The influence of cochlear shape on low-frequency hearing

Manoussaki, D., Chadwick , R. S., Ketten, D. R., Arruda, J., Dimitriadis, E. K., O'Malley, J. T.

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http://purl.tuc.gr/dl/dias/5D4CE22B-50E3-4132-B9CC-4721A781891A

Year

2008

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Peer-Reviewed Journal Publication

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Bibliographic Citation

D. Manoussaki, R. S. Chadwick, D. R. Ketten, J. Arruda, E. K. Dimitriadis, and J. T. O'Malley, "The influence of cochlear shape on low-frequency hearing," PNAS, vol.105, no. 16, pp. 6162–6166, Feb. 2008. doi: 10.1073/pnas.0710037105 https://doi.org/10.1073/pnas.0710037105

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Journal Publications in Community School of Electrical and Computer Engineering

Summary

The conventional theory about the snail shell shape of the mammalian cochlea is that it evolved essentially and perhaps solely to conserve space inside the skull. Recently, a theory proposed that the spiral's graded curvature enhances the cochlea's mechanical response to low frequencies. This article provides a multispecies analysis of cochlear shape to test this theory and demonstrates that the ratio of the radii of curvature from the outermost and innermost turns of the cochlear spiral is a significant cochlear feature that correlates strongly with low-frequency hearing limits. The ratio, which is a measure of curvature gradient, is a reflection of the ability of cochlear curvature to focus acoustic energy at the outer wall of the cochlear canal as the wave propagates toward the apex of the cochlea.

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The influence of cochlear shape on low-frequency hearing

Manoussaki, D., Chadwick , R. S., Ketten, D. R., Arruda, J., Dimitriadis, E. K., O'Malley, J. T.

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