the long initial plateau spanning over 10-25 µm of deflection observed consistently in the measurements by Emadi et al [7,8] and Mountain et al [16,17], which they described as noise possibly because the behavior is contrary to the expectation of a monotonically increasing stiffness. In fact, Emadi et al [7] commented that the measured plateau stiffness may not be the physiologically relevant one, and that the relevant stiffness might occur at a much smaller deflection.…”
Section: Point-loading Resultsmentioning
confidence: 44%
“…[11], and Miller [14] on the guinea pig, and Olson and Mountain [17] on the gerbil. All of these measurements show that the highest point stiffness in the BM occurrs at the location where the outer pillar of the arch of Corti contacts the BM.…”
Section: Effect Of Outer Pillar Cells: Point Versus Pressure Stiffnesmentioning
confidence: 99%
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