CONTROL OF LOCOMOTION IN THE DECEREBRATE CAT
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[1] F. Goltz. Beiträge zur Lehre von den Functionen der Nervencentren des Frosches , 1869 .
[2] C. Sherrington. Integrative Action of the Nervous System , 1907 .
[3] C. Sherrington. Flexion‐reflex of the limb, crossed extension‐reflex, and reflex stepping and standing , 1910, The Journal of physiology.
[4] C. Sherrington. REMARKS ON THE REFLEX MECHANISM OF THE STEP , 1910 .
[5] T. Brown. The intrinsic factors in the act of progression in the mammal , 1911 .
[6] T. Brown. On the nature of the fundamental activity of the nervous centres; together with an analysis of the conditioning of rhythmic activity in progression, and a theory of the evolution of function in the nervous system , 1914, The Journal of physiology.
[7] T G Brown,et al. On the activities of the central nervous system of the un‐born fœtus of the cat; with a discussion of the question whether progression (walking, etc.) is a “learnt” complex , 1915, The Journal of physiology.
[8] Brown Tg,et al. THE PHYSIOLOGY OF STEPPING: I.—THE PRODUCTION OF RHYTHM. , 1922 .
[9] E. W. Gudger. PARALYSIS CURED BY MALARIA. THE FIRST KNOWN CASE—1850. , 1928 .
[10] S. W. Ranson,et al. THE RÔLE OF THE HYPOTHALAMUS AND MESENCEPHALON IN LOCOMOTION , 1930 .
[11] C. Sherrington. QUANTITATIVE MANAGEMENT OF CONTRACTION IN LOWEST LEVEL CO-ORDINATIONHUGHLINGS JACKSON LECTURE , 1931 .
[12] William H. Waller,et al. PROGRESSION MOVEMENTS ELICITED BY SUBTHALAMIC STIMULATION , 1940 .
[13] R. B. Bromiley. Conditioned responses in a dog after removal of neocortex. , 1948, Journal of Comparative and Physiological Psychology.
[14] J. Eccles,et al. The effects of disuse and of activity on mammalian spinal reflexes , 1953, The Journal of physiology.
[15] J. Eccles,et al. The convergence of monosynaptic excitatory afferents on to many different species of alpha motoneurones , 1957, The Journal of physiology.
[16] J. Eccles,et al. Synaptic actions on motoneurones caused by impulses in Golgi tendon organ afferents , 1957, The Journal of physiology.
[17] R. Grossman,et al. Effects of stimulation of non-specific thalamic system on locomotor movements in cat. , 1958, Journal of neurophysiology.
[18] R. Miledi,et al. Delayed effects of peripheral severance of afferent nerve fibres on the efficacy of their central synapses , 1959, The Journal of physiology.
[19] E. Liddell,et al. THE DISCOVERY OF REFLEXES , 1961 .
[20] W. Kozak,et al. Enhancement of spinal monosynaptic reflex responses after denervation of synergic hind-limb muscles , 1962 .
[21] R. Livingston,et al. Longitudinal conduction systems serving spinal and brain-stem coordination. , 1963, Journal of neurophysiology.
[22] I. Engberg. REFLEXES TO FOOT MUSCLES IN THE CAT. , 1964, Acta physiologica Scandinavica. Supplementum.
[23] A. Lundberg,et al. The effect of DOPA on the spinal cord. 1. Influence on transmission from primary afferents. , 1966, Acta physiologica Scandinavica.
[24] Shik Ml,et al. Control of walking and running by means of electric stimulation of the midbrain , 1966 .
[25] Shik Ml,et al. Organization of locomotor synergism , 1966 .
[26] A. Lundberg,et al. The effect of DOPA on the spinal cord. 6. Half-centre organization of interneurones transmitting effects from the flexor reflex afferents. , 1967, Acta physiologica Scandinavica.
[27] A. Lundberg,et al. The effect of DOPA on the spinal cord. 5. Reciprocal organization of pathways transmitting excitatory action to alpha motoneurones of flexors and extensors. , 1967, Acta physiologica Scandinavica.
[28] A. Lundberg,et al. Reflex control of stepping , 1969 .
[29] I. Engberg,et al. An electromyographic analysis of muscular activity in the hindlimb of the cat during unrestrained locomotion. , 1969, Acta physiologica Scandinavica.
[30] R. Skinner,et al. Spinal cord potentials produced by ventral cord volleys in the cat. , 1970, Experimental neurology.
[31] F. V. Severin,et al. [Role of the gamma-motor system in activation of extensor alpha-motor neurons during controlled locomotion]. , 1970, Biofizika.
[32] [Interaction of symmetric extremities during controlled locomotion]. , 1970, Biofizika.
[33] Orlovskiĭ Gn. [Relations between reticulo-spinal neurons and locomotor regions of the brain stem]. , 1970 .
[34] F. Clarac. [Proprioceptive regulation of locomotor appendix elevation during lateral walking in the crab Carcinus maenas (L.)]. , 1971, Journal de physiologie.
[35] O. I. Fukson,et al. Origin of modulation in neurones of the ventral spinocerebellar tract during locomotion. , 1972, Brain research.
[36] [Activity of neurons of the ventral spino-cerebellar tract during locomotion]. , 1972, Biofizika.
[37] G. Orlovsky,et al. Activity of vestibulospinal neurons during locomotion. , 1972, Brain research.
[38] G. Orlovsky. The effect of different descending systems on flexor and extensor activity during locomotion. , 1972, Brain research.
[39] S. Grillner,et al. The locomotion of the acute spinal cat injected with clonidine i.v. , 1973, Brain research.
[40] M. M. Patterson,et al. Effects of a classical conditioning paradigm on hind-limb flexor nerve response in immobilized spinal cats. , 1973, Journal of comparative and physiological psychology.
[41] M C Wetzel,et al. Behavior and histochemistry of functionally isolated cat ankle extensors. , 1973, Experimental neurology.
[42] S. Grillner. Locomotion in the Spinal Cat , 1973 .
[43] T. Fu,et al. Characteristics and distribution of spinal focal synaptic potentials generated by group II muscle afferents. , 1974, Acta physiologica Scandinavica.
[44] Z. Afelt. Functional significance of ventral descending tracts of the spinal cord in the cat. , 1974, Acta Neurobiologiae Experimentalis.
[45] T J Willey,et al. Reticulospinal neurons with and without monosynaptic inputs from cerebellar nuclei. , 1975, Journal of neurophysiology.
[46] G. Orlovsky,et al. Activity of interneurons mediating reciprocal 1a inhibition during locomotion , 1975, Brain Research.
[47] C. Perret,et al. Neural Control of Locomotion in the Decorticate Cat , 1976 .
[48] A. Prochazka,et al. Discharges of single hindlimb afferents in the freely moving cat. , 1976, Journal of neurophysiology.
[49] S. Grillner,et al. Central Generation of Locomotion in Vertebrates , 1976 .
[50] Douglas G. Stuart,et al. Neural Control of Locomotion , 1976, Advances in Behavioral Biology.
[51] M. L. Shik,et al. Neurophysiology of locomotor automatism. , 1976, Physiological reviews.
[52] D. Stuart,et al. Ensemble characteristics of cat locomotion and its neural control. , 1982, Progress in neurobiology.
[53] Douglas G. Stuart,et al. Ensemble characterivstics ofcat locovmotionand its neural control , 1976, Progress in Neurobiology.
[54] J S Buchwald,et al. Classical conditioning with auditory discrimination of the eye blink in decerebrate cats. , 1977, Science.
[55] J. Duysens. Reflex control of locomotion as revealed by stimulation of cutaneous afferents in spontaneously walking premammillary cats. , 1977, Journal of neurophysiology.
[56] A. Prochazka,et al. Ia afferent activity during a variety of voluntary movements in the cat , 1977, The Journal of physiology.
[57] I. Gelfand,et al. Generation of scratching. II. Nonregular regimes of generation. , 1978, Journal of neurophysiology.
[58] S. Mori,et al. Controlled locomotion in the mesencephalic cat: distribution of facilitatory and inhibitory regions within pontine tegmentum. , 1978, Journal of neurophysiology.
[59] W. Rymer,et al. Effect of compensatory hypertrophy studied in individual motor units in medial gastrocnemius muscle of the cat. , 1978, Journal of neurophysiology.
[60] O. Lindvall,et al. Subcortical projections to the prefrontal cortex in the rat as revealed by the horseradish peroxidase technique , 1978, Neuroscience.
[61] P. Wall,et al. Reorganisation of spinal cord sensory map after peripheral nerve injury , 1978, Nature.
[62] S. Rossignol,et al. On the initiation of the swing phase of locomotion in chronic spinal cats , 1978, Brain Research.
[63] R. Skinner,et al. Monosynaptic inputs to lumbar interneurons from the lateral vestibulospinal tract and the medial longitudinal fasciculus , 1978, Neuroscience Letters.
[64] H. Forssberg. Stumbling corrective reaction: a phase-dependent compensatory reaction during locomotion. , 1979, Journal of neurophysiology.
[65] M. Shimamura,et al. Reticulospinal tracts involved in the spino-bulbo-spinal reflex in cats , 1979, Brain Research.
[66] R. Gallego,et al. Disuse enhances synaptic efficacy in spinal mononeurones. , 1979, The Journal of physiology.
[67] F. Zajac,et al. Effects of stimulalating Deiters' nucleus and memdial longitudinal fasciculus on the timing of the fictive locomotor rhythm induced in cats by DOPA , 1979, Brain Research.
[68] G. Mogenson,et al. Nucleus accumbens to globus pallidus GABA projection subserving ambulatory activity. , 1980, The American journal of physiology.
[69] F. Delcomyn. Neural basis of rhythmic behavior in animals. , 1980, Science.
[70] S. Grillner,et al. The locomotion of the low spinal cat. I. Coordination within a hindlimb. , 1980, Acta physiologica Scandinavica.
[71] L. Jordan,et al. Effect of noradrenaline and 5-hydroxytryptamine depletion on locomotion in the cat , 1980, Brain Research.
[72] Larry M. Jordan,et al. Localization of a descending pathway in the spinal cord which is necessary for controlled treadmill locomotion , 1980, Neuroscience Letters.
[73] S. Rossignol,et al. The locomotion of the low spinal cat. II. Interlimb coordination. , 1980, Acta physiologica Scandinavica.
[74] C. Pratt,et al. Renshaw cell activity and recurrent effects on motoneurons during fictive locomotion. , 1980, Journal of neurophysiology.
[75] K. Pearson,et al. Inhibition of flexor burst generation by loading ankle extensor muscles in walking cats , 1980, Brain Research.
[76] A. Prochazka,et al. Tendon organ discharge during voluntary movements in cats. , 1980, The Journal of physiology.
[77] E. Eidelberg,et al. Locomotor control in macaque monkeys. , 1981, Brain : a journal of neurology.
[78] F. Clarac,et al. Reversal of a Walking Leg Reflex Elicited by a Muscle Receptor , 1981 .
[79] S. Grillner. Control of Locomotion in Bipeds, Tetrapods, and Fish , 1981 .
[80] A. Lundberg. HALF-CENTRES REVISITED , 1981 .
[81] E. Jankowska,et al. Common interneurones in reflex pathways from group 1a and 1b afferents of ankle extensors in the cat. , 1981, The Journal of physiology.
[82] E. Eidelberg. Consequences of spinal cord lesions upon motor function, with special reference to locomotor activity , 1981, Progress in Neurobiology.
[83] S. Grillner,et al. Peripheral control of the cat's step cycle. I. Phase dependent effects of ramp-movements of the hip during "fictive locomotion". , 1981, Acta physiologica Scandinavica.
[84] G. Loeb. Somatosensory unit input to the spinal cord during normal walking. , 1981, Canadian journal of physiology and pharmacology.
[85] S. Rossignol,et al. State-dependent responses during locomotion , 1981 .
[86] S. Grillner,et al. Activation of NMDA-receptors elicits "fictive locomotion" in lamprey spinal cord in vitro. , 1981, Acta physiologica Scandinavica.
[87] L. Caplan,et al. Lateral segmental brainstem hemorrhages , 1982, Neurology.
[88] P. Kostyuk,et al. Polarization of primary afferent terminals of lumbosacral cord elicited by the activity of spinal locomotor generator , 1982, Neuroscience.
[89] S. Wada,et al. Reticular neuron activities associated with locomotion in thalamic cats , 1982, Brain Research.
[90] M. Shimamura,et al. Discharge patterns of reticulospinal neurons corresponding with quadrupedal leg movements in thalamic cats , 1983, Brain Research.
[91] G. Mogenson,et al. Evidence that an accumbens to subpallidal GABAergic projection contributes to locomotor activity , 1983, Brain Research Bulletin.
[92] S. Grillner,et al. Peripheral control of the cat's step cycle. II. Entrainment of the central pattern generators for locomotion by sinusoidal hip movements during "fictive locomotion.". , 1983, Acta physiologica Scandinavica.
[93] E. Décima,et al. Long-lasting facilitation of a monosynaptic pathway as a result of “partial” axotomy of its presynaptic elements , 1983, Experimental Neurology.
[94] C. Perret. Centrally generated pattern of motoneuron activity during locomotion in the cat. , 1983, Symposia of the Society for Experimental Biology.
[95] Professor Dr. Ulrich Bässler. Neural Basis of Elementary Behavior in Stick Insects , 1983, Studies of Brain Function.
[96] M. Jouvet,et al. Localization of substance P- and enkephalin-like like immunoreactivity in relation to catecholamine-containing cell bodies in the cat dorsolateral pontine tegmentum: An immunofluorescence study , 1983, Neuroscience.
[97] A M Graybiel,et al. The afferent and efferent connections of the feline nucleus tegmenti pedunculopontinus, pars compacta , 1983, The Journal of comparative neurology.
[98] E Jankowska,et al. Shared reflex pathways of group I afferents of different cat hind‐limb muscles. , 1983, The Journal of physiology.
[99] E. Garcia-Rill,et al. Connections of the mesencephalic locomotor region (MLR) II. Afferents and efferents , 1983, Brain Research Bulletin.
[100] D. McCrea,et al. Shared reflex pathways from Ib tendon organ afferents and Ia muscle spindle afferents in the cat. , 1983, The Journal of physiology.
[101] E. Garcia-Rill. Connections of the mesencephalic locomotor region (MLR) III. Intracellular recordings , 1983, Brain Research Bulletin.
[102] J. Halbertsma. The stride cycle of the cat: the modelling of locomotion by computerized analysis of automatic recordings. , 1983, Acta physiologica Scandinavica. Supplementum.
[103] C. Hammond,et al. Branched output neurons of the rat subthalamic nucleus: Electrophysiological study of the synaptic effects on identified cells in the two main target nuclei, the entopeduncular nucleus and the substantia nigra , 1983, Neuroscience.
[104] E. Garcia-Rill,et al. Connections of the mesencephalic locomotor region (MLR) I. Substantia nigra afferents , 1983, Brain Research Bulletin.
[105] Parker Sm,et al. Forward locomotion elicited by electrical stimulation in the diencephalon and mesencephalon of the awake rat. , 1983 .
[106] S. Grillner,et al. The effect of dorsal root transection on the efferent motor pattern in the cat's hindlimb during locomotion. , 1984, Acta physiologica Scandinavica.
[107] Rhythmic Properties of Climbing Fiber Afferent Responses to Peripheral Stimuli , 1984 .
[108] A. Prochazka,et al. Tendon organ firing during active muscle lengthening in awake, normally behaving cats. , 1984, The Journal of physiology.
[109] S. Rossignol,et al. Phase-dependent responses evoked in limb muscles by stimulation of medullary reticular formation during locomotion in thalamic cats. , 1984, Journal of neurophysiology.
[110] A. Roberts,et al. Excitatory amino acid receptors in Xenopus embryo spinal cord and their role in the activation of swimming. , 1984, The Journal of physiology.
[111] M. Hulliger,et al. The mammalian muscle spindle and its central control. , 1984, Reviews of physiology, biochemistry and pharmacology.
[112] L. Mendell. Modifiability of spinal synapses. , 1984, Physiological reviews.
[113] L. Jordan,et al. Autoradiographic demonstration of the projections from the mesencephalic locomotor region , 1984, Brain Research.
[114] S. Grillner,et al. Activation of ‘fictive swimming’ by electrical microstimulation of brainstem locomotor regions in an in vitro preparation of the lamprey central nervous system , 1984, Brain Research.
[115] R. Dubner,et al. Spinal lamina I neurons projecting to the parabrachial area of the cat midbrain , 1985, Brain Research.
[116] S. Zill. Proprioceptive Feedback and the Control of Cockroach Walking , 1985 .
[117] M. Udo,et al. Responses of cerebellar Purkinje cells to mechanical perturbations during locomotion of decrebrate cats , 1985, Neuroscience Research.
[118] T. Fuwa,et al. Burst discharges of pontine reticular neurons in relation to forelimb stepping of thalamic and high spinal cats , 1985, Brain Research.
[119] S Grillner,et al. Central pattern generators for locomotion, with special reference to vertebrates. , 1985, Annual review of neuroscience.
[120] E. Garcia-Rill,et al. Chemical activation of the mesecephalic locomotor region , 1985, Brain Research.
[121] E. Garcia-Rill. The basal ganglia and the locomotor regions , 1986, Brain Research Reviews.
[122] G. Mogenson,et al. Involvement of neuronal cell bodies of the mesencephalic locomotor region in the initiation of locomotor activity of freely behaving rats , 1986, Brain Research Bulletin.
[123] D. Armstrong. Supraspinal contributions to the initiation and control of locomotion in the cat , 1986, Progress in Neurobiology.
[124] Trevor Drew,et al. Phasic Modulation of Reflexes during Rhythmic Activity , 1986 .
[125] G. Mogenson,et al. Subpallidal projections to the mesencephalic locomotor region investigated with a combination of behavioral and electrophysiological recording techniques , 1986, Brain Research Bulletin.
[126] S. Mori,et al. Interaction of Posture and Locomotion and Initiation of Locomotion in Decerebrate Cats and Freely Moving Intact Cats , 1986 .
[127] K. Sillar,et al. Phase-dependent reversal of reflexes mediated by the thoracocoxal muscle receptor organ in the crayfish, Pacifastacus leniusculus. , 1986, Journal of neurophysiology.
[128] L. Jordan. Initiation of Locomotion from the Mammalian Brainstem , 1986 .
[129] G. Orlovsky,et al. Role of the Cerebellum in the Control of Rhythmic Movements , 1986 .
[130] R. J. Gregor,et al. Effects of training on the recovery of full-weight-bearing stepping in the adult spinal cat , 1986, Experimental Neurology.
[131] P. Stein,et al. Neurobiology of Vertebrate Locomotion , 1986, Wenner-Gren Center International Symposium Series.
[132] U. Bssler. Afferent control of walking movements in the stick insectCuniculina impigra: II. Reflex reversal and the release of the swing phase in the restrained foreleg , 1986 .
[133] E. Garcia-Rill,et al. The Basal Ganglia and the Mesencephalic Locomotor Region , 1986 .
[134] S. Rossignol,et al. Discharge patterns of reticulospinal and other reticular neurons in chronic, unrestrained cats walking on a treadmill. , 1986, Journal of neurophysiology.
[135] K. Pearson. Central Pattern Generation: A Concept Under Scrutiny , 1987 .
[136] D. Price,et al. Loss of pedunculopontine neurons in progressive supranuclear palsy , 1987, Annals of neurology.
[137] S. Rossignol,et al. Recovery of locomotion after chronic spinalization in the adult cat , 1987, Brain Research.
[138] G. Mogenson,et al. Limbic-motor integration , 1987 .
[139] J. Steeves,et al. Stimulation of the pontomedullary reticular formation initiates locomotion in decerebrate birds , 1987, Brain Research.
[140] M. Mayer,et al. The physiology of excitatory amino acids in the vertebrate central nervous system , 1987, Progress in Neurobiology.
[141] N. Kudo,et al. N-Methyl-d,l-aspartate-induced locomotor activity in a spinal cord-indlimb muscles preparation of the newborn rat studied in vitro , 1987, Neuroscience Letters.
[142] C. Pratt,et al. Ia inhibitory interneurons and Renshaw cells as contributors to the spinal mechanisms of fictive locomotion. , 1987, Journal of neurophysiology.
[143] E. Garcia-Rill,et al. The mesencephalic locomotor region. I. Activation of a medullary projection site , 1987, Brain Research.
[144] E. Garcia-Rill,et al. The mesencephalic locomotor region. II. Projections to reticulospinal neurons , 1987, Brain Research.
[145] G. Loeb. Hard lessons in motor control from the mammalian spinal cord , 1987, Trends in Neurosciences.
[146] S. Mori. Integration of posture and locomotion in acute decerebrate cats and in awake, freely moving cats , 1987, Progress in Neurobiology.
[147] E. Jankowska,et al. Evidence that mid‐lumbar neurones in reflex pathways from group II afferents are involved in locomotion in the cat. , 1988, The Journal of physiology.
[148] M. Goldberger,et al. Patterns of sprouting and implications for recovery of function. , 1988, Advances in neurology.
[149] J. Bloedel,et al. A new conditioning paradigm: Conditioned limb movements in locomoting decerebrate ferrets , 1988, Neuroscience Letters.
[150] L. Mendell. Physiological aspects of synaptic plasticity: the Ia/motoneuron connection as a model. , 1988, Advances in neurology.
[151] Shik Ml,et al. On the Bulbospinal Locomotor Column in the Cat , 1988 .
[152] A. Chrachri,et al. The Stance Phase and its Control by Sensory Information During Walking in Crustacea , 1988 .
[153] Shigemi Mori,et al. Ascending and descending projections of the nucleus reticularis gigantocellularis in the cat demonstrated by the anterograde neural tracer, Phaseolus vulgaris leucoagglutinin (PHA-L) , 1988, Brain Research.
[154] S G Lisberger,et al. The neural basis for learning of simple motor skills. , 1988, Science.
[155] D. Armstrong. The supraspinal control of mammalian locomotion. , 1988, The Journal of physiology.
[156] T. Drew,et al. Motor cortical cell discharge during voluntary gait modification , 1988, Brain Research.
[157] A. McClellan. Brainstem command systems for locomotion in the lamprey: localization of descending pathways in the spinal cord , 1988, Brain Research.
[158] B. Noga,et al. Locomotion produced in mesencephalic cats by injections of putative transmitter substances and antagonists into the medial reticular formation and the pontomedullary locomotor strip , 1988, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[159] A. Prochazka. Sensorimotor gain control: A basic strategy of motor systems? , 1989, Progress in Neurobiology.
[160] J. Iles,et al. The mesencephalic centre controlling locomotion in the rat , 1989, Neuroscience.
[161] Y. Ohta,et al. Site-specific postural and locomotor changes evoked in awake, freely moving intact cats by stimulating the brainstem , 1989, Brain Research.
[162] S. Grillner,et al. Monosynaptic excitatory amino acid transmission from the posterior rhombencephalic reticular nucleus to spinal neurons involved in the control of locomotion in lamprey. , 1989, Journal of neurophysiology.
[163] V. Reggie Edgerton,et al. Electromyographic activity of cat hindlimb flexors and extensors during locomotion at varying speeds and inclines , 1989, Brain Research.
[164] M. Hulliger,et al. Ensemble proprioceptive activity in the cat step cycle: towards a representative look-up chart. , 1989, Progress in brain research.
[165] I. Tanaka,et al. Comparison between spino-bulbo-spinal and propriospinal reflexes in thalamic cats during stepping , 1990, Neuroscience Research.
[166] S. Rossignol,et al. Functional organization within the medullary reticular formation of intact unanesthetized cat. I. Movements evoked by microstimulation. , 1990, Journal of neurophysiology.
[167] Takashi Yamaguchi,et al. Cervical interneurones oligosynaptically excited from primary afferents and rhythmically active during forelimb fictive locomotion in the cat , 1990, Neuroscience Letters.
[168] S. Rossignol,et al. Functional organization within the medullary reticular formation of intact unanesthetized cat. II. Electromyographic activity evoked by microstimulation. , 1990, Journal of neurophysiology.
[169] S. Rossignol,et al. Phase-dependent modulation of primary afferent depolarization in single cutaneous primary afferents evoked by peripheral stimulation during fictive locomotion in the cat , 1990, Brain Research.
[170] E. Knudsen,et al. Sensitive and critical periods for visual calibration of sound localization by barn owls , 1990, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[171] E. Garcia-Rill,et al. Posterior midbrain-induced locomotion , 1990, Brain Research Bulletin.
[172] E. Jankowska,et al. Contralaterally projecting lamina VIII interneurones in middle lumbar segments in the cat , 1990, Brain Research.
[173] E. Garcia-Rill,et al. Medioventral medulla-induced locomotion , 1990, Brain Research Bulletin.
[174] C. Livingston,et al. Locomotion evoked by stimulation of the brain stem in the Atlantic stingray, Dasyatis sabina , 1990, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[175] R. Leonard,et al. Identification of the midbrain locomotor region and its relation to descending locomotor pathways in the Atlantic stingray,Dasyatis sabina , 1991, Brain Research.
[176] J. Bloedel,et al. Substrates for Motor Learning Does the Cerebellum Do It All? a , 1991, Annals of the New York Academy of Sciences.
[177] [The participation of the medial reticular formation of the medulla oblongata in the supraspinal control of locomotor and postural activities in the guinea pig]. , 1992, Fiziologicheskii zhurnal SSSR imeni I. M. Sechenova.
[178] T. Drew. Functional organization within the medullary reticular formation of the intact unanesthetized cat. III. Microstimulation during locomotion. , 1991, Journal of neurophysiology.
[179] E. Garcia-Rill. The pedunculopontine nucleus , 1991, Progress in Neurobiology.
[180] K. V. Baev,et al. Afferent control of central pattern generators: Experimental analysis of scratching in the decerebrate cat , 1991, Neuroscience.
[181] D J Kriellaars,et al. The effect of selective brainstem or spinal cord lesions on treadmill locomotion evoked by stimulation of the mesencephalic or pontomedullary locomotor regions , 1991, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[182] N. A. Borghese,et al. Transient reversal of the stretch reflex in human arm muscles. , 1991, Journal of neurophysiology.
[183] T. Drew. Visuomotor coordination in locomotion , 1991, Current Opinion in Neurobiology.
[184] J. Steeves,et al. Funicular organization of avian brainstem‐spinal projections , 1991, The Journal of comparative neurology.
[185] H. Hultborn,et al. Induction of fos expression by activity in the spinal rhythm generator for scratching , 1992, Brain Research.
[186] Yury P. Shimansky,et al. Principles of organization of neural systems controlling automatic movements in animals , 1992, Progress in Neurobiology.
[187] V R Edgerton,et al. Potential of adult mammalian lumbosacral spinal cord to execute and acquire improved locomotion in the absence of supraspinal input. , 1992, Journal of neurotrauma.
[188] L. Jordan,et al. Control of functional systems in the brainstem and spinal cord , 1992, Current Opinion in Neurobiology.
[189] M. Gladden. Muscle Receptors in Mammals , 1992 .
[190] D. McCrea. Can sense be made of spinal interneuron circuits , 1992 .
[191] O. Kiehn,et al. Resetting from low threshold afferents of N-methyl-d-aspartate-induced locomotor rhythm in the isolated spinal cord-hindlimb preparation from newborn rats , 1992, Neuroscience Letters.
[192] F. Clarac,et al. Activation of the central pattern generators for locomotion by serotonin and excitatory amino acids in neonatal rat. , 1992, The Journal of physiology.
[193] T. Bedford,et al. A model of dynamic exercise: the decerebrate rat locomotor preparation. , 1992, Journal of applied physiology.
[194] L. Jordan,et al. Control of functional systems in the brainstem and spinal cord , 1992, Current Biology.
[195] Activity of cervical neurons during forelimb fictive locomotion in decerebrate cats. , 1992, The Japanese journal of physiology.
[196] K. Sillar. Spinal pattern generation and sensory gating mechanisms , 1992, Current Biology.
[197] J. Bloedel,et al. Responses of sagittally aligned Purkinje cells during perturbed locomotion: synchronous activation of climbing fiber inputs. , 1992, Journal of neurophysiology.
[198] E. Jankowska. Interneuronal relay in spinal pathways from proprioceptors , 1992, Progress in Neurobiology.
[199] K. Takakusaki,et al. Neuronal constituents of postural and locomotor control systems and their interactions in cats. , 1992, Brain & development.
[200] M. Sirota,et al. The role of the motor cortex in the control of vigour of locomotor movements in the cat. , 1993, The Journal of physiology.
[201] P. Murphy,et al. Fusimotor discharge patterns during rhythmic movements , 1993, Trends in Neurosciences.
[202] S. Mori,et al. Pontine-induced generalized suppression of postural muscle tone in a reflexively standing acute decerebrate cat , 1993, Neuroscience Research.
[203] K. Pearson. Common principles of motor control in vertebrates and invertebrates. , 1993, Annual review of neuroscience.
[204] E Jankowska,et al. Interactions between pathways controlling posture and gait at the level of spinal interneurones in the cat. , 1993, Progress in brain research.
[205] Michael J. O'Donovan,et al. Regionalization and intersegmental coordination of rhythm-generating networks in the spinal cord of the chick embryo , 1993, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[206] J R Wolpaw,et al. Adaptive plasticity in spinal cord. , 1993, Advances in neurology.
[207] B. Noga,et al. The effects of intrathecal administration of excitatory amino acid agonists and antagonists on the initiation of locomotion in the adult cat , 1993, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[208] Kaoru Takakusaki,et al. Termination mode and branching patterns of reticuloreticular and reticulospinal fibers of the nucleus reticularis pontis oralis in the cat: an anterograde PHA-L tracing study , 1993, Neuroscience Research.
[209] K. Pearson,et al. Reversal of the influence of group Ib afferents from plantaris on activity in medial gastrocnemius muscle during locomotor activity. , 1993, Journal of neurophysiology.
[210] M. Udo,et al. A new learning paradigm: adaptive changes in interlimb coordination during perturbed locomotion in decerebrate cats , 1993, Neuroscience Research.
[211] T. Drew. Motor cortical activity during voluntary gait modifications in the cat. I. Cells related to the forelimbs. , 1993, Journal of neurophysiology.
[212] G. Mogenson,et al. Functional interaction of dopamine and glutamate in the nucleus accumbens in the regulation of locomotion. , 1993, Canadian journal of physiology and pharmacology.
[213] S. Mori,et al. Pontine microinjection of carbachol and critical zone for inducing postural atonia in reflexively standing decerebrate cats , 1993, Neuroscience Letters.
[214] A. Prochazka,et al. Comparison of natural and artificial control of movement , 1993 .
[215] S. Rossignol,et al. Activity of medullary reticulospinal neurons during fictive locomotion. , 1993, Journal of neurophysiology.
[216] A. McClellan,et al. Mechanosensory inputs to the central pattern generators for locomotion in the lamprey spinal cord: resetting, entrainment, and computer modeling. , 1993, Journal of neurophysiology.
[217] D. Wallis,et al. Glutamatergic and non-glutamatergic responses evoked in neonatal rat lumbar motoneurons on stimulation of the lateroventral spinal cord surface , 1993, Neuroscience.
[218] T. Bem,et al. Unrestrained walking in cats with partial spinal lesions , 1993, Brain Research Bulletin.
[219] G. Mogenson,et al. Decreases in rat locomotor activity as a result of changes in synaptic transmission to neurons within the mesencephalic locomotor region. , 1993, Canadian journal of physiology and pharmacology.
[220] J. Criado,et al. Changes in the discharge patterns of cat motor cortex neurones during unexpected perturbations of on‐going locomotion. , 1993, The Journal of physiology.
[221] S. Rossignol,et al. Noradrenergic agonists and locomotor training affect locomotor recovery after cord transection in adult cats , 1993, Brain Research Bulletin.
[222] H. M. Sinnamon,et al. Preoptic and hypothalamic neurons and the initiation of locomotion in the anesthetized rat , 1993, Progress in Neurobiology.
[223] M. Udo,et al. Climbing fiber responses in cerebellar vermal Purkinje cells during perturbed locomotion in decerebrate cats , 1994, Neuroscience Research.
[224] O. Kiehn,et al. Sulphorhodamine‐labelled cells in the neonatal rat spinal cord following chemically induced locomotor activity in vitro. , 1994, The Journal of physiology.
[225] S. Rossignol,et al. Enhancement of locomotor recovery following spinal cord injury. , 1994, Current opinion in neurology.
[226] J. Duysens,et al. Interlimb reflexes during gait in cat and human , 1994 .
[227] D J Kriellaars,et al. Mechanical entrainment of fictive locomotion in the decerebrate cat. , 1994, Journal of neurophysiology.
[228] T. Drew,et al. Motor cortical activity during voluntary gait modifications in the cat. II. Cells related to the hindlimbs. , 1993, Journal of neurophysiology.
[229] L. Jordan,et al. TTX-resistant NMDA receptor-mediated voltage oscillations in mammalian lumbar motoneurons. , 1994, Journal of neurophysiology.
[230] S. Rossignol,et al. Microstimulation of the medullary reticular formation during fictive locomotion. , 1994, Journal of neurophysiology.
[231] D. Nance,et al. Intracellular labeling of cat spinal neurons using a tetramethykhodamine-dextran amine conjugate , 1994, Brain Research Bulletin.
[232] Multi-segmental and generalized suppression of postural muscle tone evoked by stimulating the dorsal tegmental field and the medial pontine reticular formation in acute decerebrate cats , 1994, Neuroscience Letters.
[233] J. Masdeu,et al. Astasia and gait failure with damage of the pontomesencephalic locomotor region , 1994, Annals of neurology.
[234] K. Pearson. REFLEX REVERSAL IN THE WALKING SYSTEMS OF MAMMALS AND ARTHROPODS , 1995 .
[235] The recovery of locomotion in adult cats subjected to bilateral lesions of the ventral and ventrolateral spinal quadrants , 1995 .
[236] Long-duration, frequency-dependent motor responses evoked by ventrolateral funiculus stimulation in the neonatal rat spinal cord , 1995, Neuroscience Letters.
[237] D A McCrea,et al. Disynaptic group I excitation of synergist ankle extensor motoneurones during fictive locomotion in the cat. , 1995, The Journal of physiology.
[238] P. Winn,et al. The pedunculopontine tegmental nucleus: Where the striatum meets the reticular formation , 1995, Progress in Neurobiology.
[239] S. Grillner,et al. Neural networks that co-ordinate locomotion and body orientation in lamprey , 1995, Trends in Neurosciences.
[240] E. Garcia-Rill,et al. The pedunculopontine nucleus—Auditory input, arousal and pathophysiology , 1995, Progress in Neurobiology.
[241] J. Bloedel,et al. On the cerebellum, cutaneomuscular reflexes, movement control and the elusive engrams of memory , 1995, Behavioural Brain Research.
[242] D J Kriellaars,et al. Field potential mapping of neurons in the lumbar spinal cord activated following stimulation of the mesencephalic locomotor region , 1995, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[244] D A McCrea,et al. Effects of stimulation of hindlimb flexor group II afferents during fictive locomotion in the cat. , 1995, The Journal of physiology.
[245] K. Pearson,et al. Plasticity of the extensor group I pathway controlling the stance to swing transition in the cat. , 1995, Journal of neurophysiology.
[246] J. P. Hanna,et al. Automatic stepping in the pontomedullary stage of central herniation , 1995, Neurology.
[247] D. McCrea,et al. Ankle extensor group I afferents excite extensors throughout the hindlimb during fictive locomotion in the cat. , 1995, The Journal of physiology.
[248] Octopamine induces steady-state reflex reversal in crayfish thoracic ganglia. , 1996, Journal of neurophysiology.
[249] K. Pearson,et al. Contribution of hind limb flexor muscle afferents to the timing of phase transitions in the cat step cycle. , 1996, Journal of neurophysiology.