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Neuro-Ophthalmology Volume 15, 1995 - Issue 2
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Original Article

Differential Effect of a Bilateral Deep Cerebellar Nuclei Lesion on Externally and Internally Triggered Saccades in Humans

Andreas Straube Departments of Neurology, Max-Planck-lnstitute for Psychological Research, Germany
,
Heiner Deubel Departments of Neurology, Max-Planck-lnstitute for Psychological Research, Germany
,
Andreas Spuler Departments of Neurosurgery, University of Munich, Germany
&
Ulrich Büttner Departments of Neurosurgery, University of Munich, Germany
Pages 67-74 | Published online: 08 Jul 2009

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Steliana Borisova, Otmar Bock & Valentina Grigorova. (2014) Concurrent Directional Adaptation of Reactive Saccades and Hand Movements to Target Displacements of Different Size. Journal of Motor Behavior 46:5, pages 303-308.
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Articles from other publishers (61)

Satomi Inomata-Terada, Hideki Fukuda, Shin-ichi Tokushige, Shun-ichi Matsuda, Masashi Hamada, Yoshikazu Ugawa, Shoji Tsuji & Yasuo Terao. (2023) Abnormal saccade profiles in hereditary spinocerebellar degeneration reveal cerebellar contribution to visually guided saccades. Clinical Neurophysiology 154, pages 70-84.
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Christoph Helmchen, Björn Machner, Hannes Schwenke & Andreas Sprenger. (2022) Bilateral lesion of the cerebellar fastigial nucleus: Effects on smooth pursuit acceleration and non-reflexive visually-guided saccades. Frontiers in Neurology 13.
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Aasef Shaikh & Fajun WangAasef Shaikh & Fajun Wang. 2021. Eye Movements in the Critical Care Setting. Eye Movements in the Critical Care Setting 97 107 .
Nico A. Flierman, Alla Ignashchenkova, Mario Negrello, Peter Thier, Chris I. De Zeeuw & Aleksandra Badura. (2019) Glissades Are Altered by Lesions to the Oculomotor Vermis but Not by Saccadic Adaptation. Frontiers in Behavioral Neuroscience 13.
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S. Colnaghi, P. Colagiorgio, M. Versino, G. Koch, E. D'Angelo & S. Ramat. (2017) A role for NMDAR-dependent cerebellar plasticity in adaptive control of saccades in humans. Brain Stimulation 10:4, pages 817-827.
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Yasuo Terao, Hideki Fukuda, Shin-ichi Tokushige, Satomi Inomata-Terada, Akihiro Yugeta, Masashi Hamada & Yoshikazu Ugawa. (2017) Distinguishing spinocerebellar ataxia with pure cerebellar manifestation from multiple system atrophy (MSA-C) through saccade profiles. Clinical Neurophysiology 128:1, pages 31-43.
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Hideyuki Matsumoto. (2016) A neurophysiological examination of basal ganglia and cerebellum. Clinical Neurophysiology 127:2, pages 1007-1008.
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Yasuo Terao, Hideki Fukuda, Shinnichi Tokushige, Satomi Inomata-Terada, Akihiro Yugeta, Masashi Hamada, Yaeko Ichikawa, Ritsuko Hanajima & Yoshikazu Ugawa. (2016) Is multiple system atrophy with cerebellar ataxia (MSA-C) like spinocerebellar ataxia and multiple system atrophy with parkinsonism (MSA-P) like Parkinson’s disease? – A saccade study on pathophysiology. Clinical Neurophysiology 127:2, pages 1491-1502.
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Filipp Filippopulos, Thomas Eggert & Andreas Straube. (2012) Effects of cerebellar infarcts on cortical processing of saccades. Journal of Neurology 260:3, pages 805-814.
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Patrick J.M. Lavin. 2012. Neurology in Clinical Practice. Neurology in Clinical Practice 587 633 .
F. Schnier & M. Lappe. (2011) Differences in intersaccadic adaptation transfer between inward and outward adaptation. Journal of Neurophysiology 106:3, pages 1399-1410.
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Yoshiko Kojima, Robijanto Soetedjo & Albert F. Fuchs. (2010) Behavior of the Oculomotor Vermis for Five Different Types of Saccade. Journal of Neurophysiology 104:6, pages 3667-3676.
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Yoshiki Iwamoto & Yuki Kaku. (2010) Saccade adaptation as a model of learning in voluntary movements. Experimental Brain Research 204:2, pages 145-162.
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J. Johanna Hopp & Albert F. Fuchs. (2009) Identifying sites of saccade amplitude plasticity in humans: transfer of adaptation between different types of saccade. Experimental Brain Research 202:1, pages 129-145.
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Thérèse Collins & Karine Doré-Mazars. (2009) La plasticité de la transformation sensori-motrice dans le système visuel : l’adaptation saccadique. L’Année psychologique 109:03, pages 509.
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Thérèse Collins & Karine Doré-Mazars. (2009) La plasticité de la transformation sensori-motrice dans le système visuel : l’adaptation saccadique. L’Année psychologique Vol. 109:3, pages 509-549.
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Patrick J.M. Lavin & David Morrison. 2008. Neurology in Clinical Practice. Neurology in Clinical Practice 705 727 .
Matthias F. Nitschke, Ferdinand Binkofski, Giovanni Buccino, Stefan Posse, Christian Erdmann, Detlef Kömpf, Rüdiger J. Seitz & Wolfgang Heide. (2004) Activation of cerebellar hemispheres in spatial memorization of saccadic eye movements: An fMRI study. Human Brain Mapping 22:2, pages 155-164.
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J.Johanna Hopp & Albert F Fuchs. (2004) The characteristics and neuronal substrate of saccadic eye movement plasticity. Progress in Neurobiology 72:1, pages 27-53.
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Denis Pélisson, Laurent Goffart & Alain Guillaume. 2003. Neural Control of Space Coding and Action Production. Neural Control of Space Coding and Action Production 69 89 .
Michael R. MacAskill, Tim J. Anderson & Richard D. Jones. 2002. The Brain's eye: Neurobiological and clinical aspects of oculomotor research. The Brain's eye: Neurobiological and clinical aspects of oculomotor research 417 431 .
Mineo Takagi, Peter Trillenberg & David S Zee. (2001) Adaptive control of pursuit, vergence and eye torsion in humans: basic and clinical implications. Vision Research 41:25-26, pages 3331-3344.
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U. Büttner. 1999. Current Oculomotor Research. Current Oculomotor Research 383 390 .
Mineo Takagi, David S. Zee & Rafael J. Tamargo. (1998) Effects of Lesions of the Oculomotor Vermis on Eye Movements in Primate: Saccades. Journal of Neurophysiology 80:4, pages 1911-1931.
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W. Thomas Thach. (2011) Q: Is the cerebellum an adaptive combiner of motor and mental/motor activities? A: Yes, maybe, certainly not, who can say?. Behavioral and Brain Sciences 19:03, pages 501-528.
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Allan M. Smith. (2011) Resilient cerebellar theory complies with stiff opposition. Behavioral and Brain Sciences 19:03, pages 499-501.
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J. I. Simpson, D. R. W. Wylie & C.I. De Zeeuw. (2011) More on climbing fiber signals and their consequence(s). Behavioral and Brain Sciences 19:03, pages 496-498.
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James C. Houk & Andrew G. Barto. (2011) More models of the cerebellum. Behavioral and Brain Sciences 19:03, pages 492-496.
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Steven R. Vincent. (2011) No more news from the cerebellum. Behavioral and Brain Sciences 19:03, pages 490-492.
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Masanobu Kano. (2011) A bridge between cerebellar long-term depression and discrete motor learning: Studies on gene knockout mice. Behavioral and Brain Sciences 19:03, pages 488-490.
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F. Crépel. (2011) Cellular mechanisms of long-term depression: From consensus to open questions. Behavioral and Brain Sciences 19:03, pages 488.
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David J. Linden. (2011) A cerebellar long-term depression update. Behavioral and Brain Sciences 19:03, pages 482-487.
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Karl Wessel. (2011) Plasticity of cerebro-cerebellar interactions in patients with cerebellar dysfunction. Behavioral and Brain Sciences 19:03, pages 481-482.
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Craig Weiss & John F. Disterhoft. (2011) Eyeblink conditioning, motor control, and the analysis of limbic-cerebellar interactions. Behavioral and Brain Sciences 19:03, pages 479-481.
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Gerard P. Van Galen, Angelique W. Hendriks & Willem P. DeJong. (2011) What behavioral benefit does stiffness control have? An elaboration of Smith's proposal. Behavioral and Brain Sciences 19:03, pages 478-479.
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Paul van Donkelaar. (2011) Sensorimotor learning in structures “upstream” from the cerebellum. Behavioral and Brain Sciences 19:03, pages 477-478.
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D. Timmann & H. C. Diener. (2011) Limitations of PET and lesion studies in defining the role of the human cerebellum in motor learning. Behavioral and Brain Sciences 19:03, pages 477.
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Richard F. Thompson. (2011) Motor learning and synaptic plasticity in the cerebellum. Behavioral and Brain Sciences 19:03, pages 475-477.
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Stephan P. Swinnen, Charles B. Walter & Natalia Dounskaia. (2011) We know a lot about the cerebellum, but do we know what motor learning is?. Behavioral and Brain Sciences 19:03, pages 474-475.
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Fahad Sultan, Detlef Heck & Harold Bekkering. (2011) How to link the specificity of cerebellar anatomy to motor learning?. Behavioral and Brain Sciences 19:03, pages 474.
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Jeremy D. Schmahmann. (2011) Dysmetria of thought: Correlations and conundrums in the relationship between the cerebellum, learning, and cognitive processing. Behavioral and Brain Sciences 19:03, pages 472-473.
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Patrick D. Roberts, Gin McCollum & Jan E. Holly. (2011) Cerebellar rhythms: Exploring another metaphor. Behavioral and Brain Sciences 19:03, pages 471-472.
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Michael G. Paulin. (2011) Cerebellar theory out of control. Behavioral and Brain Sciences 19:03, pages 470-471.
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Shane M. O'Mara. (2011) The cerebellum and cerebral cortex: Contrasting and converging contributions to spatial navigation and memory. Behavioral and Brain Sciences 19:03, pages 469-470.
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Daisuke Okada. (2011) Nitric oxide is involved in cerebellar long-term depression. Behavioral and Brain Sciences 19:03, pages 468-469.
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Junko Mori-Okamoto & Koichi Okamoto. (2011) Further evidence for the involvement of nitric oxide in trans-ACPD-induced suppression of AMPA responses in cultured chick Purkinje neurons. Behavioral and Brain Sciences 19:03, pages 467-468.
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R. C. Miall, M. Malkmus & E. M. Robertson. (2011) Sensory prediction as a role for the cerebellum. Behavioral and Brain Sciences 19:03, pages 466-467.
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Lev P. Latash & Mark L. Latash. (2011) The notions of joint stiffness and synaptic plasticity in motor memory. Behavioral and Brain Sciences 19:03, pages 465-466.
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J. Hore. (2011) Cerebellar arm ataxia: Theories still have a lot to explain. Behavioral and Brain Sciences 19:03, pages 457.
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Germund Hesslow. (2011) Positive cerebellar feedback loops. Behavioral and Brain Sciences 19:03, pages 455-456.
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Nick A. Hartell. (2011) Two separate pathways for cerebellar LTD: NO-dependent and NO-independent. Behavioral and Brain Sciences 19:03, pages 453-455.
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Peter F. C. Gilbert. (2011) How and what does the cerebellum learn?. Behavioral and Brain Sciences 19:03, pages 449-450.
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C. Gielen. (2011) Cerebellum does more than recalibration of movements after perturbations. Behavioral and Brain Sciences 19:03, pages 448-449.
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Anatol G. Feldman & Mindy F. Levin. (2011) Grasping cerebellar function depends on our understanding the principles of sensorimotor integration: The frame of reference hypothesis. Behavioral and Brain Sciences 19:03, pages 442-445.
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Michel Dufossé. (2011) How can the cerebellum match “error signal” and “error correction”?. Behavioral and Brain Sciences 19:03, pages 442.
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Paul Dean. (2011) Saccades and the adjustable pattern generator. Behavioral and Brain Sciences 19:03, pages 441-442.
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Paolo Calabresi, Antonio Pisani & Giorgio Bernardi. (2011) Long-term changes of synaptic transmission: A topic of long-term interest. Behavioral and Brain Sciences 19:03, pages 439-440.
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James M. Bower. (2011) Perhaps it's time to completely rethink cerebellar function. Behavioral and Brain Sciences 19:03, pages 438-439.
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Harold Bekkering, Detlef Heck & Fahad Sultan. (2011) What has to be learned in motor learning?. Behavioral and Brain Sciences 19:03, pages 436-437.
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Michael A. Arbib. (2011) Spanning the levels in cerebellar function. Behavioral and Brain Sciences 19:03, pages 434-435.
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Heiner Deubel. (1995) Separate adaptive mechanisms for the control of reactive and volitional saccadic eye movements. Vision Research 35:23-24, pages 3529-3540.
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