Your search keyword '"*VESTIBULO-ocular reflex"' showing total 2 results

1. Evolution of the vestibular function during head impulses in spinocerebellar ataxia type 6.

Author

Lee, Sun-Uk, Kim, Ji-Soo, Kim, Hyo-Jung, Choi, Jeong-Yoon, Park, Ji-Yun, Kim, Jong-Min, and Yang, Xu

Subjects

*SPINOCEREBELLAR ataxia, *SEMICIRCULAR canals, *VESTIBULO-ocular reflex, *RANK correlation (Statistics), *BIOLOGICAL evolution

Abstract

Evolution of vestibular function requires further elucidation in spinocerebellar ataxia (SCA). This study aimed to determine temporal evolution in the findings of head impulse tests (HITs) in SCA type 6 (SCA6). We serially evaluated HITs in 12 patients with SCA6 using video-oculography for 3 months to 5 years [median = 12 months, interquartile range (IQR) = 9–50] at two university hospitals in South Korea. Patients (8/12, 67%) usually showed abnormal responses at least for one semicircular canal during video-HITs. The gains of the vestibulo-ocular reflex (VOR) for the anterior canals (ACs) were larger than those for the posterior canals (PCs, p = 0.005) at initial presentation. During the follow-up, the VOR gains decreased for the horizontal canals (HCs, p = 0.008) and ACs (p = 0.021), but those for the PCs remained unchanged (p = 0.212). Perverted HITs were observed in seven patients (7/12, 58%). The differences in the head impulse VOR gains were larger between the ACs and PCs (ΔACs − PCs) in those with perverted HITs than in those without (p = 0.003). The gains for each semicircular canal showed a negative correlation with the Scale for the Assessment and Rating of Ataxia (HCs, Spearman's coefficient = − 0.675, p = 0.003; ACs, − 0.637, p = 0.006; PCs, − 0.605, p = 0.010). The head impulse gain of the VOR may serve a marker for clinical decline in SCA6. The dissociation in the temporal evolution of the VOR gain indicates dissimilar cerebellar modulation of the vestibular signals from each semicircular canal. [ABSTRACT FROM AUTHOR]

Published

2020

2. Differences in optokinetic and vestibular ocular reflex performance in teleosts and their relationship to different life styles

Author

I. Reichenberger, W. Graf, and N. Dieringer

Subjects

medicine.medical_specialty, genetic structures, Eye Movements, Dark Adaptation, Nystagmus, Audiology, Biology, Motor Activity, Social Environment, Retina, Behavioral Neuroscience, Developmental Neuroscience, Goldfish, medicine, Saccades, Animals, Vestibular system, Fishes, Eye movement, Anatomy, Optokinetic reflex, Reflex, Vestibulo-Ocular, Vestibular Nuclei, Biological Evolution, eye diseases, Saccadic masking, Fresh water, Reflex, sense organs, Vestibulo–ocular reflex, medicine.symptom

Abstract

Horizontal eye movements in response to vestibular and optokinetic stimulation were investigated in 20 species of marine and fresh water teleosts. Most species performed spontaneous saccadic eye movements in light and in darkness. Successive saccades occurred either at irregular intervals and in different directions (few species), or in bursts of smaller saccades in one direction followed by saccades in the opposite direction (majority of species). Thus, in the latter group the lines of sight shifted cyclically from one side to the other about every 10-15 s. Eye movement responses in goldfish and toadfish were prototypical for two major functional groups. Optokinetic and vestibular nystagmus in the goldfish were much more regular and attained significantly higher gains than in the oyster toadfish. Optokinetic afternystagmus (OKAN) and per-/postrotatory nystagmus lasted about 10-12 s in the goldfish, but only 2-3 s in the oyster toadfish. Bilateral labyrinthectomy in goldfish resulted in optokinetic gains and OKAN durations that were very close to those of intact toadfish. These results indicate the presence (in goldfish) and the absence (in toadfish) of a functioning velocity storage network, respectively. Other non-ostariophysan teleosts failed to show a 'goldfish-like' response pattern as well. Ostariophysan species differed in their reflex performance as well. A 'goldfish-like' response pattern was observed in five of the seven cypriniform species and in two of the four characiform species but not in the four siluriform species. Positively correlated, combined response properties suggest that some species are better equipped for gaze stabilization at higher velocities than other species. These behavioral differences may parallel different specializations in locomotor pattern and mode of life. Absence of a functioning velocity storage network in bottom-dwelling teleosts (as in Amphibia) may be related to the sporadic, slow locomotion of these species and the resulting small requirements for continuous gaze stabilization during self-motion at higher velocities.

Published

1992