Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Armstrong, D. M., Eccles, J. C., Harvey, R. J., Matthews, P. B. C. (1968). Responses in the dorsal accessory olive of the cat to stimulation of hind limb afferents. J. Physiol. 194, 125–145.
Brlndley, G. S. (1964). The use made by the cerebellum of the information that it receives from sense organs. Int. Brain. Res. Org. Bulletin 3, 80.
Brindley, G. S. (1969). Nerve net models of plausible size that will perform many of very many simple learning task. Proc. R. Soc. B. (In the Press.)
Brodal, A. (1954). Afferent cerebellar connections. In Aspects of Cerebellar Anatomy, ed. JANSEN, J. and BRODAL, A. ch. II, pp. 82–188.
Oslo: Johan Grundt Tanum Forlag. Cajal, R. Y. (1911). Histologie du Systeme Nerveux,Tome II, 1955 edn., p. 57, C.S.I.C.: Madrid.
Eccles, J. C., Ito, M. and Szentaoothai, J. (1967). The Cerebellum as a Neuronal Machine. Berlin: Springer-Verlag.
Escobar, A., Sampedro, E. D. and Dow, R. S. (1968). Quantitative data on the inferior olivary nucleus in man, cat and vampire bat. J. comp. Neurcl. 132, 397–403.
Hebb, D. O. (1949). The Organization of Behaviour, p. 62. New York: Wiley.
Uhr, L. and Vossler, C. (1961). A pattern recognition program that generates, evaluates and adjusts its own operators. Proc. west. jt. Computer Conf. 19, 555–569.
Walbero, F. (1954). Descending connections to the inferior olive. In Aspects of Cerebellar Anatomy, ed. Jansen, J. and Brodal, A., ch. iv, pp. 249–263. Oslo: Johan Grundt Tanum Forlag.
Albus JS (1971): A theory of cerebellar function. Math Biosci 10: 25–61
Andersson G, Armstrong DM (1987): Complex spikes in Purkinje cells in the lateral vermis (b zone) of the cat cerebellum during locomotion. J Physiol 385: 107–134
Armstrong DM, Edgley SA, Lidierth M (1988): Complex spikes in Purkinje cells of the paravermal part of the anterior lobe of the cat cerebellum during locomotion. J Physiol 400: 405–414
Brindley GS (1964): The use made by the cerebellum of the information that it receives from the sense organs. IBRO Bull 3 (3): 80
Cuenod M, Do KQ, Vollenweider F, Streit P (1988): Cerebellar climbing fibers: excitatory amino acid and adensoine release. Neurobiology of the Cerebellar Systems: A Centenary of Ramón y Cajal’s Description of the Cerebellar Circuits. p. 26 (Abstr.)
Ebner TJ, Bloedel JR (1981): Role of climbing fiber afferent input in determining responsiveness of Purkinje cells to mossy fiber inputs. J Neurophysiol 45: 962–971
Ebner TJ, Yu QX, Bloedel JR (1983): Increase in Purkinje cell gain associated with naturally activated climbing fiber input. J Neurophysiol 50: 205–219
Eccles JC, Ito M, Szentagothai J (1967): The cerebellum as a neuronal machine. New York: Springer-Verlag, Inc
Ekerot CF (1985): Climbing fiber actions of Purkinje cells—plateau potentials and long-lasting depression of parallel fiber responses. In: Cerebellar Functions Bloedel JR, Dichgans J, Precht W, ed. New York: Springer-Verlag
Ekerot C-F, Kano M (1985): Long-term depression of parallel fibre synapses following stimulation of climbing fibres. Brain Res 342: 357–360
Gerrits NM, Voogd J (1989): The topograhical organization of climbing and mossy fiber afferents in the flocculus and the ventral paraflocculus in rabbit, cat and monkey. Exp Brain Res Series 17: 26–29
Gellman R, Gibson AR, Houk JC (1985): Inferior olivary neurons in the awake cat: detection of contact and passive body displacement. J Neurophysiol 54: 40–60
Gilbert PFC (1974): A theory of memory that explains the function and structure of the cerebellum. Brain Res 70: 1–18
Gilbert PFC, Thach WT (1977): Purkinje cell activity during motor learning. Brain Res 128: 309–328
Gonshor A, Melvill-Jones G (1976): Extreme vestibulo-ocular adaptation induced by prolonged optical reversal of vision. J Physiol Lond 256: 381–414
Harvey JA, Welch JP (1988): Cerebellar regulation of the conditioned and unconditioned nicitating membrane reflex: analysis of sensory, associative and motor functions after reversible and irreversible cerebellar lesions. Neurobiology of the Cerebellar Systems: A Centenary of Ramón y Cajal’s Description of the Cerebellar Circuits. p. 36 (abstr.)
Ito M (1972): Neural design of the cerebellar control system. Brain Res 40: 81–84
Ito M, Sakurai M, Tongroach P (1982): Climbing fibre induced depression of both mossy fiber responsiveness and glutamate sensitivity of cerebellar Purkinje cells. J Physiol Lond 324: 113–134
Ito M, Shiida TN, Yamamoto M (1974): The cerebellar modification of rabbit’s horizontal vestibulo-ocular reflexin induced by sustained head rotation combined with visual stimulation. Proc Japan Acad 50: 85–89
Kano M, Kato M (1987): Quisqualate receptors are specifically involved in cerebellar synaptic plasticity. Nature 325: 276–279
Leaton RN, Supple WF, Jr. (1986): Cerebellar vermis: essential for long-term habituation of the acoustic startle response. Science 232: 513–515
Llinas R (1970): Neuronal operations in cerebellar transactions. In: The Neurosciences: Second Study Program. Schnitt FO, ed. New York: Rockefeller University Press, pp 409–426
Llinas R (1981): Electrophysiology of cerebellar networks. In: Handbook of Physiology, Section 1, Volume II, Part 2. Brooks, VB ed. pp 831–876
Llinas R, Hess R (1976): Tetrodotoxin-resistant spikes in avian Purkinje cells. Proc Nat Acad Sci 73: 2520–2523
Llinas R, Nicholson C (1971): Electrophysiological properties of dendrites and somata in alligator Purkinje cells. J Neurophysiol 34: 532–551
Llinas R, Sugimori M (1980a): Electrophysiological properties of in vitro Purkinje cell somata in mammalian cerebellar slices. J Physiol 305: 171–195
Llinas R, Sugimori M (1980b): Electrophysiological properties of in vitro Purkinje cell somata in mammalian cerebellar slices. J Physiol 305: 197–213
Llinas R, Volkind RA (1973): The olivocerebellar system: functional properties as revealed by harmaline-induced tremor. Exp Brain Res 18: 69–87
Llinas R, Walton K, Hillman DE, Sotelo C (1975): Inferior olive: its role in motor learning. Science 190: 1230–1231
Lisberger SG (1988): The neural basis for learning of simple motor skills. Science 242: 728–735
Luciani, L (1911–1924): Human Physiology. Welby FA, trans. London: MacMillan and Co., Ltd
Marr D (1969): A theory of cerebellar cortex. J Physiol 202: 437–470
McCormick DA, Thompson RF (1984): Cerebellum: essential involvement in the classically conditioned eyelid response. Science 223: 296–299
Miles FA, Fuller JRH, Braitman DJ, Dow BM (1980): Long-term adaptive changes in primate vestibulo-ocular reflexes III. Electro-physiological observations in flocculus of adapted monkeys. J Neurophysiol 43: 1437–1476
Optican LM, Robinson DA (1980): Cerebellar-dependent adaptive control of primate saccadic system. J Neurophysiol 44: 1058–1080
Rawson NR (1932): The story of the cerebellum. Canad MAT. 26: 220–225
Rawson JA, Tilokskulchai K (1982): Climbing modification of cerebellar Purkinje cell responses to parallel fiber inputs. Brain Res 237: 492–497
Robinson DA (1976): Adaptive gain control of the vestibulo-ocular reflex by the cerebellum. J Neurophysiol 39: 954–969
Simpson JI, Alley KE (1974): Visual climbing fiber input to rabbit vestibulo-cerebellum: a source of direction-specific information. Brain Res 82: 302–308
Thach WT (1980): Complex spikes, the inferior olive, and natural behavior. In: The Inferior Olivary Nucleus. Courville J, ed. New York: Raven, pp 349–360
Watanabe E (1984): Neuronal events correlated with long-term adaptation of the horizontal vestibulo-ocular reflex in the primate flocculus. Brain Res 297: 169–174
Yeo CH, Hardiman MJ, Glickstein M (1984): Discrete lesions of the cerebellar cortex abolish classically conditioned nictitating membrane response of the rabbit. Behav Brain Res 13: 261–266
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1991 Birkhäuser Boston
About this chapter
Cite this chapter
Marr, D., Thach, W.T. (1991). A Theory of Cerebellar Cortex. In: Vaina, L. (eds) From the Retina to the Neocortex. Birkhäuser Boston. https://doi.org/10.1007/978-1-4684-6775-8_3
Download citation
DOI: https://doi.org/10.1007/978-1-4684-6775-8_3
Publisher Name: Birkhäuser Boston
Print ISBN: 978-1-4684-6777-2
Online ISBN: 978-1-4684-6775-8
eBook Packages: Springer Book Archive