| scholarly article | Q13442814 |
| P356 | DOI | 10.1152/JN.1997.78.3.1669 |
| P698 | PubMed publication ID | 9310452 |
| P2093 | author name string | D L Sparks | |
| E G Freedman | |||
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 1669-1690 | |
| P577 | publication date | 1997-09-01 | |
| P1433 | published in | Journal of Neurophysiology | Q1709863 |
| P1476 | title | Activity of cells in the deeper layers of the superior colliculus of the rhesus monkey: evidence for a gaze displacement command | |
| P478 | volume | 78 |
| Q48134882 | A new paradigm to investigate the roles of head and eye movements in the coordination of whole-body movements |
| Q55023595 | A rightward saccade to an unexpected stimulus as a marker for lateralised visuospatial attention. |
| Q80495290 | Age-related differences during a gaze reorientation task while standing or walking on a treadmill |
| Q30452957 | Auditory signals evolve from hybrid- to eye-centered coordinates in the primate superior colliculus |
| Q30479762 | Auditory spatial tuning at the crossroads of the midbrain and forebrain |
| Q94461739 | Behavioral and neuronal study of inhibition of return in barn owls |
| Q30362844 | Behavioural benefits of multisensory processing in ferrets. |
| Q51558023 | Beyond the labeled line: variation in visual reference frames from intraparietal cortex to frontal eye fields and the superior colliculus. |
| Q34605486 | Brainstem control of head movements during orienting; organization of the premotor circuits |
| Q48354911 | Cognitive set and oculomotor control |
| Q44448906 | Collicular microstimulation during passive rotation does not generate fixed gaze shifts |
| Q41708986 | Comparison of saccades perturbed by stimulation of the rostral superior colliculus, the caudal superior colliculus, and the omnipause neuron region |
| Q33884429 | Conceptual issues related to the role of the superior colliculus in the control of gaze |
| Q48387658 | Contribution of the frontal eye field to gaze shifts in the head-unrestrained monkey: effects of microstimulation |
| Q36350324 | Contribution of the frontal eye field to gaze shifts in the head-unrestrained rhesus monkey: neuronal activity |
| 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 |
| Q44810452 | Convergent synaptic inputs from the caudal fastigial nucleus and the superior colliculus onto pontine and pontomedullary reticulospinal neurons |
| Q34175860 | Coordinate transformations for eye and arm movements in the brain |
| 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 |
| Q49714073 | Corrective response times in a coordinated eye-head-arm countermanding task. |
| Q48707261 | Cortical and subcortical contributions to coordinated eye and head movements |
| Q50977561 | Countermanding eye-head gaze shifts in humans: marching orders are delivered to the head first. |
| Q37018566 | Coupling between horizontal and vertical components of saccadic eye movements during constant amplitude and direction gaze shifts in the rhesus monkey |
| Q37086544 | Differential influence of attention on gaze and head movements. |
| Q48424542 | Direct projections from cochlear nuclear complex to auditory thalamus in the rat. |
| Q36804339 | Dissociation of eye and head components of gaze shifts by stimulation of the omnipause neuron region |
| Q51984478 | Distributed population mechanism for the 3-D oculomotor reference frame transformation. |
| Q35046720 | Distribution of cortical neurons projecting to the superior colliculus in macaque monkeys |
| Q44507279 | Distribution of corticotectal cells in macaque |
| Q48707267 | Early head movements elicited by visual stimuli or collicular electrical stimulation in the cat. |
| Q36802981 | Effect of reversible inactivation of superior colliculus on head movements |
| Q34514306 | Effects of Initial Eye Position on Saccades Evoked by Microstimulation in the Primate Superior Colliculus: Implications for Models of the SC Read-Out Process. |
| Q48762231 | Effects of eye position upon activity of neurons in macaque superior colliculus |
| Q76383700 | Electrical stimulation of rhesus monkey nucleus reticularis gigantocellularis. I. Characteristics of evoked head movements |
| Q76383709 | Electrical stimulation of rhesus monkey nucleus reticularis gigantocellularis. II. Effects on metrics and kinematics of ongoing gaze shifts to visual targets |
| Q87109437 | Endogenous attention signals evoked by threshold contrast detection in human superior colliculus |
| Q34130843 | Evidence against a moving hill in the superior colliculus during saccadic eye movements in the monkey |
| Q43875466 | Evidence that the superior colliculus participates in the feedback control of saccadic eye movements |
| Q31031215 | Experimental control of eye and head positions prior to head-unrestrained gaze shifts in monkey |
| Q48376485 | Eye position modulates the electromyographic responses of neck muscles to electrical stimulation of the superior colliculus in the alert cat. |
| Q90162710 | Eye-head-hand coordination during visually guided reaches in head-unrestrained macaques |
| Q30361847 | Fast Detector/First Responder: Interactions between the Superior Colliculus-Pulvinar Pathway and Stimuli Relevant to Primates. |
| Q48587764 | Firing patterns in superior colliculus of head-unrestrained monkey during normal and perturbed gaze saccades reveal short-latency feedback and a sluggish rostral shift in activity |
| Q39421054 | Fixation could simplify, not complicate, the interpretation of retinal flow |
| Q57042348 | Fixation neurons in the superior colliculus encode distance between current and desired gaze positions |
| Q35092568 | Going for the goal |
| Q33783835 | Head-free gaze shifts provide further insights into the role of the medial cerebellum in the control of primate saccadic eye movements |
| Q49018061 | Head-free reading of horizontally and vertically arranged texts |
| Q37086525 | Head-unrestrained gaze adaptation in the rhesus macaque |
| Q52895467 | Human eye-head gaze shifts in a distractor task. II. Reduced threshold for initiation of early head movements. |
| Q52211990 | Influence of head position on the spatial representation of acoustic targets. |
| Q30458575 | Interactions between gaze-evoked blinks and gaze shifts in monkeys |
| Q39040621 | Introducing Students to Subcortical Sensory, Motor, and Cognitive Processes Associated with Saccades using a Series of Papers by Goldberg and Wurtz |
| Q37032407 | Keeping your head on target |
| Q48403400 | Kinematics and eye-head coordination of gaze shifts evoked from different sites in the superior colliculus of the cat. |
| Q30473109 | Learning the optimal control of coordinated eye and head movements |
| Q73422840 | Modulating active stiffness affects head stabilizing strategies in young and elderly adults during trunk rotations in the vertical plane |
| Q34174995 | Motor functions of the superior colliculus |
| Q52166789 | Multielectrode evidence for spreading activity across the superior colliculus movement map. |
| Q48475281 | Neck muscle responses to stimulation of monkey superior colliculus. I. Topography and manipulation of stimulation parameters |
| Q48475269 | Neck muscle responses to stimulation of monkey superior colliculus. II. Gaze shift initiation and volitional head movements |
| Q35106305 | Neural control of 3-D gaze shifts in the primate. |
| Q39561263 | Neural mechanisms for predictive head movement strategies during sequential gaze shifts |
| Q44690936 | Neural network models for the gaze shift system in the superior colliculus and cerebellum |
| Q37034153 | Neural substrates of sensory-guided locomotor decisions in the rat superior colliculus |
| Q82526645 | Neuromuscular recruitment related to stimulus presentation and task instruction during the anti-saccade task |
| Q51986987 | Neurones associated with saccade metrics in the monkey central mesencephalic reticular formation. |
| Q52081168 | Neurons in the primate superior colliculus coding for arm movements in gaze-related coordinates. |
| Q37021460 | Oblique gaze shifts: head movements reveal new aspects of component coupling |
| Q35106296 | On the feedback control of orienting gaze shifts made with eye and head movements |
| Q40857785 | Orienting gaze shifts during muscimol inactivation of caudal fastigial nucleus in the cat. I. Gaze dysmetria |
| Q48461112 | Orienting gaze shifts during muscimol inactivation of caudal fastigial nucleus in the cat. II. Dynamics and eye-head coupling |
| Q80406356 | Overlapping gaze shifts reveal timing of an eye-head gate |
| Q84074442 | Perceived touch location is coded using a gaze signal |
| Q46749849 | Present concepts of oculomotor organization |
| Q48381083 | Priming of head premotor circuits during oculomotor preparation |
| Q77505707 | Relationship between time- and frequency-domain analyses of angular head movements in the squirrel monkey |
| Q48379882 | Representation of Horizontal head-on-body position in the primate superior colliculus |
| Q36821433 | Role of the primate superior colliculus in the control of head movements |
| Q39815044 | Rotation axes of the head during positioning, head shaking, and locomotion |
| Q43613648 | Self-organizing task modules and explicit coordinate systems in a neural network model for 3-D saccades. |
| Q46280770 | Separate body- and world-referenced representations of visual space in parietal cortex |
| Q34190387 | Single cell signals: an oculomotor perspective |
| Q48692848 | Spatial characteristics of neurons in the central mesencephalic reticular formation (cMRF) of head-unrestrained monkeys |
| Q48369083 | Superior colliculus encodes distance to target, not saccade amplitude, in multi-step gaze shifts |
| Q30463034 | Target modality determines eye-head coordination in nonhuman primates: implications for gaze control |
| Q34311282 | Target selection and the superior colliculus: goals, choices and hypotheses |
| Q35485329 | Tectal microcircuit generating visual selection commands on gaze-controlling neurons |
| Q42673622 | Temporal characteristics of neurons in the central mesencephalic reticular formation of head unrestrained monkeys |
| Q58580575 | The Influence of a Memory Delay on Spatial Coding in the Superior Colliculus: Is Visual Always Visual and Motor Always Motor? |
| Q35014020 | The brainstem control of saccadic eye movements |
| Q88328819 | The caudal fastigial nucleus and the steering of saccades toward a moving visual target |
| Q37039680 | The conditioned reflex: detectors and command neurons |
| Q74228814 | The control of saccadic adaptation: implications for the scanning of natural visual scenes |
| Q28685555 | The efference cascade, consciousness, and its self: naturalizing the first person pivot of action control |
| Q40176109 | The feedback circuit connecting the central mesencephalic reticular formation and the superior colliculus in the macaque monkey: tectal connections |
| Q40519642 | The influence of future gaze orientation upon eye-head coupling during saccades |
| Q30401546 | The interaction of vision and audition in two-dimensional space |
| Q37412275 | The mesencephalic reticular formation as a conduit for primate collicular gaze control: tectal inputs to neurons targeting the spinal cord and medulla |
| Q33815215 | The primate pulvinar nuclei: vision and action |
| Q48715763 | The superior colliculus and its control of fixation behavior via projections to brainstem omnipause neurons |
| Q33947887 | The superior colliculus encodes gaze commands in retinal coordinates |
| Q54941730 | Three-Dimensional Representation of Motor Space in the Mouse Superior Colliculus. |
| Q34196031 | Three-dimensional eye-head coordination is implemented downstream from the superior colliculus. |
| Q91618628 | Timing Determines Tuning: A Rapid Spatial Transformation in Superior Colliculus Neurons during Reactive Gaze Shifts |
| Q36792829 | Transition from Target to Gaze Coding in Primate Frontal Eye Field during Memory Delay and Memory-Motor Transformation |
| Q77512146 | Using the eye-movement system to control the head |
| Q44847360 | Visual detection deficits following inactivation of the superior colliculus in the cat. |
| Q80170903 | Visual responses on neck muscles reveal selective gating that prevents express saccades |
| Q36098832 | Visual-Motor Transformations Within Frontal Eye Fields During Head-Unrestrained Gaze Shifts in the Monkey. |
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