| scholarly article | Q13442814 |
| P356 | DOI | 10.1152/JN.1981.45.3.417 |
| P698 | PubMed publication ID | 7218009 |
| P2093 | author name string | J A Van Gisbergen | |
| D A Robinson | |||
| S Gielen | |||
| P433 | issue | 3 | |
| P304 | page(s) | 417-442 | |
| P577 | publication date | 1981-03-01 | |
| P1433 | published in | Journal of Neurophysiology | Q1709863 |
| P1476 | title | A quantitative analysis of generation of saccadic eye movements by burst neurons | |
| P478 | volume | 45 |
| Q36100393 | A Causal Role for the Cortical Frontal Eye Fields in Microsaccade Deployment |
| Q46775294 | A Subconscious Interaction between Fixation and Anticipatory Pursuit |
| Q67827713 | A comparison of static and dynamic characteristics between rectus eye muscle and linear muscle model predictions |
| Q52019727 | A distributed model of the saccade system: simulations of temporally perturbed saccades using position and velocity feedback. |
| Q90436485 | A dynamic, imperturbable link between midbrain activity and saccade velocity |
| Q44001233 | A model of the smooth pursuit eye movement system |
| Q51983048 | A model that integrates eye velocity commands to keep track of smooth eye displacements. |
| Q42170046 | A neural mechanism for microsaccade generation in the primate superior colliculus |
| Q48008251 | A neural model of the saccade generator in the reticular formation |
| Q48415146 | A new framework for investigating both normal and abnormal eye movements |
| Q40122317 | A physiological neural controller of a muscle fiber oculomotor plant in horizontal monkey saccades. |
| Q48821503 | A proposed neural network for the integrator of the oculomotor system |
| Q50800152 | A short-latency transition in saccade dynamics during square-wave tracking and its significance for the differentiation of visually-guided and predictive saccades. |
| Q40987622 | A spiking neural network model of the midbrain superior colliculus that generates saccadic motor commands |
| Q52679817 | A two dimensional model for saccade generation. |
| Q37578315 | Activity of long-lead burst neurons in pontine reticular formation during head-unrestrained gaze shifts |
| Q48476153 | Activity of omnipause neurons during "staircase saccades" elicited by persistent microstimulation of the superior colliculus |
| Q48232856 | Alteration of the microsaccadic velocity-amplitude main sequence relationship after visual transients: implications for models of saccade control. |
| Q48823609 | Ambiguous motoneurons discharging synchronously with ultrasonic vocalization in rats |
| Q41434370 | Ambivalence in modelling oblique saccades |
| Q52049111 | Analysis of the frequency response of the saccadic circuit: numerical simulations. |
| Q48902043 | Analysis of the step response of the saccadic feedback: system behavior |
| Q47949651 | Anatomy and physiology of saccadic burst neurons in the alert squirrel monkey. I. Excitatory burst neurons |
| Q91665945 | Basic and translational neuro-ophthalmology of visually guided saccades: disorders of velocity |
| Q48130671 | Behavior of neurons in the abducens nucleus of the alert cat—III. Axotomized motoneurons |
| Q71426844 | Behavior of preoculomotor burst neurons during eye-head coordination |
| Q68082297 | Binocular co-ordination of human horizontal saccadic eye movements |
| Q35645986 | Cerebellar control of saccade dynamics: contribution of the fastigial oculomotor region. |
| Q88396971 | Choosing a foveal goal recruits the saccadic system during smooth pursuit |
| Q41526879 | Clinical Approach to Supranuclear Brainstem Saccadic Gaze Palsies. |
| Q83420306 | Coding of microsaccades in three-dimensional space by premotor saccadic neurons |
| Q49145388 | Component stretching in fast and slow oblique saccades in the human |
| Q48210304 | Contrasting speed-accuracy tradeoffs for eye and hand movements reveal the optimal nature of saccade kinematics |
| Q48656569 | Contribution of cerebellum and brainstem in the control of eye movement: evidence from a functional study in a clinical model |
| Q35599346 | Control of orienting movements: role of multiple tectal projections to the lower brainstem |
| Q35106300 | Control of saccadic eye movements and combined eye/head gaze shifts by the medio-posterior cerebellum |
| Q48468133 | Coordinated control of eye and hand movements in dynamic reaching |
| Q40748801 | Coordination of eye and head components of movements evoked by stimulation of the paramedian pontine reticular formation |
| Q37243859 | Coordination of the eyes and head during visual orienting |
| Q36982843 | Diagnosing disconjugate eye movements: phase-plane analysis of horizontal saccades |
| Q72333323 | Differential effect of injections of kainic acid into the prepositus and the vestibular nuclei of the cat |
| Q73741437 | Disparity vergence double responses processed by internal error |
| Q39039805 | Distinct neural circuits for control of movement vs. holding still |
| Q30500965 | Distinctive features of saccadic intrusions and microsaccades in progressive supranuclear palsy |
| Q90172050 | Double Stimulation in a Spiking Neural Network Model of the Midbrain Superior Colliculus |
| Q34780064 | Dual encoding of muscle tension and eye position by abducens motoneurons |
| Q48765217 | Effects of fastigial stimulation upon visually-directed saccades in macaque monkeys |
| Q92044033 | Electrical stimulation in a spiking neural network model of monkey superior colliculus |
| Q76383709 | Electrical stimulation of rhesus monkey nucleus reticularis gigantocellularis. II. Effects on metrics and kinematics of ongoing gaze shifts to visual targets |
| Q71877682 | Endpoint accuracy in saccades interrupted by stimulation in the omnipause region in monkey |
| Q48566862 | Evidence for independent feedback control of horizontal and vertical saccades from Niemann-Pick type C disease |
| Q48226598 | Evidence for nonretinal feedback in combined version-vergence eye movements |
| Q48556912 | Experimental test of two models for the generation of oblique saccades |
| Q39737696 | Extraocular motoneuron behavior in synergistic action |
| Q48810654 | Eye acceleration during large horizontal saccades in man. |
| Q48393698 | Eye movement abnormalities in myotonic dystrophy. |
| Q46531950 | Eye movement instabilities and nystagmus can be predicted by a nonlinear dynamics model of the saccadic system |
| Q34091162 | Fine-scale plasticity of microscopic saccades |
| Q36607892 | Fixational eye movements in normal and pathological vision |
| Q51002377 | Fixational eye movements predict visual sensitivity. |
| Q43739571 | Functional imaging of the primate superior colliculus during saccades to visual targets |
| Q52112119 | Gain adaptation of exogenous shifts of visual attention. |
| Q37326380 | Gaze shift duration, independent of amplitude, influences the number of spikes in the burst for medium-lead burst neurons in pontine reticular formation |
| Q90049773 | Glissades Are Altered by Lesions to the Oculomotor Vermis but Not by Saccadic Adaptation |
| Q35278302 | Influence of orbital eye position on vertical saccades in progressive supranuclear palsy. |
| Q57022309 | Instantaneous midbrain control of saccade velocity |
| Q48823898 | Interactions between visually and electrically elicited saccades before and after superior colliculus and frontal eye field ablations in the rhesus monkey |
| Q37428279 | Internal models of eye movement in the floccular complex of the monkey cerebellum |
| Q39737716 | Is the oculomotor system a cartoon of motor control? |
| Q68496655 | Kinematics of centrifugal and centripetal saccadic eye movements in man |
| Q30473109 | Learning the optimal control of coordinated eye and head movements |
| Q42947609 | Linear ensemble-coding in midbrain superior colliculus specifies the saccade kinematics. |
| Q39997966 | Long latency and high variability in accuracy-speed of prosaccades in Alzheimer's disease at mild to moderate stage |
| Q34108416 | Matching the oculomotor drive during head-restrained and head-unrestrained gaze shifts in monkey |
| Q46971565 | Membrane channel properties of premotor excitatory burst neurons may underlie saccade slowing after lesions of omnipause neurons |
| Q48221620 | Microsaccade control signals in the cerebellum. |
| Q28256803 | Microsaccades: a neurophysiological analysis |
| Q64120562 | Microstimulation in a spiking neural network model of the midbrain superior colliculus |
| Q50848045 | Model emulates human smooth pursuit system producing zero-latency target tracking. |
| Q36063136 | Modeling Inter-trial Variability of Saccade Trajectories: Effects of Lesions of the Oculomotor Part of the Fastigial Nucleus |
| Q49561383 | Modeling auditory-visual evoked eye-head gaze shifts in dynamic multi-steps |
| Q61449478 | Modeling the Encoding of Saccade Kinematic Metrics in the Purkinje Cell Layer of the Cerebellar Vermis |
| Q35590233 | Modulation of microsaccades in monkey during a covert visual attention task. |
| Q55168086 | Monocular microsaccades: Do they really occur? |
| Q48389858 | Motion of the eye immediately after a saccade |
| Q61800393 | Motivation dynamically increases noise resistance by internal feedback during movement |
| Q30480160 | Motor-related signals in the intraparietal cortex encode locations in a hybrid, rather than eye-centered reference frame. |
| Q52464615 | Natural coordinates for specification of eye movements |
| Q35037096 | Neural control of saccades |
| Q48207732 | Neural network simulations of the primate oculomotor system. I. The vertical saccadic burst generator |
| Q37675868 | Neuronal control of fixation and fixational eye movements. |
| Q58089164 | Neurophysiology of visually-guided eye movements: Critical review and alternative viewpoint |
| Q48518720 | Nonlinear time series analysis of jerk congenital nystagmus |
| Q48965068 | Numerical simulation of nonlinear feedback model of saccade generation circuit implemented in the LabView graphical programming language |
| Q49080624 | Nystagmus induced by pharmacological inactivation of the brainstem ocular motor integrator in monkey |
| Q80409301 | Ocular oscillations generated by coupling of brainstem excitatory and inhibitory saccadic burst neurons |
| Q47706064 | Oculomotor and Vestibular Findings in Gaucher Disease Type 3 and Their Correlation with Neurological Findings |
| Q41207458 | Oculomotor inhibition covaries with conscious detection. |
| Q44785372 | On the generation of vertical and torsional rapid eye movements in the monkey |
| Q42624181 | Open-loop simulations of the primate saccadic system using burst cell discharge from the superior colliculus |
| Q74458825 | Opsoclonus in three dimensions: oculographic, neuropathologic and modelling correlates |
| Q51819543 | Optimal control of gaze shifts. |
| Q27331110 | Optimal control of saccades by spatial-temporal activity patterns in the monkey superior colliculus |
| Q36322511 | Optimisation of an exemplar oculomotor model using multi-objective genetic algorithms executed on a GPU-CPU combination |
| Q90319468 | Past and Present of Eye Movement Abnormalities in Ataxia-Telangiectasia |
| Q56971631 | Perisaccadic Compression Correlates with Saccadic Peak Velocity: Differential Association of Eye Movement Dynamics with Perceptual Mislocalization Patterns |
| Q46318520 | Postmicrosaccadic enhancement of slow eye movements. |
| Q48556328 | Premotor correlates of integrated feedback control for eye-head gaze shifts. |
| Q86779900 | Probing perceptual performance after microsaccades |
| Q48930779 | Properties of saccades generated as a choice response |
| Q91876851 | Relationship of postsaccadic oscillation with the state of the pupil inside the iris and with cognitive processing |
| Q35808946 | Reliability of oculomotor command signals carried by individual neurons |
| Q39737680 | Role of the basal ganglia in the initiation of saccadic eye movements |
| Q27303114 | Saccadic Palsy following Cardiac Surgery: Possible Role of Perineuronal Nets |
| Q48872471 | Saccadic amplitudes during combined saccade-vergence movements result from a weighted average of the target's locations in the two retinas |
| Q37310042 | Saccadic and Postsaccadic Disconjugacy in Zebrafish Larvae Suggests Independent Eye Movement Control |
| Q41902092 | Saccadic eye movement abnormalities in autism spectrum disorder indicate dysfunctions in cerebellum and brainstem |
| Q41379137 | Saccadic eye movements following injection of lidocaine into the superior colliculus |
| Q48716694 | Saccadic interception of a moving visual target after a spatiotemporal perturbation. |
| Q48604782 | Saccadic intrusions and oscillations |
| Q35536923 | Saccadic palsy following cardiac surgery: a review and new hypothesis |
| Q59417014 | Saccadic responses in patients with hemispheric stroke |
| Q41944574 | Saccadic suppression as a perceptual consequence of efficient sensorimotor estimation |
| Q43613648 | Self-organizing task modules and explicit coordinate systems in a neural network model for 3-D saccades. |
| Q48949693 | Shift in saccadic direction induced in humans by proprioceptive manipulation: a comparison between memory-guided and visually guided saccades |
| Q55067839 | Signal-dependent noise determines motor planning. |
| Q35902603 | Similarity of superior colliculus involvement in microsaccade and saccade generation |
| Q34190387 | Single cell signals: an oculomotor perspective |
| Q61446849 | Slow saccades in cerebellar disease |
| Q38498657 | Slow vertical saccades in the frontotemporal dementia with motor neuron disease |
| Q36854862 | Small Saccades and Image Complexity during Free Viewing of Natural Images in Schizophrenia |
| Q48692848 | Spatial characteristics of neurons in the central mesencephalic reticular formation (cMRF) of head-unrestrained monkeys |
| Q48825457 | Spatio-temporal recoding of rapid eye movement signals in the monkey paramedian pontine reticular formation (PPRF). |
| Q36993369 | Specific saccade deficits in patients with Alzheimer's disease at mild to moderate stage and in patients with amnestic mild cognitive impairment |
| Q34303228 | Spontaneous microsaccades reflect shifts in covert attention |
| Q37268658 | Stimulation of pontine reticular formation in monkeys with strabismus |
| Q39153486 | Stopping smooth pursuit |
| Q41452874 | Strabismus and Micro-Opsoclonus in Machado-Joseph Disease |
| Q47552610 | Streamlined sensory motor communication through cortical reciprocal connectivity in a visually guided eye movement task. |
| Q41392457 | Superior colliculus neurons provide the saccadic motor error signal |
| Q30659562 | Suppressive interactions underlying visually evoked fixational saccades |
| Q34090941 | Sustained eye closure slows saccades |
| Q42792586 | Synaptic Mechanism for the Sustained Activation of Oculomotor Integrator Circuits in the Rat Prepositus Hypoglossi Nucleus: Contribution of Ca2+-Permeable AMPA Receptors |
| Q42673622 | Temporal characteristics of neurons in the central mesencephalic reticular formation of head unrestrained monkeys |
| Q39556252 | Tensorial aspects of the multidimensional massively parallel sensorimotor function of neuronal networks |
| Q72682034 | Testing the common neural integrator hypothesis at the level of the individual abducens motoneurones in the alert cat |
| Q35014020 | The brainstem control of saccadic eye movements |
| Q88328819 | The caudal fastigial nucleus and the steering of saccades toward a moving visual target |
| Q74228820 | The characteristics of dynamic overshoots in square-wave jerks, and in congenital and manifest latent nystagmus |
| Q26770778 | The diagnostic value of saccades in movement disorder patients: a practical guide and review |
| Q42086669 | The distributed representation of vestibulo-oculomotor signals by brain-stem neurons |
| Q34435118 | The disturbance of gaze in progressive supranuclear palsy: implications for pathogenesis |
| Q48228169 | The fractional-order dynamics of brainstem vestibulo-oculomotor neurons |
| Q54646621 | The hypothesis of the uniqueness of the oculomotor neural integrator: direct experimental evidence in the cat. |
| Q38074859 | The impact of microsaccades on vision: towards a unified theory of saccadic function. |
| Q37602750 | The neurobiology of decision: consensus and controversy |
| Q48810825 | The oculomotor integrator: testing of a neural network model |
| Q33452152 | The place code of saccade metrics in the lateral bank of the intraparietal sulcus |
| Q26783008 | The role of cerebellar circuitry alterations in the pathophysiology of autism spectrum disorders |
| Q34574750 | The role of the medial longitudinal fasciculus in horizontal gaze: tests of current hypotheses for saccade-vergence interactions |
| Q80797823 | The sources of variability in saccadic eye movements |
| Q40794394 | The spectral main sequence of human saccades |
| Q48842848 | The use of system identification techniques in the analysis of oculomotor burst neuron spike train dynamics |
| Q68803980 | The vestibulo-ocular reflex during human saccadic eye movements |
| Q48349025 | Three-dimensional analysis of strongly curved saccades elicited by double-step stimuli |
| Q41981025 | Tracking the eye non-invasively: simultaneous comparison of the scleral search coil and optical tracking techniques in the macaque monkey |
| Q35579826 | Using saccades as a research tool in the clinical neurosciences |
| Q48129016 | Vertical eye movements related signals in antidromically identified medullary reticular formation neurons in the alert cat |
| Q80170903 | Visual responses on neck muscles reveal selective gating that prevents express saccades |
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