Authors
Ji-Hyung Park, Eun-Hyuk Choi, Jorge Otero-Millan, David S Zee, Jeong-Yoon Choi, Ji-Soo Kim
Published in
Annals of clinical and translational neurology. Jul 08, 2026. Epub Jul 08, 2026.
Abstract
Downbeat nystagmus varies with head position, a phenomenon termed gravity-dependent modulation. We aimed to clarify its mechanism using a velocity-storage model.
In 10 patients with downbeat nystagmus due to cerebellar disorders, we recorded eye movements at different pitch- and roll-axis head positions. Sine-wave fitting of the nystagmus intensity as a function of head position decomposed the slow-phase velocity of nystagmus into a gravity-dependent component-the amplitude and phase shift of the sine-wave term-and a gravity-independent constant offset. To probe mechanisms, we applied a velocity-storage model simulating the estimation of rotational velocity, gravity orientation, and inertial acceleration, and incorporated a gravity-estimator lesion that produced a gravity-estimation bias.
The gravity-dependent component during pitch-axis modulation had a median amplitude of 3.8°/s (interquartile range [IQR] = 2.6) and a phase shift of 158.5° (57.9). During roll-axis modulation, it had an amplitude of 2.1°/s (1.5) and a phase shift of -0.9° (147.6), with two subgroups showing phase shifts near ±90°. The amplitude was significantly larger during pitch- than roll-axis modulation (p < 0.05). The lesion model generated persistent rotational cues that modulated downbeat nystagmus intensity as observed in the patients and additionally explained the interindividual variation in phase shifts and the weaker modulation of downbeat nystagmus during head roll.
These findings refine our understanding of cerebellar vestibular processing and provide a computational framework for positional modulation of downbeat nystagmus. The concept of a biased gravity estimate may further account for several clinical phenomena, including atypical patterns of positional nystagmus.
PMID:
42417097
Bibliographic data and abstract were imported from PubMed on 08 Jul 2026.
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