Affiliations: [a] Institute of Physics, Natl. Acad. Sci., Kiev, Ukraine | [b] BioVIS Technology Center, Ames Research Center, NASA, Moffett Field, CA, USA
Correspondence:
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Corresponding author: Dr. Alexander V. Kondrachuk, Department of Theoretical Physics, Institute of Physics, Natl. Acad. Sci. of Ukraine, 46 prospekt Nauki, Kiev, 03028, Ukraine. Tel.: +38 044 525 08 23; Fax: +38 044 525 15 89; E-mail: kondr@kondr.kiev.ua
Abstract: The effect of different densities of a cupula and endolymph on the dynamics of the semicircular canals is considered within the framework of a simplified one-dimensional mathematical model where the canal is approximated by a torus. If the densities are equal, the model is represented by Steinhausen's phenomenological equation. The difference of densities results in the complex dynamics of the cupulo-endolymphatic system, and leads to a dependence on the orientation of both the gravity vector relative to the canal plane and the axis of rotation, as well as on the distance between the axis of rotation and the center of the semicircular canal. Our analysis focused on two cases of canal stimulation: rotation with a constant velocity and a time-dependent (harmonically oscillating) angular velocity. Two types of spatial orientation of the axis of rotation, the axis of canal symmetry, and the vector of gravity were considered: i) the gravity vector and axis of rotation lie in the canal plane, and ii) the axis of rotation and gravity vector are normal to the canal plane. The difference of the cupula and endolymph densities reveals new features of cupula dynamics, for instance – a shift of the cupula to a new position of equilibrium that depends on the gravity vector and the parameters of head rotation, and the onset of cupula oscillations with multiple frequencies that results in the distortion of cupula dynamics relative to harmonic stimulation. Factors that might influence the density difference effects and the conditions under which these effects occur are discussed.
