Thresholds for self-motion perception in roll without and with visual fixation target - the visual-vestibular interaction effect

• Published in: Functional neurology Vol. 30; no. 2; pp. 99 - 104
• Main Author: Kolev, Ognyan I
• Format: Journal Article
• Language: English
• Published: Roma CIC Edizioni Internazionali 01.04.2015; CIC Edizioni Internationali
• ISSN: 0393-5264; 1971-3274
• DOI: 10.11138/FNeur/2015.30.2.099

The purpose of this study was to establish the self-motion perception threshold, in roll, in the visual-vestibular interaction (VVI) state, creating an oculogyral illusion, and to compare this threshold to the self-motion perception threshold in darkness. A further aim was to investigate the dynamics of the threshold at a low frequency range (0.1–1 Hz) of sinusoidal rotation. Seven healthy subjects were tested. A motion platform was used to generate motion. Single cycles of sinusoidal acceleration at four frequencies (0.1, 0.2, 0.5 and 1 Hz) were used as motion stimuli. To avoid otolith stimulation, subjects were rotated about a vertical axis in supine position. To evoke an oculogyral illusion subjects were instructed to fixate their gaze on a cross-shaped object aligned with their head, which rotated with them. The results show a lowering of the self-motion perception threshold in the VVI state, significant for the frequencies 0.1 and 0.2 Hz (p<0.05). In all the subjects, visual fixation on the cross evoked an oculogyral illusion. The threshold in both tested conditions was frequency dependent: it decreased with increasing frequency values. However, this effect was consistently stronger in darkness across all frequencies (p<0.05). In conclusion, the application of sinusoidal rotation during roll at low frequencies in the VVI condition evokes oculogyral illusion. This interaction lowers the self-motion perception threshold compared to that measured during rotation in darkness. This testing method could be of practical benefit in clinical application for revealing brain dysfunction involving integrative mechanisms of perception.