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A novel mechanism of cochlear excitation during simultaneous stimulation and pressure relief through the round window

A novel mechanism of cochlear excitation during simultaneous stimulation and pressure relief through the round window
A novel mechanism of cochlear excitation during simultaneous stimulation and pressure relief through the round window
The round window (RW) membrane provides pressure relief when the cochlea is excited by sound. Here, we report measurements of cochlear function from guinea pigs when the cochlea was stimulated at acoustic frequencies by movements of a miniature magnet which partially occluded the RW. Maximum cochlear sensitivity, corresponding to subnanometre magnet displacements at neural thresholds, was observed for frequencies around 20 kHz, which is similar to that for acoustic stimulation. Neural response latencies to acoustic and RW stimulation were similar and taken to indicate that both means of stimulation resulted in the generation of conventional travelling waves along the cochlear partition. It was concluded that the relatively high impedance of the ossicles, as seen from the cochlea, enabled the region of the RW not occluded by the magnet, to act as a pressure shunt during RW stimulation. We propose that travelling waves, similar to those owing to acoustic far-field pressure changes, are driven by a jet-like, near-field component of a complex pressure field, which is generated by the magnetically vibrated RW. Outcomes of research described here are theoretical and practical design principles for the development of new types of hearing aids, which use near-field, RW excitation of the cochlea.

cochlear round window, guinea pig, cochlea, cochlear excitation, active middle ear prosthesis, implantable hearing aid, near-field excitation
20131120-[11pp]
Weddell, T.D.
6467f276-ad67-4005-b5cc-0030478f6ffb
Yarin, Y.M.
4b1e59ed-ca68-431f-a66f-f887107a587d
Drexl, M.
c8b863be-c116-447d-b179-92becb810d96
Russell, I.J.
1431ed66-db26-47a9-a113-1f34d725c180
Elliott, S. J.
721dc55c-8c3e-4895-b9c4-82f62abd3567
Lukashkin, A.N.
a7bc5e2c-00a5-4043-9953-3066e38015b2
Weddell, T.D.
6467f276-ad67-4005-b5cc-0030478f6ffb
Yarin, Y.M.
4b1e59ed-ca68-431f-a66f-f887107a587d
Drexl, M.
c8b863be-c116-447d-b179-92becb810d96
Russell, I.J.
1431ed66-db26-47a9-a113-1f34d725c180
Elliott, S. J.
721dc55c-8c3e-4895-b9c4-82f62abd3567
Lukashkin, A.N.
a7bc5e2c-00a5-4043-9953-3066e38015b2

Weddell, T.D., Yarin, Y.M., Drexl, M., Russell, I.J., Elliott, S. J. and Lukashkin, A.N. (2014) A novel mechanism of cochlear excitation during simultaneous stimulation and pressure relief through the round window. Journal of the Royal Society Interface, 11 (93), 20131120-[11pp]. (doi:10.1098/?rsif.2013.1120). (PMID:24501274)

Record type: Article

Abstract

The round window (RW) membrane provides pressure relief when the cochlea is excited by sound. Here, we report measurements of cochlear function from guinea pigs when the cochlea was stimulated at acoustic frequencies by movements of a miniature magnet which partially occluded the RW. Maximum cochlear sensitivity, corresponding to subnanometre magnet displacements at neural thresholds, was observed for frequencies around 20 kHz, which is similar to that for acoustic stimulation. Neural response latencies to acoustic and RW stimulation were similar and taken to indicate that both means of stimulation resulted in the generation of conventional travelling waves along the cochlear partition. It was concluded that the relatively high impedance of the ossicles, as seen from the cochlea, enabled the region of the RW not occluded by the magnet, to act as a pressure shunt during RW stimulation. We propose that travelling waves, similar to those owing to acoustic far-field pressure changes, are driven by a jet-like, near-field component of a complex pressure field, which is generated by the magnetically vibrated RW. Outcomes of research described here are theoretical and practical design principles for the development of new types of hearing aids, which use near-field, RW excitation of the cochlea.

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Accepted/In Press date: 16 January 2014
Published date: 5 February 2014
Keywords: cochlear round window, guinea pig, cochlea, cochlear excitation, active middle ear prosthesis, implantable hearing aid, near-field excitation
Organisations: Signal Processing & Control Grp

Identifiers

Local EPrints ID: 362010
URI: http://eprints.soton.ac.uk/id/eprint/362010
PURE UUID: 3e847947-3922-4900-bb2f-808dbbe1a820

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Date deposited: 10 Feb 2014 11:39
Last modified: 14 Mar 2024 15:59

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Contributors

Author: T.D. Weddell
Author: Y.M. Yarin
Author: M. Drexl
Author: I.J. Russell
Author: S. J. Elliott
Author: A.N. Lukashkin

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