A model design for the labyrinthine membranes in mammals

Authors

  • Daniel J. Pender MSE, MD

    Corresponding author
    1. Department of Otolaryngology, Columbia University, New York, New York, U.S.A
    • Send correspondence to Daniel J. Pender, MD, 145 West 86th Street, Suite 1C, New York, NY 10024. E-mail: djp2@columbia.edu

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    • Daniel J. Pender, MD, is the sole author of this work and is responsible for it in its entirety.


  • The author has no funding, financial relationships, or conflicts of interest to disclose.

Abstract

Objectives/Hypothesis

A model of the labyrinthine membranes in mammals may be useful in the study of conditions that involve membrane stress and deformation such as Meniere's disease and diving injuries.

Study Design

Conceptual design of a model of the labyrinthine membranes in mammals.

Methods

The model is constructed by emulating each of the several chambers of the membranous labyrinth and their connections with mathematically defined geometric shapes.

Results

The model design uses a torus to emulate each semicircular canal, prolate spheroids for each ampulla, cylinders for the crus commune and utricle, an oblate spheroid for the saccule, hyperboloids of revolution for junctional zones, and a spiral torus for the cochlea membranes.

Conclusions

A complete model of the labyrinthine membranes has been designed that can serve as a platform for stress analysis when numerical dimensions are available for any particular species including man.

Level of Evidence

NA Laryngoscope, 124:E245–E249, 2014

Ancillary