Hans Hultborn. Prog Neurobiol 2006
Times Cited: 96
Times Cited: 96
Times Cited
Times Co-cited
Similarity
18
Dynamic sensorimotor interactions in locomotion.
Serge Rossignol, Réjean Dubuc, Jean-Pierre Gossard. Physiol Rev 2006
Serge Rossignol, Réjean Dubuc, Jean-Pierre Gossard. Physiol Rev 2006
15
Flexion-reflex of the limb, crossed extension-reflex, and reflex stepping and standing.
C S Sherrington. J Physiol 1910
C S Sherrington. J Physiol 1910
11
Beginning at the end: repetitive firing properties in the final common pathway.
Robert M Brownstone. Prog Neurobiol 2006
Robert M Brownstone. Prog Neurobiol 2006
14
John Eccles' studies of spinal cord presynaptic inhibition.
William D Willis. Prog Neurobiol 2006
William D Willis. Prog Neurobiol 2006
18
Presynaptic inhibition in the vertebrate spinal cord revisited.
P Rudomin, R F Schmidt. Exp Brain Res 1999
P Rudomin, R F Schmidt. Exp Brain Res 1999
9
On the central generation of locomotion in the low spinal cat.
S Grillner, P Zangger. Exp Brain Res 1979
S Grillner, P Zangger. Exp Brain Res 1979
9
Proprioceptive input resets central locomotor rhythm in the spinal cat.
B A Conway, H Hultborn, O Kiehn. Exp Brain Res 1987
B A Conway, H Hultborn, O Kiehn. Exp Brain Res 1987
9
The effect of DOPA on the spinal cord. 6. Half-centre organization of interneurones transmitting effects from the flexor reflex afferents.
E Jankowska, M G Jukes, S Lund, A Lundberg. Acta Physiol Scand 1967
E Jankowska, M G Jukes, S Lund, A Lundberg. Acta Physiol Scand 1967
9
The monosynaptic reflex: a tool to investigate motor control in humans. Interest and limits.
E Pierrot-Deseilligny, D Mazevet. Neurophysiol Clin 2000
E Pierrot-Deseilligny, D Mazevet. Neurophysiol Clin 2000
9
Organization of mammalian locomotor rhythm and pattern generation.
David A McCrea, Ilya A Rybak. Brain Res Rev 2008
David A McCrea, Ilya A Rybak. Brain Res Rev 2008
9
The academic lineage of Sir John Carew Eccles (1903-1997).
Douglas G Stuart, Patricia A Pierce. Prog Neurobiol 2006
Douglas G Stuart, Patricia A Pierce. Prog Neurobiol 2006
44
Major role for sensory feedback in soleus EMG activity in the stance phase of walking in man.
T Sinkjaer, J B Andersen, M Ladouceur, L O Christensen, J B Nielsen. J Physiol 2000
T Sinkjaer, J B Andersen, M Ladouceur, L O Christensen, J B Nielsen. J Physiol 2000
8
Golgi tendon organs in mammalian skeletal muscle: functional properties and central actions.
L Jami. Physiol Rev 1992
L Jami. Physiol Rev 1992
8
Deletions of rhythmic motoneuron activity during fictive locomotion and scratch provide clues to the organization of the mammalian central pattern generator.
Myriam Lafreniere-Roula, David A McCrea. J Neurophysiol 2005
Myriam Lafreniere-Roula, David A McCrea. J Neurophysiol 2005
8
Muscle and tendon: properties, models, scaling, and application to biomechanics and motor control.
F E Zajac. Crit Rev Biomed Eng 1989
F E Zajac. Crit Rev Biomed Eng 1989
8
What functions do reflexes serve during human locomotion?
E P Zehr, R B Stein. Prog Neurobiol 1999
E P Zehr, R B Stein. Prog Neurobiol 1999
8
Circuits controlling vertebrate locomotion: moving in a new direction.
Martyn Goulding. Nat Rev Neurosci 2009
Martyn Goulding. Nat Rev Neurosci 2009
8
17
17
Inhibitory circuits in the thalamus and hippocampus--an appraisal after 40 years.
Per Andersen. Prog Neurobiol 2006
Per Andersen. Prog Neurobiol 2006
58
John Eccles' pioneering role in understanding central synaptic transmission.
Robert E Burke. Prog Neurobiol 2006
Robert E Burke. Prog Neurobiol 2006
33
Eccles' perspective of the forebrain, its role in skilled movements, and the mind-brain problem.
Mario Wiesendanger. Prog Neurobiol 2006
Mario Wiesendanger. Prog Neurobiol 2006
70
Recovery of locomotion after chronic spinalization in the adult cat.
H Barbeau, S Rossignol. Brain Res 1987
H Barbeau, S Rossignol. Brain Res 1987
7
Phase dependent reflex reversal during walking in chronic spinal cats.
H Forssberg, S Grillner, S Rossignol. Brain Res 1975
H Forssberg, S Grillner, S Rossignol. Brain Res 1975
7
Modelling spinal circuitry involved in locomotor pattern generation: insights from deletions during fictive locomotion.
Ilya A Rybak, Natalia A Shevtsova, Myriam Lafreniere-Roula, David A McCrea. J Physiol 2006
Ilya A Rybak, Natalia A Shevtsova, Myriam Lafreniere-Roula, David A McCrea. J Physiol 2006
7
Flexor reflex afferents reset the step cycle during fictive locomotion in the cat.
E D Schomburg, N Petersen, I Barajon, H Hultborn. Exp Brain Res 1998
E D Schomburg, N Petersen, I Barajon, H Hultborn. Exp Brain Res 1998
7
Transmission in a locomotor-related group Ib pathway from hindlimb extensor muscles in the cat.
J P Gossard, R M Brownstone, I Barajon, H Hultborn. Exp Brain Res 1994
J P Gossard, R M Brownstone, I Barajon, H Hultborn. Exp Brain Res 1994
7
Renshaw cell activity and recurrent effects on motoneurons during fictive locomotion.
D A McCrea, C A Pratt, L M Jordan. J Neurophysiol 1980
D A McCrea, C A Pratt, L M Jordan. J Neurophysiol 1980
8
Ia inhibitory interneurons and Renshaw cells as contributors to the spinal mechanisms of fictive locomotion.
C A Pratt, L M Jordan. J Neurophysiol 1987
C A Pratt, L M Jordan. J Neurophysiol 1987
7
7
Biological pattern generation: the cellular and computational logic of networks in motion.
Sten Grillner. Neuron 2006
Sten Grillner. Neuron 2006
7
Control of wrist position and muscle relaxation by shifting spatial frames of reference for motoneuronal recruitment: possible involvement of corticospinal pathways.
Helli Raptis, Liziane Burtet, Robert Forget, Anatol G Feldman. J Physiol 2010
Helli Raptis, Liziane Burtet, Robert Forget, Anatol G Feldman. J Physiol 2010
12
The recording of potentials from motoneurones with an intracellular electrode.
L G BROCK, J S COOMBS, J C ECCLES. J Physiol 1952
L G BROCK, J S COOMBS, J C ECCLES. J Physiol 1952
6
Evidence for plateau potentials in tail motoneurons of awake chronic spinal rats with spasticity.
D J Bennett, Y Li, P J Harvey, M Gorassini. J Neurophysiol 2001
D J Bennett, Y Li, P J Harvey, M Gorassini. J Neurophysiol 2001
6
Locomotor activity in spinal cord-injured persons.
V Dietz, Susan J Harkema. J Appl Physiol (1985) 2004
V Dietz, Susan J Harkema. J Appl Physiol (1985) 2004
6
Cholinergic and inhibitory synapses in a pathway from motor-axon collaterals to motoneurones.
J C ECCLES, P FATT, K KOKETSU. J Physiol 1954
J C ECCLES, P FATT, K KOKETSU. J Physiol 1954
6
Central effects of centripetal impulses in axons of spinal ventral roots.
B RENSHAW. J Neurophysiol 1946
B RENSHAW. J Neurophysiol 1946
6
Evidence for cutaneous and corticospinal modulation of presynaptic inhibition of Ia afferents from the human lower limb.
J F Iles. J Physiol 1996
J F Iles. J Physiol 1996
6
Presynaptic inhibition of the spinal monosynaptic reflex pathway.
J C ECCLES, R F SCHMIDT, W D WILLIS. J Physiol 1962
J C ECCLES, R F SCHMIDT, W D WILLIS. J Physiol 1962
6
Stumbling corrective reaction during fictive locomotion in the cat.
Jorge Quevedo, Katinka Stecina, Simon Gosgnach, David A McCrea. J Neurophysiol 2005
Jorge Quevedo, Katinka Stecina, Simon Gosgnach, David A McCrea. J Neurophysiol 2005
12
Contribution of cutaneous inputs from the hindpaw to the control of locomotion. II. Spinal cats.
L J G Bouyer, S Rossignol. J Neurophysiol 2003
L J G Bouyer, S Rossignol. J Neurophysiol 2003
6
Mechanical entrainment of fictive locomotion in the decerebrate cat.
D J Kriellaars, R M Brownstone, B R Noga, L M Jordan. J Neurophysiol 1994
D J Kriellaars, R M Brownstone, B R Noga, L M Jordan. J Neurophysiol 1994
6
Phasic gain control of reflexes from the dorsum of the paw during spinal locomotion.
H Forssberg, S Grillner, S Rossignol. Brain Res 1977
H Forssberg, S Grillner, S Rossignol. Brain Res 1977
6
Modelling spinal circuitry involved in locomotor pattern generation: insights from the effects of afferent stimulation.
Ilya A Rybak, Katinka Stecina, Natalia A Shevtsova, David A McCrea. J Physiol 2006
Ilya A Rybak, Katinka Stecina, Natalia A Shevtsova, David A McCrea. J Physiol 2006
6
Co-cited is the co-citation frequency, indicating how many articles cite the article together with the query article. Similarity is the co-citation as percentage of the times cited of the query article or the article in the search results, whichever is the lowest. These numbers are calculated for the last 100 citations when articles are cited more than 100 times.