Published in J Physiol on December 01, 1961
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Apparent motion produces multiple deficits in visually guided smooth pursuit eye movements of monkeys. J Neurophysiol (2000) 1.02
Velocity scaling of cue-induced smooth pursuit acceleration obeys constraints of natural motion. Exp Brain Res (2007) 0.99
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Evidence for a link between the extra-retinal component of random-onset pursuit and the anticipatory pursuit of predictable object motion. J Neurophysiol (2008) 0.98
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Evidence for object permanence in the smooth-pursuit eye movements of monkeys. J Neurophysiol (2003) 0.96
Role of plasticity at different sites across the time course of cerebellar motor learning. J Neurosci (2014) 0.95
Modulation of visual signals in macaque MT and MST neurons during pursuit eye movement. J Neurophysiol (2009) 0.95
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The interaction of visual, vestibular and extra-retinal mechanisms in the control of head and gaze during head-free pursuit. J Physiol (2011) 0.94
On the predictive control of foveal eye tracking and slow phases of optokinetic and vestibular nystagmus. J Physiol (1984) 0.94
Directional cuing of target choice in human smooth pursuit eye movements. J Neurosci (2006) 0.94
Smooth pursuit-related information processing in frontal eye field neurons that project to the NRTP. Cereb Cortex (2008) 0.93
Refining the predictive pursuit endophenotype in schizophrenia. Biol Psychiatry (2007) 0.93
Relationship between extraretinal component of firing rate and eye speed in area MST of macaque monkeys. J Neurophysiol (2005) 0.93
Is motion perception deficit in schizophrenia a consequence of eye-tracking abnormality? Biol Psychiatry (2008) 0.91
A vermal Purkinje cell simple spike population response encodes the changes in eye movement kinematics due to smooth pursuit adaptation. Front Syst Neurosci (2013) 0.90
A framework for using signal, noise, and variation to determine whether the brain controls movement synergies or single muscles. J Neurophysiol (2013) 0.90
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Context-dependent smooth eye movements evoked by stationary visual stimuli in trained monkeys. J Neurophysiol (2000) 0.88
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Spatial and temporal integration of visual motion signals for smooth pursuit eye movements in monkeys. J Neurophysiol (2009) 0.87
Diversity of neural responses in the brainstem during smooth pursuit eye movements constrains the circuit mechanisms of neural integration. J Neurosci (2013) 0.87
Signals that modulate gain control for smooth pursuit eye movements in monkeys. J Neurophysiol (2003) 0.87
Dynamic visuomotor synchronization: quantification of predictive timing. Behav Res Methods (2013) 0.87
Accuracies of saccades to moving targets during pursuit initiation and maintenance. Exp Brain Res (1997) 0.86
Scaling of smooth anticipatory eye velocity in response to sequences of discrete target movements in humans. Exp Brain Res (2005) 0.86
Inactivation and stimulation of the frontal pursuit area change pursuit metrics without affecting pursuit target selection. J Neurophysiol (2011) 0.86
Sensory versus motor loci for integration of multiple motion signals in smooth pursuit eye movements and human motion perception. J Neurophysiol (2011) 0.86
Pursuit of intermittently illuminated moving targets in the human. J Physiol (1992) 0.85
Specific vermal complex spike responses build up during the course of smooth-pursuit adaptation, paralleling the decrease of performance error. Exp Brain Res (2010) 0.85
Neural activity in the frontal pursuit area does not underlie pursuit target selection. Vision Res (2010) 0.84
Preparatory modulation of the gain of visuo-motor transmission for smooth pursuit in monkeys. Exp Brain Res (2003) 0.84
The occluded onset pursuit paradigm: prolonging anticipatory smooth pursuit in the absence of visual feedback. Exp Brain Res (2006) 0.84
Dynamics of smooth pursuit maintenance. J Neurophysiol (2009) 0.84
Superior colliculus inactivation alters the weighted integration of visual stimuli. J Neurosci (2011) 0.84
Smooth pursuit tracking of an abrupt change in target direction: vector superposition of discrete responses. Exp Brain Res (2004) 0.84
Quantitative differences in smooth pursuit and saccadic eye movements. Exp Brain Res (2006) 0.84
The response of MSTd neurons to perturbations in target motion during ongoing smooth-pursuit eye movements. J Neurophysiol (2009) 0.84
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Duration of binocular decorrelation in infancy predicts the severity of nasotemporal pursuit asymmetries in strabismic macaque monkeys. Neuroscience (2008) 0.82
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Eye position signals in the flocculus of the monkey during smooth-pursuit eye movements. J Physiol (1982) 0.82
Altered velocity processing in schizophrenia during pursuit eye tracking. PLoS One (2012) 0.81
Role of MSTd extraretinal signals in smooth pursuit adaptation. Cereb Cortex (2011) 0.81
Smooth pursuit eye movements in patients with macular degeneration. J Vis (2016) 0.81
Visual pathways serving motion detection in the mammalian brain. Sensors (Basel) (2010) 0.81
Eye movements in Alzheimer's disease. J Alzheimers Dis (2015) 0.80
Adaptation of catch-up saccades during the initiation of smooth pursuit eye movements. Exp Brain Res (2011) 0.80
Adaptation of visual tracking synchronization after one night of sleep deprivation. Exp Brain Res (2013) 0.79
Predicting the duration of ocular pursuit in humans. Exp Brain Res (2005) 0.79
Signal, Noise, and Variation in Neural and Sensory-Motor Latency. Neuron (2016) 0.79
Pursuit and saccadic tracking exhibit a similar dependence on movement preparation time. Exp Brain Res (2006) 0.79
Control of the gain of visual-motor transmission occurs in visual coordinates for smooth pursuit eye movements. J Neurosci (2013) 0.79
Individual differences in impulsivity predict anticipatory eye movements. PLoS One (2011) 0.78
How and why neural and motor variation are related. Curr Opin Neurobiol (2015) 0.78
Interception of targets using brief directional cues. Exp Brain Res (2004) 0.78
Eye movement abnormalities in essential tremor. J Hum Kinet (2016) 0.78
The effects of preceding moving stimuli on the initial part of smooth pursuit eye movement. Exp Brain Res (2006) 0.77
A foveal target increases catch-up saccade frequency during smooth pursuit. J Neurophysiol (2015) 0.77
Eye movements during fixation. J Physiol (1952) 4.17
Eye movement responses to a horizontally moving visual stimulus. AMA Arch Ophthalmol (1954) 2.63
Action of a barbiturate drug (amylobarbitone sodium) on the vestibulo-ocular reflex. Brain (1961) 2.04
New method for recording eye movements. J Opt Soc Am (1960) 1.77
Barbiturates and eye vergence. Nature (1961) 1.58
Electrical recordings of normal and abnormal eye movements modified by drugs. AMA Arch Neurol Psychiatry (1952) 1.52
The relation of structure to the spread of excitation in the frog's sciatic trunk. J Physiol (1949) 6.22
Space distribution of excitability in the frog's sciatic nerve stimulated by polar electrodes. J Physiol (1949) 4.37
Space distribution of excitability in the frog's sciatic nerve stimulated by slot electrodes. J Physiol (1949) 3.01
Disjunctive eye movements. J Physiol (1961) 2.65
The relationship between the slot excitability and the excitability due to a single pole. J Physiol (1949) 2.15
Action of a barbiturate drug (amylobarbitone sodium) on the vestibulo-ocular reflex. Brain (1961) 2.04
New method for recording eye movements. J Opt Soc Am (1960) 1.77
Barbiturates and eye vergence. Nature (1961) 1.58
Independence of conjugate and disjunctive eye movements. J Physiol (1961) 1.35
Barbiturate nystagmus and the mechanisms of visual fixation. Nature (1959) 0.95
The contribution of connective tissue impedance to the spatial spread of excitability in the frog's sciatic trunk. J Physiol (1949) 0.75