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Frequency-dependent properties of the tectorial membrane facilitate energy transmission and amplification in the cochlea

Frequency-dependent properties of the tectorial membrane facilitate energy transmission and amplification in the cochlea
Frequency-dependent properties of the tectorial membrane facilitate energy transmission and amplification in the cochlea
The remarkable sensitivity, frequency selectivity, and dynamic range of the mammalian cochlea relies on longitudinal transmission of minuscule amounts of energy as passive, pressure-driven, basilar membrane (BM) traveling waves. These waves are actively amplified at frequency-specific locations by a mechanism that involves interaction between the BM and another extracellular matrix, the tectorial membrane (TM). From mechanical measurements of isolated segments of the TM, we made the important new (to our knowledge) discovery that the stiffness of the TM is reduced when it is mechanically stimulated at physiologically relevant magnitudes and at frequencies below their frequency place in the cochlea. The reduction in stiffness functionally uncouples the TM from the organ of Corti, thereby minimizing energy losses during passive traveling-wave propagation. Stiffening and decreased viscosity of the TM at high stimulus frequencies can potentially facilitate active amplification, especially in the high-frequency, basal turn, where energy loss due to internal friction within the TM is less than in the apex. This prediction is confirmed by neural recordings from several frequency regions of the cochlea.

0006-3495
1357-1366
Jones, G.P.
8181220a-359f-4686-ab35-ee813780d099
Lukashkina, V.A.
3e601197-6d0e-467f-b635-72eb52eb565d
Russell, I.J.
1431ed66-db26-47a9-a113-1f34d725c180
Elliott, S.J.
721dc55c-8c3e-4895-b9c4-82f62abd3567
Lukashkin, A.N.
a7bc5e2c-00a5-4043-9953-3066e38015b2
Jones, G.P.
8181220a-359f-4686-ab35-ee813780d099
Lukashkina, V.A.
3e601197-6d0e-467f-b635-72eb52eb565d
Russell, I.J.
1431ed66-db26-47a9-a113-1f34d725c180
Elliott, S.J.
721dc55c-8c3e-4895-b9c4-82f62abd3567
Lukashkin, A.N.
a7bc5e2c-00a5-4043-9953-3066e38015b2

Jones, G.P., Lukashkina, V.A., Russell, I.J., Elliott, S.J. and Lukashkin, A.N. (2013) Frequency-dependent properties of the tectorial membrane facilitate energy transmission and amplification in the cochlea. Biophysical Journal, 104 (6), 1357-1366. (doi:10.1016/j.bpj.2013.02.002). (PMID:23528095)

Record type: Article

Abstract

The remarkable sensitivity, frequency selectivity, and dynamic range of the mammalian cochlea relies on longitudinal transmission of minuscule amounts of energy as passive, pressure-driven, basilar membrane (BM) traveling waves. These waves are actively amplified at frequency-specific locations by a mechanism that involves interaction between the BM and another extracellular matrix, the tectorial membrane (TM). From mechanical measurements of isolated segments of the TM, we made the important new (to our knowledge) discovery that the stiffness of the TM is reduced when it is mechanically stimulated at physiologically relevant magnitudes and at frequencies below their frequency place in the cochlea. The reduction in stiffness functionally uncouples the TM from the organ of Corti, thereby minimizing energy losses during passive traveling-wave propagation. Stiffening and decreased viscosity of the TM at high stimulus frequencies can potentially facilitate active amplification, especially in the high-frequency, basal turn, where energy loss due to internal friction within the TM is less than in the apex. This prediction is confirmed by neural recordings from several frequency regions of the cochlea.

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More information

Published date: 19 March 2013
Organisations: Signal Processing & Control Grp

Identifiers

Local EPrints ID: 350796
URI: http://eprints.soton.ac.uk/id/eprint/350796
DOI: doi:10.1016/j.bpj.2013.02.002
ISSN: 0006-3495
PURE UUID: 39153e1b-9714-4092-a3d1-60edadc3c3ff

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Date deposited: 05 Apr 2013 13:12
Last modified: 14 Mar 2024 13:32

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Contributors

Author: G.P. Jones
Author: V.A. Lukashkina
Author: I.J. Russell
Author: S.J. Elliott
Author: A.N. Lukashkin

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