Contribution of somatosensory cortex to responses in the rat cerebellar granule cell layer following peripheral tactile stimulation (original) (raw)
Albus JS (1971) A theory of cerebellar function. Math Biosci 10:25–61 Google Scholar
Allen GI, Tsukahara N (1974) Cerebrocerebellar communication systems. Physiol Rev 54:957–1006 CASPubMed Google Scholar
Allen GI, Azzena GB, Ohno T (1974) Somatotopically organized inputs from fore- and hindlimb areas of sensorimotor cortex to cerebellar Purkinje cells. Exp Brain Res 20:255–272 Google Scholar
Allen GI, Azzena GB, Ohno T (1979) Pontine and non-pontine pathways mediating early mossy fiber responses from sensorimotor cortex to cerebellum in the cat. Exp Brain Res 36:359–374 Google Scholar
Angaut P, Sotelo C (1975) Diversity of mossy fibers in the cerebellar cortex in relation to different afferent systems: an experimental electron microscopic study in the cat. Brain Res 95:179–189 Google Scholar
Bantli H, Bloedel JR (1977) Spinal input to the lateral cerebellum mediated by infratentorial structures. Neuroscience 2:555–568 Google Scholar
Bloedel JR (1973) Cerebellar afferent systems: a review. Prog Neurobiol 2:1–68 Google Scholar
Bower JM (1993) Is the cerebellum a motor control device? Commentary on “Functional heterogeneity with structural homogeneity: how does the cerebellum operate?” by J. R. Bloedel. Behav Brain Sci 15:714–715 Google Scholar
Bower JM, Kassel J (1990) Variability in tactile projection patterns to cerebellar folia crus IIa of the Norway rat. J Comp Neurol 302:768–778 Google Scholar
Bower JM, Woolston DC (1983) Congruence of spatial organization of tactile projections to the granule cell and Purkinje cell layers of the cerebellar hemispheres of the albino rat: vertical organization of cerebellar cortex. J Neurophysiol 49:745–766 Google Scholar
Bower JM, Beermann DH, Gibson JM, Shambes GM, Welker W (1981) Principles of organization of a cerebro-cerebellar circuit. Micromapping the projections from cerebral (SI) to cerebellar (granule cell layer) tactile areas of rats. Brain Behav Evol 18:1–18 Google Scholar
Brodal A (1981) Neurological anatomy in relation to clinical medicine. Oxford University Press, New York Google Scholar
Brodal P (1979) The pontocerebellar projection in the rhesus monkey: an experimental study with retrograde axonal transport of horseradish peroxidase. Neuroscience 4:193–208 Google Scholar
Brodal P (1982) The cerebropontocerebellar pathway: salient features of its organization. Exp Brain Res [Suppl 6]: 108–133
Brodal P, Bjaalie JG (1992) Organization of the pontine nuclei. Neurosci Res 13:83–118 Google Scholar
Clendenin M, Ekerot C-F, Oscarsson O, Rosen I (1974) The lateral reticular nucleus in the cat. I. Mossy fiber distribution in cerebellar cortex. Exp Brain Res 21:473–486 Google Scholar
Dean P, Redgrave P, Mitchell IJ (1988) Organization of efferent projections from superior colliculus to brainstem in rat: evidence for functional output channels. Prog Brain Res 75:27–36 Google Scholar
Elias SA, Taylor A, Somjen G (1987) Direct and relayed projection of periodontal receptor afferents to the cerebellum in the ferret. Proc R Soc Lond [Biol] 231:199–216 Google Scholar
Gao J-H, Parsons LM, Bower JM, Xiong J, Li J, Brannon S, Fox PT (1995) Cerebellar dentate-nucleus activated by sensory and perceptual discrimination, imagined hand movement, and mental rotation of objects. Soc Neurosci Abstr 21:270 Google Scholar
Gao J-H, Parsons LM, Bower JM, Xiong J, Li J, Fox PT (1996) The role of the cerebellum in sensory discrimination: a functional magnetic resonance imaging study. Science (in press)
Gonzalez L, Shumway C, Morissette J, Bower JM (1993) Developmental plasticity in cerebellar tactile maps: fractured maps retain a fractured organization. J Comp Neurol 332:487–498 Google Scholar
Hartmann MJ, Bower JM (1993) Rat cerebellar granule cell activity monitored with chronic implants. Soc Neurosci Abstr 19:1588 Google Scholar
Hartmann MJ, Bower JM (1995) Cerebellar granule cell responses in the awake, freely moving rat: the importance of tactile input. Soc Neurosci Abstr 21:1910 Google Scholar
Houk JC (1988) Schema for motor control utilizing a network model of the cerebellum. In: Anderson DZ (ed) Neural information processing systems. Am Inst Phys, New York, pp 367–376 Google Scholar
Huerta M, Frankfurter A, Harting J (1983) Studies of the principal sensory and spinal trigeminal nuclei of the rat: projections to the superior colliculus, inferior olive, and cerebellum. J Comp Neurol 220:147–167 Google Scholar
Jaeger D, Bower JM (1994) Prolonged responses in rat cerebellar Purkinje cells following activation of the granule cell layer: an intracellular in vitro and in vivo investigation. Exp Brain Res 100:200–214 Google Scholar
Kassel J (1980) Superior colliculus projections to tactile areas of rat cerebellar hemispheres. Brain Res 202:291–305 Google Scholar
Kennedy TT, Grimm RJ, Towe AL (1966) The role of cerebral cortex in evoked somatosensory activity in cat cerebellum. Exp Neurol 14:13–32 Google Scholar
Marfurt CF, Rajchert DM (1991) Trigeminal primary afferent projections to “non-trigeminal” areas of the rat central nervous system. J Comp Neurol 303:489–511 Google Scholar
Marr D (1969) A theory of cerebellar cortex. J Physiol (Lond) 202:437–470 Google Scholar
Mihailoff GA (1983) Intra- and interhemispheric collateral branching in the rat pontocerebellar system, a fluorescence double-label study. Neuroscience 10(1):141–160 Google Scholar
Mihailoff GA, Lee H, Watt CB, Yates R (1985) Projections to the basilar pontine nuclei from face sensory and motor regions of he cerebral cortex in the rat. J Comp Neurol 237:251–263 Google Scholar
Morissette J, Lee M, Bower JM (1991) Temporal relationships between cerebral cortical and cerebellar responses to tactile stimulation in the rat. Soc Neurosci Abstr 17:1383 Google Scholar
Newman DB, Ginsberg CY (1992) Brainstem reticular nuclei that project to the cerebellum in rats: a retrograde tracer study. Brain Behav Evol 39:24–68 Google Scholar
Orlovsky GN (1972) Activity of rubrospinal neurons during locomotion. Brain Res 46:99–112 Google Scholar
Paulin M, Nelson ME, Bower JM (1989) Neural control of sensory acquisition: the vestibulo-ocular reflex. In: Touretzky D (eds) Advances in neural information processing systems. Kauffman, San Mateo, pp 410–418 Google Scholar
Provini L, Redman S, Strata P (1968) Mossy and climbing fiber organization on the anterior lobe of the cerebellum activated by forelimb and hindlimb areas of the sensorimotor cortex. Exp Brain Res 6:216–233 Google Scholar
Shambes GM, Beermann DH, Welker W (1978a) Multiple tactile areas in cerebellar cortex: another patchy cutaneous projection to granule cell columns in rat. Brain Res 157:123–128 Google Scholar
Shambes GM, Gibson JM, Welker W (1978b) Fractured somatotopy in granule cell tactile areas of rat cerebellar hemispheres revealed by micromapping. Brain Behav Evol 15:94–140 Google Scholar
Sharp FR, Evans K (1982) Regional (14C)2-deoxyglucose uptake during vibrissae movements evoked by rat motor cortex stimulation. J Comp Neurol. 208:255–287 Google Scholar
Snider RS, Stowell A (1944) Receiving areas of the tactile, auditory, and visual systems in the cerebellum. J Neurophysiol 7:331–357 Google Scholar
Snyder SH (1984) Drug and neurotransmitter receptors in the brain. Science 224:22–31 Google Scholar
Stephan H, Frahm H, Baron G (1981) New and revised data on volumes of brain structures in insectivores and primates. Folia Primatol 35:1–29 Google Scholar
Thach WT, Goodkin HP, Keating JG (1992) The cerebellum and the adaptive coordination of movement. Annu Rev Neurosci 15:403–442 Google Scholar
Watson CRR, Switzer III RC (1978) Trigeminal projections to cerebellar tactile areas in the rat origin mainly from n. interpolaris and n. principalis. Neurosci Lett 10:77–82 Google Scholar
Welker C (1971) Microelectrode delineation of fine grain somatotopic organization of SmI cerebral neocortex in albino rat. Brain Res 26:259–275 Google Scholar
Welker W (1973) Principles of organization of the ventrobasal complex in mammals. Brain Behav Evol 7:253–336 Google Scholar
Welker W (1987) Spatial organization of somatosensory projections to granule cell cerebellar cortex: functional and connectional implications of fractured somatotopy (summary of Wisconsin studies). In: King JS (ed) New concepts in cerebellar neurobiology. Liss, New York, pp 239–280 Google Scholar
Wise SP, Jones EG (1977) Cells of origin and terminal distribution of descending projections of the rat somatic sensory cortex. J Comp Neurol 175:129–158 Google Scholar
Woolston DC, Kassel J, Gibson JM (1981) Trigeminocerebellar mossy fiber branching to granule cell layer patches in the rat cerebellum. Brain Res 209:255–269 Google Scholar