PURPOSE: Downbeat nystagmus (DBN) is a typical ocular motor sign in patients with lesions of the vestibulocerebellum. A vertical vestibular tone asymmetry, an upward shift of the eyes' null position for vertical gaze holding, or an imbalance of vertical smooth-pursuit signals have been proposed as mechanisms of DBN. The purpose of this study was to elaborate a possible link between an imbalance in the vertical smooth-pursuit system and DBN by relying on a healthy human model. METHODS: Healthy subjects (n=6) were exposed to continuous asymmetric smooth-pursuit stimulation over 20 minutes. RESULTS: Prolonged asymmetric smooth-pursuit stimulation induced a drift lasting >5 minutes in the direction of the prior pursuit. Upward drift was faster than downward drift and showed eye-position dependence in accordance with Alexander's law, but no increase of drift velocity with lateral gaze. Upward drift violated Listing's law in three of four subjects tested. CONCLUSIONS: An experimentally induced vertical smooth-pursuit imbalance leads to DBN in healthy human subjects. Accordingly, because in patients with cerebellar disease upward smooth-pursuit eye movements are typically better preserved than downward, the resultant sustained imbalance of vertical smooth-pursuit input may play a major role in the generation of DBN.
PURPOSE: Downbeat nystagmus (DBN) is a typical ocular motor sign in patients with lesions of the vestibulocerebellum. A vertical vestibular tone asymmetry, an upward shift of the eyes' null position for vertical gaze holding, or an imbalance of vertical smooth-pursuit signals have been proposed as mechanisms of DBN. The purpose of this study was to elaborate a possible link between an imbalance in the vertical smooth-pursuit system and DBN by relying on a healthy human model. METHODS: Healthy subjects (n=6) were exposed to continuous asymmetric smooth-pursuit stimulation over 20 minutes. RESULTS: Prolonged asymmetric smooth-pursuit stimulation induced a drift lasting >5 minutes in the direction of the prior pursuit. Upward drift was faster than downward drift and showed eye-position dependence in accordance with Alexander's law, but no increase of drift velocity with lateral gaze. Upward drift violated Listing's law in three of four subjects tested. CONCLUSIONS: An experimentally induced vertical smooth-pursuit imbalance leads to DBN in healthy human subjects. Accordingly, because in patients with cerebellar disease upward smooth-pursuit eye movements are typically better preserved than downward, the resultant sustained imbalance of vertical smooth-pursuit input may play a major role in the generation of DBN.
Authors: Mark F Walker; Jing Tian; Xiaoyan Shan; Rafael J Tamargo; Howard Ying; David S Zee Journal: J Neurophysiol Date: 2008-07-23 Impact factor: 2.714
Authors: Ting-Feng Lin; Christina Gerth-Kahlert; James V M Hanson; Dominik Straumann; Melody Ying-Yu Huang Journal: Front Neurol Date: 2018-03-14 Impact factor: 4.003
Authors: Pasquale Viola; Vincenzo Marcelli; Domenico Sculco; Davide Pisani; Alfredo Caglioti; Filippo Ricciardiello; Alfonso Scarpa; Alessia Astorina; Giuseppe Tortoriello; Luca Gallelli; Giovambattista De Sarro; Giuseppe Chiarella Journal: Int J Environ Res Public Health Date: 2022-02-16 Impact factor: 3.390