Temporal dynamics of ocular torsion and vertical vergence during visual, vestibular, and visuovestibular rotations
Tobias Wibble

TL;DR
This study explores how eye movements respond to visual, vestibular, and combined stimuli, revealing how the brain integrates sensory information during motion.
Contribution
The study provides new insights into the temporal dynamics of ocular torsion and vertical vergence during different types of motion.
Findings
Ocular torsion initiates earlier than vertical vergence, especially with higher visual clutter.
Visuovestibular motion triggers faster onsets compared to vestibular motion alone.
Visual content influences torsional onset more than vergence during the decay period.
Abstract
Ocular torsion and vertical divergence reflect the brain’s sensorimotor integration of motion through the vestibulo-ocular reflex (VOR) and the optokinetic reflex (OKR) to roll rotations. Torsion and vergence however express different response patterns depending on several motion variables, but research on their temporal dynamics remains limited. This study investigated the onset times of ocular torsion (OT) and vertical vergence (VV) during visual, vestibular, and visuovestibular motion, as well as their relative decay rates following prolonged optokinetic stimulations. Temporal characteristics were retrieved from three separate investigations where the level of visual clutter and acceleration were controlled. Video eye-tracking was used to retrieve the eye-movement parameters from a total of 41 healthy participants across all trials. Ocular torsion consistently initiated earlier than…
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Taxonomy
TopicsVestibular and auditory disorders · Ophthalmology and Eye Disorders · Visual perception and processing mechanisms
