Biomimicking: Electro-Elastic Structural Speciality in Auditory Receptor Cells.
Abstract
A recent discovery is that certain receptor cells in the cochlea in the inner ear undergo displacement due to an electric field, for frequencies as high as 25 kHz in the guinea pig. In the hearing process, these cells are likely to provide the important feedback mechanism for the enhancement of low amplitude sound. Part is due to the unique microstructural design of the wall of the cell, consisting of a passive elastic cytoskeleton and an isotropic piezoelectric membrane. Using measurements from several laboratories permitted the calculation of the orthotropic piezoelectric properties of the wall. With our measurements, the elastic moduli of the protein components in the cytoskeleton were determined Computations of the dynamic response of the whole cell containing and immersed a viscous fluid agree fairly well with experiments. Despite the small cell size, small in comparison with the viscous boundary layer, the orthotropic design permits the cell to delivery significant force with low electric signal at auditory frequencies. Possible application of the design to devices is being pursued.
Document Details
- Document Type
- Technical Report
- Publication Date
- Sep 16, 1995
- Accession Number
- ADA299948
Entities
People
- Charles R. Steele
Organizations
- Stanford University