The Cerebellum: Brain for an Implicit Self Read Online Free PDF
Author: Masao Ito
regions during auditory word presentation and verb generation. Cereb Cortex 6:1–10.
Finch EA, Augustine GJ (1998) Local calcium signalling by inositol-1,4,5-trisphosphate in Purkinje cell dendrites. Nature 396:753–756.
Finch EA, Turner TJ, Goldin SM (1991) Calcium as a coagonist of inositol 1,4,5-trisphosphate-induced calcium release. Science 252:443–446.
Flament D, Hore J (1988) Comparison of cerebellar intention tremor under isotonic and isometric conditions. Brain Res 439:179–186.
Flourens J-P (1822) cited from Dow RS, Moruzzi G (1958) The physiology and pathology of the cerebellum.
Flourens J-P (1842) cited from Dow RS, Moruzzi G (1958) The physiology and pathology of the cerebellum.
Forti L, Cesana E, Mapelli J, D’Angelo E (2006) Ionic mechanisms of autorhythmic firing in rat cerebellar Golgi cells. J Physiol (London) 574:711–729.
Fox CA, Bernard JW (1957) A quantitative study of the Purkinje cell dendritic branches and their relationship to afferent fibres. J Anat 91:299–313.
Freeman JH, Scharengerg AM, Olds JL, Schreurs BG (1998) Classical conditioning increases membrane-bound protein kinase C in rabbit cerebellum. NeuroReport 9:2669–2673.
Fried I, Katz A, McCarthy G, Sass KJ, Williamson P, Spencer SS, Spencer DD (1991) Functional organization of human supplementary motor cortex studied by electrical stimulation. J Neurosci 11:3656–3666.
Frith SD, Blakemore SJ, Wolpert DM (2000) Abnormalities in the awareness and control of action. Phil Trans R Soc London B 355:1771–1788.
Fu QG, Flament D, Coltz JD, Ebner TJ (1997) Relationship of cerebellar Purkinje cell simple spike discharge to movement kinematics in the monkey. J Neurophysiol 78:478–491.
Fujii M, Ueno K, Asamizuya T, Nakatani H, Wan X, Cheng K, Ito M (2009) cerebellar activation during Check-mate task execution. Neurosci Res. 65:S240.
Fujita M (1982a) Adaptive filter model of the cerebellum. Biol Cybern 45:195–206.
Fujita M (1982b) Simulation of adaptive modification of the vestibulo-ocular reflex with an adaptive filter model of the cerebellum. Biol Cybern 45:207–214.
Fujita M (2005) Feed-forward associative learning for volitional movement control. Neurosci Res 52:153–165.
Fukuda J, Highstein SM, Ito M (1972) Cerebellar inhibitory control of the vestibulo-ocular reflex investigated in rabbit’s IIIrd nucleus. Exp Brain Res 14:511–526.
Fukushima K, Kaneko CRS, Fuchs AF (1992) The neuronal substrate of integration in the oculomotor system. Prog Neurobiol 39:609–639.
Fukushima K, Yamanobe T, Shinmei Y, Fukushima J, Kurkin S (2004) Role of the frontal eye fields in smooth-gaze tracking. Prog Brain Res 143:391–401.
Fukushima K, Yamanobe T, Shinmei Y, Fukushima J, Kurkin S, Peterson BW (2002) Coding of smooth eye movements in three-dimensional space by frontal cortex. Nature 419:157–162.
Fuster JM (1997) The prefrontal cortex: anatomy, physiology, and neuropsychology of the frontal lobe, 2nd ed. Lippincott, Williams & Wilkins.
Galaburda AM, Sherman GF, Rosen GD, Aboitiz F, Geschwind N (1985) Developmental dyslexia: four consecutive patients with cortical anomalies. Ann Neurol 18:222–233.
Gamlin PD, Clarke RJ (1995) Single-unit activity in the primate nucleus reticularis tegmenti pontis related to vergence and ocular accommodation. J Neurophysiol 73:2115–2119.
Gamlin PD, Yoon K (2000) An area for vergence eye movement in primate frontal cortex. Nature 407:1003–1007.
Gao JH, Parsons LM, Bower JM, Xiong J, Li J, Fox PT (1996) Cerebellum implicated in sensory acquisition and discrimination rather than motor control. Science 272:545–547.
Garcia KS, Mauk MD (1998) Pharmacological analysis of cerebellar contributions to the timing and expression of conditioned eyelid responses. Neuropharmacology 37:471–480.
Garcia KS, Steele PM, Mauk MD (1999) Cerebellar cortex lesions prevent acquisition of conditioned eyelid responses. J
Finch EA, Augustine GJ (1998) Local calcium signalling by inositol-1,4,5-trisphosphate in Purkinje cell dendrites. Nature 396:753–756.
Finch EA, Turner TJ, Goldin SM (1991) Calcium as a coagonist of inositol 1,4,5-trisphosphate-induced calcium release. Science 252:443–446.
Flament D, Hore J (1988) Comparison of cerebellar intention tremor under isotonic and isometric conditions. Brain Res 439:179–186.
Flourens J-P (1822) cited from Dow RS, Moruzzi G (1958) The physiology and pathology of the cerebellum.
Flourens J-P (1842) cited from Dow RS, Moruzzi G (1958) The physiology and pathology of the cerebellum.
Forti L, Cesana E, Mapelli J, D’Angelo E (2006) Ionic mechanisms of autorhythmic firing in rat cerebellar Golgi cells. J Physiol (London) 574:711–729.
Fox CA, Bernard JW (1957) A quantitative study of the Purkinje cell dendritic branches and their relationship to afferent fibres. J Anat 91:299–313.
Freeman JH, Scharengerg AM, Olds JL, Schreurs BG (1998) Classical conditioning increases membrane-bound protein kinase C in rabbit cerebellum. NeuroReport 9:2669–2673.
Fried I, Katz A, McCarthy G, Sass KJ, Williamson P, Spencer SS, Spencer DD (1991) Functional organization of human supplementary motor cortex studied by electrical stimulation. J Neurosci 11:3656–3666.
Frith SD, Blakemore SJ, Wolpert DM (2000) Abnormalities in the awareness and control of action. Phil Trans R Soc London B 355:1771–1788.
Fu QG, Flament D, Coltz JD, Ebner TJ (1997) Relationship of cerebellar Purkinje cell simple spike discharge to movement kinematics in the monkey. J Neurophysiol 78:478–491.
Fujii M, Ueno K, Asamizuya T, Nakatani H, Wan X, Cheng K, Ito M (2009) cerebellar activation during Check-mate task execution. Neurosci Res. 65:S240.
Fujita M (1982a) Adaptive filter model of the cerebellum. Biol Cybern 45:195–206.
Fujita M (1982b) Simulation of adaptive modification of the vestibulo-ocular reflex with an adaptive filter model of the cerebellum. Biol Cybern 45:207–214.
Fujita M (2005) Feed-forward associative learning for volitional movement control. Neurosci Res 52:153–165.
Fukuda J, Highstein SM, Ito M (1972) Cerebellar inhibitory control of the vestibulo-ocular reflex investigated in rabbit’s IIIrd nucleus. Exp Brain Res 14:511–526.
Fukushima K, Kaneko CRS, Fuchs AF (1992) The neuronal substrate of integration in the oculomotor system. Prog Neurobiol 39:609–639.
Fukushima K, Yamanobe T, Shinmei Y, Fukushima J, Kurkin S (2004) Role of the frontal eye fields in smooth-gaze tracking. Prog Brain Res 143:391–401.
Fukushima K, Yamanobe T, Shinmei Y, Fukushima J, Kurkin S, Peterson BW (2002) Coding of smooth eye movements in three-dimensional space by frontal cortex. Nature 419:157–162.
Fuster JM (1997) The prefrontal cortex: anatomy, physiology, and neuropsychology of the frontal lobe, 2nd ed. Lippincott, Williams & Wilkins.
Galaburda AM, Sherman GF, Rosen GD, Aboitiz F, Geschwind N (1985) Developmental dyslexia: four consecutive patients with cortical anomalies. Ann Neurol 18:222–233.
Gamlin PD, Clarke RJ (1995) Single-unit activity in the primate nucleus reticularis tegmenti pontis related to vergence and ocular accommodation. J Neurophysiol 73:2115–2119.
Gamlin PD, Yoon K (2000) An area for vergence eye movement in primate frontal cortex. Nature 407:1003–1007.
Gao JH, Parsons LM, Bower JM, Xiong J, Li J, Fox PT (1996) Cerebellum implicated in sensory acquisition and discrimination rather than motor control. Science 272:545–547.
Garcia KS, Mauk MD (1998) Pharmacological analysis of cerebellar contributions to the timing and expression of conditioned eyelid responses. Neuropharmacology 37:471–480.
Garcia KS, Steele PM, Mauk MD (1999) Cerebellar cortex lesions prevent acquisition of conditioned eyelid responses. J
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