Effect of outer hair cell membrane piezoelectric properties on the receptor potential under high-frequency conditions

Author

Spector, A.A. ; Brownell, W.E. ; Popel, AS

Author_Institution

Dept. of Biomed. Eng., Johns Hopkins Univ., Baltimore, MD, USA

Volume

1

fYear

2002

fDate

2002

Firstpage

369

Abstract

We have found that the band pass characteristics of the cochlear outer hair cell can be improved by introducing the piezoelectric properties of the cell membrane. In contrast to the conventional analysis, the cell membrane receptor potential does not tend to zero and at any frequency is greater than a limiting value. The piezoelectric properties cause an additional, strain-dependent, displacement current in the cell wall. In short cells, we have found that for the low-frequency value about 2-3 mV and the strain level 0.1% the receptor potential can reach 0.4 mV throughout the whole frequency range. In long cells, we have found that the effect of the piezoelectric properties is negligible.

Keywords

auditory evoked potentials; biomembranes; cellular biophysics; ear; physiological models; piezoelectricity; 0.4 mV; 2 to 3 mV; auditory electrophysiology; band pass characteristics; cell length changes; cochlear outer hair cell; computational method; equivalent electric circuit; high-frequency conditions; outer hair cell electromotility; outer hair cell membrane piezoelectric properties; receptor potential; stereocilia; strain-dependent displacement current; Biomedical engineering; Biomembranes; Capacitive sensors; Cells (biology); Circuits; Deformable models; Educational institutions; Frequency; Hair; Piezoelectricity;

fLanguage

English

Publisher

ieee

Conference_Titel

Engineering in Medicine and Biology, 2002. 24th Annual Conference and the Annual Fall Meeting of the Biomedical Engineering Society EMBS/BMES Conference, 2002. Proceedings of the Second Joint

ISSN

1094-687X

Print_ISBN

0-7803-7612-9

Type

conf

DOI

10.1109/IEMBS.2002.1136849

Filename

1136849