The Cerebellum: Brain for an Implicit Self by Masao Ito Read Free Book Online
Authors: Masao Ito
in the cat. 3. Convergence on propriospinal neurons transmitting disynaptic excitation from the corticospinal tract and other descending tracts. Exp Brain Res 29:323–346.
Imamizu H, Kuroda T, Miyauchi S, Yoshioka T, Kawato M (2003) Modular organization of internal models of tools in the human cerebellum. PNAS USA 100:5461–5466.
Imamizu H, Miyauchi S, Tamada T, Sasaki Y, Takino R, Putz B, Yoshioka T, Kawato M (2000) Human cerebellar activity reflecting an acquired internal model of a new tool. Nature 403:192–195.
Inoue T, Kato K, Kohda K, Mikoshiba K (1998) Type 1 inositol 1,4,5-trisphosphate receptor is required for induction of long-term depression in cerebellar Purkinje neurons. J Neurosci 18:5366-5373.
Iriki A (2006) The neural origins and implications of imitation, mirror neurons and tool use. Cur Opinion Neurobiol 16:660-667.
Isope P, Barbour B (2002) Properties of unitary granule cell Purkinje cell synapses in adult rat cerebellar slices. J Neurosci 22:9668–9678.
Isope P, Dieudonné S, Barbour B (2004) Temporal organization of activity in the cerebellar cortex: a manifesto for synchrony. Ann NY Acad Sci 976:164-174.
Isu N, Graf W, Sato H, Kushiro K, Zakir M, Imagawa M, Uchino Y (2000) Sacculo-ocular reflex connectivity in cats. Exp Brain Res 131:262–268.
Ito M (1970) Neurophysiological basis of the cerebellar motor control system. Intern J Neurol 7:162–176.
Ito M (1972) Neural design of cerebellar motor control system. Brain Res 40:81–84.
Ito M (1974) The control mechanisms of cerebellar motor system In: Schmidt D, Worden FG, editors. The neuroscsience, IIIrd Study Program, MIT Press, pp. 293–303. Maasachusetts USA.
Ito M (1982) Cerebellar control of the vestibulo-ocular reflex—around the flocculus hypothesis. Annu Rev Neurosci 5:275–296.
Ito M (1984) The cerebellum and neural control. New York: Raven Press.
Ito M (1986) Neural systems controlling movement. Trends Neurosci 9:515-518.
Ito M (1989) Long-term depression. Annu Rev Neurosci 12:85–102.
Ito M. (1990a) Neural control as a major aspect of high-order brain function. In: JC Eccles and Creutzfeldt, editors. The principles of design and operation of the brain. Exp Brain Res Supplement. Berlin: Springer-Verlag 20,281-292.
Ito M (1990b) A new physiological concept of cerebellum. Rev Neurol (Paris) 146: 564-569.
Ito M (1993a) Cerebellar flocculus hypothesis. Nature 363:24–25.
Ito M (1993b) Movement and thought: identical control mechanisms by the cerebellum. Trends Neurosci 16:448–450.
Ito M (1997a) Obituary: John C. Eccles (1903-97)—Neuroscientist who discovered synaptic inhibition. Nature 387:664.
Cerebellar microcomplexes. In: Schmahmann J, editor. The Cerebellum and Cognition. Internat Rev Neurobiol 41, 475–487.
Ito M (1998) Cerebellar learning in the vestibulo-ocular reflex. Trends Cog Sci 2:313–321.
Ito, M (2000) My years with Sir John Eccles in memoriam: - a tireless Warrior for dualism. H. Eccles and H.-J. Biersack, editors. Ecomed, Landsberg, Germany. pp 29-36.
Ito M (2001) Cerebellar long-term depression—characterization, signal transduction and functional roles. Physiol Rev 81:1143–1195.
Ito M (2002) The molecular organization of cerebellar long-term depression. Nat Rev Neurosci 3:896 –902.
Ito M (2005). Bases and implications of learning in the cerebellum—Adaptive control and internal model. In: CI DeZeeuw and F Cicirata, editors. Creating coordination in the cerebellum. Prog Brain Res 148, 95–109.
Ito M (2006) Cerebellar circuitry as a neuronal machine. Prog Neurobiol 78:272–303.
Ito M (2007) On “How working memory and the cerebellum collaborate to produce creativity and innovation” by L. R. Vandervert, P. H. Schimpf, and H. Liu. Creativity Res J 19:35–38.
Ito M (2008) Control of mental activities by internal models in the cerebellum. Nat Rev Neurosci 9:304–313.
Ito M (2009) Functional roles
Imamizu H, Kuroda T, Miyauchi S, Yoshioka T, Kawato M (2003) Modular organization of internal models of tools in the human cerebellum. PNAS USA 100:5461–5466.
Imamizu H, Miyauchi S, Tamada T, Sasaki Y, Takino R, Putz B, Yoshioka T, Kawato M (2000) Human cerebellar activity reflecting an acquired internal model of a new tool. Nature 403:192–195.
Inoue T, Kato K, Kohda K, Mikoshiba K (1998) Type 1 inositol 1,4,5-trisphosphate receptor is required for induction of long-term depression in cerebellar Purkinje neurons. J Neurosci 18:5366-5373.
Iriki A (2006) The neural origins and implications of imitation, mirror neurons and tool use. Cur Opinion Neurobiol 16:660-667.
Isope P, Barbour B (2002) Properties of unitary granule cell Purkinje cell synapses in adult rat cerebellar slices. J Neurosci 22:9668–9678.
Isope P, Dieudonné S, Barbour B (2004) Temporal organization of activity in the cerebellar cortex: a manifesto for synchrony. Ann NY Acad Sci 976:164-174.
Isu N, Graf W, Sato H, Kushiro K, Zakir M, Imagawa M, Uchino Y (2000) Sacculo-ocular reflex connectivity in cats. Exp Brain Res 131:262–268.
Ito M (1970) Neurophysiological basis of the cerebellar motor control system. Intern J Neurol 7:162–176.
Ito M (1972) Neural design of cerebellar motor control system. Brain Res 40:81–84.
Ito M (1974) The control mechanisms of cerebellar motor system In: Schmidt D, Worden FG, editors. The neuroscsience, IIIrd Study Program, MIT Press, pp. 293–303. Maasachusetts USA.
Ito M (1982) Cerebellar control of the vestibulo-ocular reflex—around the flocculus hypothesis. Annu Rev Neurosci 5:275–296.
Ito M (1984) The cerebellum and neural control. New York: Raven Press.
Ito M (1986) Neural systems controlling movement. Trends Neurosci 9:515-518.
Ito M (1989) Long-term depression. Annu Rev Neurosci 12:85–102.
Ito M. (1990a) Neural control as a major aspect of high-order brain function. In: JC Eccles and Creutzfeldt, editors. The principles of design and operation of the brain. Exp Brain Res Supplement. Berlin: Springer-Verlag 20,281-292.
Ito M (1990b) A new physiological concept of cerebellum. Rev Neurol (Paris) 146: 564-569.
Ito M (1993a) Cerebellar flocculus hypothesis. Nature 363:24–25.
Ito M (1993b) Movement and thought: identical control mechanisms by the cerebellum. Trends Neurosci 16:448–450.
Ito M (1997a) Obituary: John C. Eccles (1903-97)—Neuroscientist who discovered synaptic inhibition. Nature 387:664.
Cerebellar microcomplexes. In: Schmahmann J, editor. The Cerebellum and Cognition. Internat Rev Neurobiol 41, 475–487.
Ito M (1998) Cerebellar learning in the vestibulo-ocular reflex. Trends Cog Sci 2:313–321.
Ito, M (2000) My years with Sir John Eccles in memoriam: - a tireless Warrior for dualism. H. Eccles and H.-J. Biersack, editors. Ecomed, Landsberg, Germany. pp 29-36.
Ito M (2001) Cerebellar long-term depression—characterization, signal transduction and functional roles. Physiol Rev 81:1143–1195.
Ito M (2002) The molecular organization of cerebellar long-term depression. Nat Rev Neurosci 3:896 –902.
Ito M (2005). Bases and implications of learning in the cerebellum—Adaptive control and internal model. In: CI DeZeeuw and F Cicirata, editors. Creating coordination in the cerebellum. Prog Brain Res 148, 95–109.
Ito M (2006) Cerebellar circuitry as a neuronal machine. Prog Neurobiol 78:272–303.
Ito M (2007) On “How working memory and the cerebellum collaborate to produce creativity and innovation” by L. R. Vandervert, P. H. Schimpf, and H. Liu. Creativity Res J 19:35–38.
Ito M (2008) Control of mental activities by internal models in the cerebellum. Nat Rev Neurosci 9:304–313.
Ito M (2009) Functional roles
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