Cerebellum and ocular motor control.
Amir Kheradmand,David S. Zee +1 more
TL;DR: The approach will be based on structural–functional correlation, combining the effects of lesions and the results from physiologic studies, with the emphasis on the cerebellar regions known to be most closely related to ocular motor function.
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Abstract: An intact cerebellum is a prerequisite for optimal ocular motor performance. The cerebellum fine-tunes each of the subtypes of eye movements so they work together to bring and maintain images of objects of interest on the fovea. Here we review the major aspects of the contribution of the cerebellum to ocular motor control. The approach will be based on structural–functional correlation, combining the effects of lesions and the results from physiologic studies, with the emphasis on the cerebellar regions known to be most closely related to ocular motor function: (1) the flocculus/paraflocculus for high-frequency (brief) vestibular responses, sustained pursuit eye movements, and gaze holding, (2) the nodulus/ventral uvula for low-frequency (sustained) vestibular responses, and (3) the dorsal oculomotor vermis and its target in the posterior portion of the fastigial nucleus (the fastigial oculomotor region) for saccades and pursuit initiation.
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Citations
Functional correlates of vertical gaze palsy and other ocular motor deficits in PSP: an FDG-PET study.
Florian Amtage,Christoph Maurer,Sabine Hellwig,Oliver Tüscher,Oliver Tüscher,Annabelle Kreft,Cornelius Weiller,Michel Rijntjes,Christian Winkler,Philipp T. Meyer +9 more
TL;DR: Ocular motor functions in PSP are correlated with neuronal activity in distinct anatomical regions including the anterior cingulate gyrus, rostral cerebellum, oculomotor vermis, and inferior parietal as well as temporal regions and frontal eye field (smooth pursuit).
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- 01 Jan 2023
TL;DR: Die systematische Untersuchung von Augenbewegungen ermöglicht eine präzise topografisch-anatomische Diagnose neurologischer Erkrankungen.
Neuropsychiatric Symptoms in Rhombencephalosynapsis: A Clinical Report
Dennis J.L.G. Schutter,Dan Doherty,James O. Phillips,Avery H. Weiss,Roderick P.P.W.M. Maas +4 more
TL;DR: A 22-year-old patient with rhombencephalosynapsis exhibits neuropsychiatric symptoms, including emotional reactivity, impulsivity, and executive functioning impairments, since early childhood, suggesting a link between hindbrain malformations and increased vulnerability to mental health issues.
Cortical and sub-cortical control of saccades and clinical application
TL;DR: The basic neural structures involved in saccades processes are reviewed, a special emphasis being given to clinically relevant mechanisms.
Abnormal saccade profiles in hereditary spinocerebellar degeneration reveal cerebellar contribution to visually guided saccades
Satomi Inomata‐Terada,Hideki Fukuda,Shin‐ichi Tokushige,Shinya Matsuda,Masayuki Hamada,Yoshikazu Ugawa,Shoji Tsuji,Yasuo Terao +7 more
TL;DR: Saccade recordings reveal cerebellar involvement in hereditary spinocerebellar degeneration with disease progression.
References
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The neurology of eye movements
R. John Leigh,David S. Zee +1 more
- 01 Jun 1991
TL;DR: The Neurology of Eye Movements: Characteristics and Teleology by R. John Leigh, M.D., and David S. Zee MD as mentioned in this paper is a survey of eye movement.
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•Journal Article
Neurology of eye movements
TL;DR: Eye movements are necessary for clear and stable vision, for which images of the world should be brought to the fovea and be held steady on the retina.
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Adaptive gain control of vestibuloocular reflex by the cerebellum.
TL;DR: It is proposed that detecting and repairing dysmetria (of natural origin) is an important cerebellar function and the vestibulocerebellum is necessary for this adaptive process.
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Effects of ablation of flocculus and paraflocculus of eye movements in primate
TL;DR: The results implicate the flocculus and possibly the paraflocculus in the control of the time constant and stability of the brain stem oculomotor integrators.
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Cerebellar-dependent adaptive control of primate saccadic system
TL;DR: The cerebellum's principal contribution to saccadic eye movements is the adjustment of the gains of the pulse- and step-generating mechanisms, which supports the hypothesis that repair of dysmetria is a general function of the cerebellums.
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