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References (74)
-
I. Rosén (1969)
Localization in caudal brain stem and cervical spinal cord of neurones activated from forelimb group I afferents in the cat.Brain research, 16 1
-
(1965)
The pattern of presynaptic inhibition of transmission to the dorsal spinocerebellar tract of the cat -
S. Andersson, S. Landgren, D. Wolsk (1966)
The thalamic relay and cortical projection of Group I muscle afferents from the forelimb of the catThe Journal of Physiology, 183
-
O. Oscarsson, I. Rosén (1963)
Projection to cerebral cortex of large muscle‐spindle afferents in forelimb nerves of the catThe Journal of Physiology, 169
-
D. Curtis, J. Eccles (1960)
Synaptic action during and after repetitive stimulationThe Journal of Physiology, 150
-
C. Guzmán-Flores, N. Buendia, C. Anderson, D. Lindsley (1962)
Cortical and reticular influences upon evoked responses in dorsal column nuclei.Experimental neurology, 5
-
S. Waddell (1968)
The Parkinson's Disease Information and Research Center.Public health reports, 83 5
-
(1963)
Functional organization -
I. Rosén (1968)
Patterns of convergence at different levels of the Group I afferent pathway to the cat cerebral cortexActa Physiologica Scandinavica, 73
-
(1969)
Properties of Clarke's -
I. Rosén (1967)
Functional organization of group I activated neurones in the cuneate nucleus of the cat.Brain research, 6 4
-
I. Rosén (1969)
Excitation of Group I activated thalamocortical relay neurones in the catThe Journal of Physiology, 205
-
A. Lundberg, O. Oscarsson (1956)
Functional organization of the dorsal spinocerebellar tract in the cat. IV. Synaptic connections of afferents from Golgi tendon organs and muscle spindles.Acta physiologica Scandinavica, 38 1
-
(1956)
Central influences on afferent conduction in the somatic and visual pathways -
J. Eccles, R. Schmidt, W. Willis (1963)
INHIBITION OF DISCHARGES INTO THE DORSAL AND VENTRAL SPINOCEREBELLAR TRACTSJournal of Neurophysiology, 26
-
(1967)
Vestibular influences during sleep. Arch8 ital -
W. Chambers, C. Liu, G. McCouch (1963)
Inhibition of the dorsal column nuclei.Experimental neurology, 7
-
(1961)
Cerebral control of transmission to the ventral spino-cerebellar tract. Arch8 ital -
(1968)
Two specific feed-back pathways to the central afferent terminals of phasic and tonic -
O. Oscarsson, N. Uddenberg (1965)
PROPERTIES OF AFFERENT CONNECTIONS TO THE ROSTRAL SPINOCEREBELLAR TRACT IN THE CAT.Acta physiologica Scandinavica, 64
-
J. Eccles, R. Schmidt, W. Willis (1963)
DEPOLARIZATION OF CENTRAL TERMINALS OF GROUP Ib AFFERENT FIBERS OF MUSCLEJournal of Neurophysiology, 26
-
(1963)
Depolarization of the central -
S. Landgren, H. Silfvenius, D. Wolsk (1967)
Somato‐sensory paths to the second cortical projection area of the group I muscle afferentsThe Journal of Physiology, 191
-
F. Magni, O. Oscarsson (1961)
Cerebral control on transmission to the ventral spino-cerebellar tractArchives Italiennes De Biologie, 99
-
J. Eccles, O. Oscarsson, W. Willis (1961)
Synaptic action of Group I and II afferent fibres of muscle on the cells of the dorsal spinocerebellar tractThe Journal of Physiology, 158
-
R. Eccles, A. Lundberg (1958)
Integrative pattern of Ia synaptic actions on motoneurones of hip and knee musclesThe Journal of Physiology, 144
-
P. Merton (1964)
Human position sense and sense of effort.Symposia of the Society for Experimental Biology, 18
-
P. Wall (1958)
Excitability changes in afferent fibre terminations and their relation to slow potentialsThe Journal of Physiology, 142
-
(1967)
Muscle sense in man. Expl Neurol -
I. Darian‐Smith, T. Yokota (1966)
Corticofugal effects on different neuron types within the cat's brain stem activated by tactile stimulation of the face.Journal of neurophysiology, 29 2
-
M. Levitt, M. Carreras, C. Liu, W. Chambers (1964)
PYRAMIDAL AND EXTRAPYRAMIDAL MODULATION OF SOMATOSENSORY ACTIVITY IN GRACILE AND CUNEATE NUCLEI.Archives italiennes de biologie, 102
-
A. Lundberg (1964)
ASCENDING SPINAL HINDLIMB PATHWAYS IN THE CAT.Progress in brain research, 12
-
J. Satterfield (1962)
EFFECT OF SENSORIMOTOR CORTICAL STIMULATION UPON CUNEATE NUCLEAR OUTPUT THROUGH MEDIAL LEMNISCUS IN CATThe Journal of Nervous and Mental Disease, 135
-
G. Dawson, V. Podachin, S. Schatz (1963)
Facilitation of cortical responses by competing stimuliThe Journal of Physiology, 166
-
B. Holmqvist, A. Lundberg, O. Oscarsson (1957)
Functional organization of the dorsal spino-cerebellar tract in the cat. V. Further experiments on convergence of excitatory and inhibitory actions.Acta physiologica Scandinavica, 38 1
-
P. Andersen, J. Eccles, R. Schmidt, T. Yokota (1964)
DEPOLARIZATION OF PRESYNAPTIC FIBERS IN THE CUNEATE NUCLEUS.Journal of neurophysiology, 27
-
(1959)
Synaptic actions inmotoneurones by afferents which may evoke the flexion reflex. Arch8 ital -
Salvatore Giaquinto, O. Pompeiano, J. Swett (1963)
EEG AND BEHAVIORAL EFFECTS OF FORE-AND HINDLIMB MUSCULAR AFFERENT VOLLEYS IN UNRESTRAINED CATS.Archives italiennes de biologie, 101
-
Y. Laporte, A. Lundberg, O. Oscarsson (1956)
Functional organization of the dorsal spino-cerebellar tract in the cat. II. Single fibre recording in Flechsig's fasciculus on electrical stimulation of various peripheral nerves.Acta physiologica Scandinavica, 36 1-2
-
P. Andersen, J. Eccles, R. Schmidt, T. Yokota (1964)
IDENTIFICATION OF RELAY CELLS AND INTERNEURONS IN THE CUNEATE NUCLEUS.Journal of neurophysiology, 27
-
A. Livingston, C. Phillips (1957)
Maps and thresholds for the sensorimotor cortex of the cat.Quarterly journal of experimental physiology and cognate medical sciences, 42 2
-
E. Eide, L. Fedina, J. Jansen, A. Lundberg, L. Vyklický (1969)
Properties of Clarke's column neurones.Acta physiologica Scandinavica, 77 1
-
O. Oscarsson (1965)
FUNCTIONAL ORGANIZATION OF THE SPINO- AND CUNEOCEREBELLAR TRACTS.Physiological reviews, 45
-
B. Holmqvist, O. Oscarsson, I. Rosén (1963)
Functional Organization of the Cuneocerebellar Tract in the CatActa Physiologica Scandinavica, 58
-
P. Andersen, J. Eccles, R. Schmidt, T. Yokota (1964)
SLOW POTENTIAL WAVES PRODUCED IN THE CUNEATE NUCLEUS BY CUTANEOUS VOLLEYS AND BY CORTICAL STIMULATION.Journal of neurophysiology, 27
-
G. Gordon, M. Jukes (1964)
Descending influences on the exteroceptive organizations of the cat's gracile nucleusThe Journal of Physiology, 173
-
R. Eccles, A. Lunberg (1959)
Synaptic actions in motoneurones by afferents in which may evoke the flexion reflexArchives Italiennes De Biologie, 97
-
D. Lloyd (1946)
Facilitation and inhibition of spinal motoneurons.Journal of neurophysiology, 9 6
-
(1967)
Cortically evoked pre- and -
D. Winter (1965)
N. GRACILIS OF CAT. FUNCTIONAL ORGANIZATION AND CORTICOFUGAL EFFECTS.Journal of neurophysiology, 28
-
G. Carli, K. Diete-Spiff, O. Pompeiano (1967)
Presynaptic and postsynaptic inhibition of transmission of somatic afferent volleys through the cuneate nucleus during sleep.Archives italiennes de biologie, 105 1
-
(1964)
Architektonischer Aufbau des senso - motorischen und parietalen Cortex der Katze -
J. Swett, C. Bourassa (1967)
Comparison of sensory discrimination thresholds with muscle and cutaneous nerve volleys in the cat.Journal of neurophysiology, 30 3
-
O. Oscarsson, I. Rosén (1966)
Short‐latency projections to the cat cerebral cortex from skin and muscle afferents in the contralateral forelimbThe Journal of Physiology, 182
-
(1967)
Comparison of sensory discrimination -
F. Magni, R. Melzack, G. Moruzzi, C. Smith (1959)
Direct pyramidal influences on the dorsal-column nucleiArchives Italiennes De Biologie, 97
-
I. Darian‐Smith, G. Phillips, R. Ryan (1963)
Functional organization in the trigeminal main sensory and rostral spinal nuclei of the catThe Journal of Physiology, 168
-
(1964)
Architektonischer Aufbau des sensomotorischen und parietalen Cortex -
(1963)
Facilitation of cortical -
A. Towe, S. Jabbur (1961)
Cortical inhibition of neurons in dorsal column nuclei of cat.Journal of neurophysiology, 24
-
J. Eccles, R. Schmidt, W. Willis (1963)
DEPOLARIZATION OF THE CENTRAL TERMINALS OF CUTANEOUS AFFERENT FIBERSJournal of Neurophysiology, 26
-
P. Andersen, J. Eccles, T. Oshima, R. Schmidt (1964)
MECHANISMS OF SYNAPTIC TRANSMISSION IN THE CUNEATE NUCLEUS.Journal of neurophysiology, 27
-
M. Kuno, J. Miyahara (1968)
Factors responsible for multiple discharge of neurons in Clarke's column.Journal of neurophysiology, 31 4
-
H. Asanuma, H. Sakata (1967)
Functional Organization of a Cortical Efferent System Examined with Focal Depth Stimulation in CatsJournal of Neurophysiology, 30
-
O. Oscarsson, I. Rosén, I. Sulg (1966)
Organization of neurones in the cat cerebral cortex that are influenced from Group I muscle afferentsThe Journal of Physiology, 183
-
(1946)
Integrative pattern of excitation and inhibition in twoneuron reflex -
G. Gordon, R. Miller (1969)
Identification of cortical cells projecting to the dorsal column nuclei of the cat.Quarterly journal of experimental physiology and cognate medical sciences, 54 1
-
(1967)
Functional significance of information channels from the spinal cord to the cerebellum -
岡田 安弘 (1967)
Cortically evoked pre-and postsynaptic inhibition of impulse transmission to the dorsal spinocerebellar tract -
S. Gelfan, Sylvester Carter (1967)
Muscle sense in man.Experimental neurology, 18 4
-
D. Lloyd (1946)
Integrative pattern of excitation and inhibition in two-neuron reflex arcs.Journal of neurophysiology, 9 6
-
(1969)
Identification of cortical cells -
S. Jabbur, A. Towe (1961)
Cortical excitation of neurons in dorsal column nuclei of cat, including an analysis of pathways.Journal of neurophysiology, 24
-
A. Lundberg, G. Winsbury (1960)
Selective adequate activation of large afferents from muscle spindles and Golgi tendon organs.Acta physiologica Scandinavica, 49
- Publisher
- Wiley
- Copyright
- © 2014 The Physiological Society
- ISSN
- 0022-3751
- eISSN
- 1469-7793
- DOI
- 10.1113/jphysiol.1969.sp008961
- Publisher site
- See Article on Publisher Site
Abstract
1. Extracellular recordings were made from a total of 240 group I activated cells in the main cuneate nucleus. Cuneothalamic relay neurones (128) were identified by antidromic stimulation of the medial lemniscus in the ventrobasal thalamic complex. 2. A majority of the relay neurones were activated by afferents in only one of six dissected forelimb nerves innervating muscle groups at various joints. Even among afferents from adjacent synergistic muscles, convergence to individual neurones was infrequent. 3. Some of the relay neurones received excitation from group II muscle afferents in the same nerve that provided group I excitation. Excitation from group II muscle afferents in other nerves was uncommon. Some neurones were weakly excited by cutaneous volleys. 4. Inhibition of group I relay cells was produced from cutaneous afferents and group II muscle afferents. Weak inhibition was sometimes observed from group I afferents. The relay cells were also inhibited by stimulation of the cerebral cortex with a focus around the lateral end of the cruciate sulcus. A good correspondence was found between the inhibition and the depolarization of group I afferent terminals in the cuneate nucleus. 5. A majority of the group I activated cells not antidromically activated from the ventrobasal complex (‘non‐relay cells’) were excited by cortical stimulation. Excitation from cutaneous afferents and group II muscle afferents was frequently found among these cells. 6. The group I activated cells were found almost exclusively in the ventral part of the nucleus. 7. The pattern of convergence found in eleven group I activated cells in the dorsal horn of the spinal cord from C 2 to C 4 is described.
Journal
The Journal of Physiology – Wiley
Published: Nov 1, 1969