The cerebro-cerebellum: Could it be loci of forward models?

[1]  O. Oscarsson,et al.  FUNCTIONAL ORGANIZATION OF THE SPINO- AND CUNEOCEREBELLAR TRACTS. , 1965, Physiological reviews.

[2]  W. T. Thach Discharge of Purkinje and cerebellar nuclear neurons during rapidly alternating arm movements in the monkey. , 1968, Journal of neurophysiology.

[3]  S. Miller,et al.  Projection and convergence patterns in climbing fibre paths to cerebellar anterior lobe activated from cerebral cortex and spinal cord. , 1969, Brain research.

[4]  M Ito,et al.  Neurophysiological aspects of the cerebellar motor control system. , 1970, International journal of neurology.

[5]  W. T. Thach Discharge of cerebellar neurons related to two maintained postures and two prompt movements. II. Purkinje cell output and input. , 1970, Journal of neurophysiology.

[6]  J. Albus A Theory of Cerebellar Function , 1971 .

[7]  C. Ekerot,et al.  Differential termination of the exteroceptive and proprioceptive components of the cuneocerebellar tract. , 1972, Brain research.

[8]  G. Allen,et al.  Cerebrocerebellar communication systems. , 1974, Physiological reviews.

[9]  D. Armstrong Functional significance of connections of the inferior olive. , 1974, Physiological reviews.

[10]  W. T. Thach,et al.  Purkinje cell activity during motor learning , 1977, Brain Research.

[11]  G. M. Shambes,et al.  Fractured somatotopy in granule cell tactile areas of rat cerebellar hemispheres revealed by micromapping. , 1978, Brain, behavior and evolution.

[12]  A. Brodal,et al.  Olivocerebellar projection: a review. , 1980, Advances in anatomy, embryology, and cell biology.

[13]  O. Oscasson Functional organization of olivary projection to the cerebellar anterior lobe , 1980 .

[14]  伊藤 正男 The cerebellum and neural control , 1984 .

[15]  J. Houk,et al.  Inferior olivary neurons in the awake cat: detection of contact and passive body displacement. , 1985, Journal of neurophysiology.

[16]  H. Kuypers,et al.  Collaterals of corticospinal and pyramidal fibres to the pontine grey demonstrated by a new application of the fluorescent fibre labelling technique , 1986, Brain Research.

[17]  I. Kanazawa,et al.  Complex-spike activity of cerebellar Purkinje cells related to wrist tracking movement in monkey. , 1986, Journal of neurophysiology.

[18]  J. Voogd,et al.  Ultrastructural study of the GABAergic, cerebellar, and mesodiencephalic innervation of the cat medial accessory olive: Anterograde tracing combined with immunocytochemistry , 1989, The Journal of comparative neurology.

[19]  D. Tolbert Somatotopically organized transient projections from the primary somatosensory cortex to the cerebellar cortex. , 1989, Brain research. Developmental brain research.

[20]  J. Schouenborg,et al.  Topography and nociceptive receptive fields of climbing fibres projecting to the cerebellar anterior lobe in the cat. , 1991, The Journal of physiology.

[21]  J Schouenborg,et al.  The postsynaptic dorsal column pathway mediates cutaneous nociceptive information to cerebellar climbing fibres in the cat. , 1991, The Journal of physiology.

[22]  J. Billard,et al.  Decreased sensitivity of cerebellar nuclei neurons to GABA and taurine: effects of long-term inferior olive destruction in the rat , 1991, Neuroscience Research.

[23]  Y Shinoda,et al.  Axon collaterals of mossy fibers from the pontine nucleus in the cerebellar dentate nucleus. , 1992, Journal of neurophysiology.

[24]  M. Kawato,et al.  The cerebellum and VOR/OKR learning models , 1992, Trends in Neurosciences.

[25]  J. Hore,et al.  Cerebellar Dysfunction of Movement and Perception , 1993, Canadian Journal of Neurological Sciences / Journal Canadien des Sciences Neurologiques.

[26]  J. Houk,et al.  Output organization of intermediate cerebellum of the monkey. , 1993, Journal of neurophysiology.

[27]  Mark Nawrot,et al.  Motion perception deficits from midline cerebellar lesions in human , 1995, Vision Research.

[28]  Daniel M. Wolpert,et al.  Forward Models for Physiological Motor Control , 1996, Neural Networks.

[29]  S. Lisberger,et al.  The Cerebellum: A Neuronal Learning Machine? , 1996, Science.

[30]  J. Bower,et al.  Cerebellum Implicated in Sensory Acquisition and Discrimination Rather Than Motor Control , 1996, Science.

[31]  H. C. Diener,et al.  The Relevance of Sensory Input for the Cerebellar Control of Movements , 1997, NeuroImage.

[32]  D. Wolpert,et al.  Internal models in the cerebellum , 1998, Trends in Cognitive Sciences.

[33]  J. Simpson,et al.  Microcircuitry and function of the inferior olive , 1998, Trends in Neurosciences.

[34]  S. Lisberger,et al.  Neural Learning Rules for the Vestibulo-Ocular Reflex , 1998, The Journal of Neuroscience.

[35]  Tatsuya Kimura,et al.  Cerebellar complex spikes encode both destinations and errors in arm movements , 1998, Nature.

[36]  S. Kinomura,et al.  PET study of pointing with visual feedback of moving hands. , 1998, Journal of neurophysiology.

[37]  Mitsuo Kawato,et al.  Internal models for motor control and trajectory planning , 1999, Current Opinion in Neurobiology.

[38]  D. Hoffman,et al.  Muscle and movement representations in the primary motor cortex. , 1999, Science.

[39]  Y Shinoda,et al.  Projection patterns of single mossy fibers originating from the lateral reticular nucleus in the rat cerebellar cortex and nuclei , 1999, The Journal of comparative neurology.

[40]  A. Koeppen,et al.  Synapses in the hereditary ataxias. , 1999, Journal of neuropathology and experimental neurology.

[41]  D. Hoffman,et al.  Direction of action is represented in the ventral premotor cortex , 2001, Nature Neuroscience.

[42]  Mitsuo Kawato,et al.  MOSAIC Model for Sensorimotor Learning and Control , 2001, Neural Computation.

[43]  Y Shinoda,et al.  The Entire Trajectories of Single Olivocerebellar Axons in the Cerebellar Cortex and their Contribution to Cerebellar Compartmentalization , 2001, The Journal of Neuroscience.

[44]  C. Hansel,et al.  The Making of a Complex Spike: Ionic Composition and Plasticity , 2002, Annals of the New York Academy of Sciences.

[45]  Henrik Jörntell,et al.  Reciprocal Bidirectional Plasticity of Parallel Fiber Receptive Fields in Cerebellar Purkinje Cells and Their Afferent Interneurons , 2002, Neuron.

[46]  Henrik Jörntell,et al.  Receptive Field Plasticity Profoundly Alters the Cutaneous Parallel Fiber Synaptic Input to Cerebellar Interneurons In Vivo , 2003, The Journal of Neuroscience.

[47]  P. Strick,et al.  Cerebellar Loops with Motor Cortex and Prefrontal Cortex of a Nonhuman Primate , 2003, The Journal of Neuroscience.

[48]  D. Hoffman,et al.  Sensorimotor transformations in cortical motor areas , 2003, Neuroscience Research.

[49]  M. Garwicz,et al.  Evidence for a GABA-mediated cerebellar inhibition of the inferior olive in the cat , 2004, Experimental Brain Research.

[50]  P. Strata,et al.  Mossy and climbing fibre organization on the anterior lobe of the cerebellum activated by forelimb and hindlimb areas of the sensorimotor cortex , 2004, Experimental Brain Research.

[51]  S. Kawaguchi,et al.  Mossy fibre and climbing fibre responses produced in the cerebellar cortex by stimulation of the cerebral cortex in monkeys , 1977, Experimental Brain Research.

[52]  J. Eccles,et al.  Intracellularly recorded responses of the cerebellar Purkinje cells , 2004, Experimental Brain Research.

[53]  F. Crépel,et al.  Synapses between parallel fibres and stellate cells express long‐term changes in synaptic efficacy in rat cerebellum , 2004, The Journal of physiology.

[54]  J. D. Cooke,et al.  Origin and termination of cuneocerebellar tract , 1971, Experimental Brain Research.

[55]  G. I. Allen,et al.  Somatotopically organized inputs from fore- and hindlimb areas of sensorimotor cortex to cerebellar Purkyně cells , 2004, Experimental Brain Research.

[56]  Spencer L. Smith,et al.  Pattern-dependent, simultaneous plasticity differentially transforms the input-output relationship of a feedforward circuit. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[57]  Masao Ito Cerebellar circuitry as a neuronal machine , 2006, Progress in Neurobiology.

[58]  Henrik Jörntell,et al.  Properties of Somatosensory Synaptic Integration in Cerebellar Granule Cells In Vivo , 2006, The Journal of Neuroscience.

[59]  N. Ramnani The primate cortico-cerebellar system: anatomy and function , 2006, Nature Reviews Neuroscience.

[60]  Neuroscience Research , 2006, Neuroscience Research.

[61]  Mitsuo Kawato,et al.  Cerebellar Activity Evoked By Common Tool-Use Execution And Imagery Tasks: An Fmri Study , 2007, Cortex.

[62]  Boris Barbour,et al.  Multiple climbing fibers signal to molecular layer interneurons exclusively via glutamate spillover , 2007, Nature Neuroscience.

[63]  L. Christensen,et al.  University of Birmingham Disruption of state estimation in the human lateral cerebellum , 2007 .

[64]  Xiaofeng Lu,et al.  Topographic distribution of output neurons in cerebellar nuclei and cortex to somatotopic map of primary motor cortex , 2007, The European journal of neuroscience.

[65]  M. Kawato,et al.  Encoding of movement dynamics by Purkinje cell simple spike activity during fast arm movements under resistive and assistive force fields. , 2007, Journal of neurophysiology.

[66]  A. Fuchs,et al.  Complex spike activity signals the direction and size of dysmetric saccade errors. , 2008, Progress in brain research.

[67]  Joachim Hermsdörfer,et al.  The role of the cerebellum for predictive control of grasping , 2008, The Cerebellum.

[68]  J. Krakauer,et al.  A computational neuroanatomy for motor control , 2008, Experimental Brain Research.

[69]  N. Barmack,et al.  Functions of Interneurons in Mouse Cerebellum , 2008, The Journal of Neuroscience.

[70]  Peter Thier,et al.  Cerebellar-dependent motor learning is based on pruning a Purkinje cell population response , 2008, Proceedings of the National Academy of Sciences.

[71]  Germund Hesslow,et al.  Simple and Complex Spike Firing Patterns in Purkinje Cells During Classical Conditioning , 2008, The Cerebellum.

[72]  Stephen G. Lisberger,et al.  Links from complex spikes to local plasticity and motor learning in the cerebellum of awake-behaving monkeys , 2008, Nature Neuroscience.

[73]  Masao Ito Control of mental activities by internal models in the cerebellum , 2008, Nature Reviews Neuroscience.

[74]  C. Hansel,et al.  Climbing Fiber Signaling and Cerebellar Gain Control , 2009, Front. Cell. Neurosci..

[75]  W. Graf,et al.  Cerebellar inputs to intraparietal cortex areas LIP and MIP: functional frameworks for adaptive control of eye movements, reaching, and arm/eye/head movement coordination. , 2010, Cerebral cortex.

[76]  Jun Tanji,et al.  Motor and non‐motor projections from the cerebellum to rostrocaudally distinct sectors of the dorsal premotor cortex in macaques , 2010, The European journal of neuroscience.

[77]  Xiaofeng Lu,et al.  Anatomical evidence for the involvement of medial cerebellar output from the interpositus nuclei in cognitive functions , 2012, Proceedings of the National Academy of Sciences.

[78]  Sarah E. Criscimagna-Hemminger,et al.  Cerebellar Contributions to Reach Adaptation and Learning Sensory Consequences of Action , 2012, The Journal of Neuroscience.

[79]  A R Gibson,et al.  Progressive limb ataxia following inferior olive lesions , 2013, The Journal of physiology.

[80]  Masao Ito Error detection and representation in the olivo-cerebellar system , 2013, Front. Neural Circuits.

[81]  Timothy J. Ebner,et al.  Purkinje Cell Simple Spike Discharge Encodes Error Signals Consistent with a Forward Internal Model , 2013, The Cerebellum.

[82]  Adam W Hantman,et al.  Convergence of pontine and proprioceptive streams onto multimodal cerebellar granule cells , 2013, eLife.

[83]  Donna S. Hoffman,et al.  Releasing Dentate Nucleus Cells from Purkinje Cell Inhibition Generates Output from the Cerebrocerebellum , 2014, PloS one.

[84]  D. Hoffman,et al.  Mossy fibers in the cerebellar hemisphere show delay activity in a delayed response task , 2014, Neuroscience Research.

[85]  Jan Voogd,et al.  What we do not know about cerebellar systems neuroscience , 2014, Front. Syst. Neurosci..

[86]  Henrik Jörntell,et al.  Climbing Fiber Receptive Fields—Organizational and Functional Aspects and Relationship to Limb Coordination , 2015, The Cerebellum.

[87]  I. Raman,et al.  Integration of Purkinje Cell Inhibition by Cerebellar Nucleo-Olivary Neurons , 2015, The Journal of Neuroscience.

[88]  Katrina Y. Choe,et al.  Circuit Mechanisms Underlying Motor Memory Formation in the Cerebellum , 2015, Neuron.

[89]  Shinji Kakei,et al.  Information Processing in the Hemisphere of the Cerebellar Cortex for Control of 1 Wrist Movement 2 3 , 2015 .