review article | Q7318358 |
scholarly article | Q13442814 |
P2093 | author name string | David S Zee | |
Michael C Schubert | |||
P2860 | cites work | Links from complex spikes to local plasticity and motor learning in the cerebellum of awake-behaving monkeys | Q30484432 |
Role of adrenal stress hormones in forming lasting memories in the brain | Q34128755 | ||
Incremental angular vestibulo-ocular reflex adaptation to active head rotation | Q34159565 | ||
Mechanism of dynamic visual acuity recovery with vestibular rehabilitation | Q34182971 | ||
The characteristics and neuronal substrate of saccadic eye movement plasticity | Q34305612 | ||
Modification of compensatory saccades after aVOR gain recovery | Q34548838 | ||
Discharge of monkey nucleus reticularis tegmenti pontis neurons changes during saccade adaptation | Q35251320 | ||
Learning in a simple motor system | Q35726097 | ||
Context-specific adaptation and its significance for neurovestibular problems of space flight | Q35750887 | ||
Sensorimotor transformation for visually guided saccades | Q36096661 | ||
Cerebellar-dependent motor learning is based on pruning a Purkinje cell population response | Q36734765 | ||
Partial ablations of the flocculus and ventral paraflocculus in monkeys cause linked deficits in smooth pursuit eye movements and adaptive modification of the VOR. | Q37069771 | ||
Adaptation of the vestibulo-ocular reflex with the head in different orientations and positions relative to the axis of body rotation | Q38567602 | ||
Dorsal Y group in the squirrel monkey. I. Neuronal responses during rapid and long-term modifications of the vertical VOR. | Q38572988 | ||
Quantitative measurement of saccade amplitude, duration, and velocity | Q39225068 | ||
Reduced saccadic resilience and impaired saccadic adaptation due to cerebellar disease | Q39274529 | ||
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Vestibular catch-up saccades in labyrinthine deficiency | Q41735044 | ||
Changes in control of saccades during gain adaptation | Q42011107 | ||
Adaptive control of saccades via internal feedback | Q42538076 | ||
Vertical dynamic visual acuity in normal subjects and patients with vestibular hypofunction | Q78021188 | ||
Head impulse test in unilateral vestibular loss: vestibulo-ocular reflex and catch-up saccades | Q80633303 | ||
Saccadic adaptation in lateral medullary and cerebellar infarction | Q81109918 | ||
Spontaneous recovery of motor memory during saccade adaptation | Q42538079 | ||
Adaptive plasticity in the gaze stabilizing synergy of slow and saccadic eye movements | Q43470334 | ||
Different roles of flocculus and ventral paraflocculus for oculomotor control in the primate | Q43512947 | ||
Acute adaptation of the vestibuloocular reflex: signal processing by floccular and ventral parafloccular Purkinje cells | Q43607909 | ||
5-HT modulates protein synthesis and the expression of specific proteins during long-term facilitation in Aplysia sensory neurons. | Q43832799 | ||
Short-term adaptation of the VOR: non-retinal-slip error signals and saccade substitution | Q44684741 | ||
Response of the human vestibulo-ocular reflex following long-term 2x magnified visual input | Q44800938 | ||
Neural learning rules for the vestibulo-ocular reflex. | Q45267747 | ||
Eye-head coordination in labyrinthine-defective human beings | Q45270127 | ||
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The site of a motor memory shifts with consolidation. | Q46681378 | ||
Complex spike activity signals the direction and size of dysmetric saccade errors | Q47219719 | ||
Distinct short-term and long-term adaptation to reduce saccade size in monkey | Q47339005 | ||
Adaptive modification of saccade size produces correlated changes in the discharges of fastigial nucleus neurons | Q47445856 | ||
Horizontal head impulse test detects gentamicin vestibulotoxicity | Q47976966 | ||
Effect of lack of vision and of occipital lobectomy upon recovery from unilateral labyrinthectomy in rhesus monkey | Q48118727 | ||
Changing patterns of eye-head coordination during 6 h of optically reversed vision | Q48130084 | ||
Activity changes in monkey superior colliculus during saccade adaptation | Q48198007 | ||
Microstimulation of the midbrain tegmentum creates learning signals for saccade adaptation. | Q48216976 | ||
Dependence of adaptation of the human vertical angular vestibulo-ocular reflex on gravity | Q48246354 | ||
Eye-head coordination in labyrinthine-defective humans. | Q48355204 | ||
Effects of lesions of the oculomotor vermis on eye movements in primate: saccades | Q48376390 | ||
Adaptation of the human vestibuloocular reflex to magnifying lenses | Q48450431 | ||
Signals used to compute errors in monkey vestibuloocular reflex: possible role of flocculus | Q48597192 | ||
Selective and delay adaptation of human saccades | Q48676421 | ||
Cerebellar lesions impair rapid saccade amplitude adaptation | Q48692073 | ||
Involvement of the cerebellar thalamus in human saccade adaptation | Q48794707 | ||
Separate neural substrates in the human cerebellum for sensory-motor adaptation of reactive and of scanning voluntary saccades | Q48827511 | ||
The dynamic characteristics of the mouse horizontal vestibulo-ocular and optokinetic response | Q49055233 | ||
Extreme vestibulo-ocular adaptation induced by prolonged optical reversal of vision. | Q50850644 | ||
Rapid consolidation of motor memory in the vestibuloocular reflex. | Q51970141 | ||
Premotor inhibitory neurons carry signals related to saccade adaptation in the monkey. | Q51973398 | ||
Chronic changes in inputs to dorsal Y neurons accompany VOR motor learning. | Q52032800 | ||
Human express saccades: extremely short reaction times of goal directed eye movements | Q56096160 | ||
Functional adaptation of reactive saccades in humans: a PET study | Q57271380 | ||
Saccadic dysmetria and adaptation after lesions of the cerebellar cortex | Q57514442 | ||
Long-term deficits of goal-directed vestibulo-ocular function following total unilateral loss of peripheral vestibular function | Q68097673 | ||
Effects of ablation of flocculus and paraflocculus of eye movements in primate | Q70947527 | ||
Long-term adaptive changes in primate vestibuloocular reflex. I. Behavioral observations | Q71501334 | ||
Long-term adaptive changes in primate vestibuloocular reflex. II. Electrophysiological observations on semicircular canal primary afferents | Q71501339 | ||
Long-term adaptive changes in primate vestibuloocular reflex. III. Electrophysiological observations in flocculus of normal monkeys | Q71501344 | ||
The "error" signals subserving adaptive gain control in the primate vestibulo-ocular reflex | Q71599312 | ||
Directional plasticity of the vestibuloocular reflex in the cat | Q72036678 | ||
Short-term vestibulo-ocular reflex adaptation in humans. I. Effect on the ocular motor velocity-to-position neural integrator | Q72390149 | ||
Short-term vestibulo-ocular reflex adaptation in humans. II. Error signals | Q72390152 | ||
Input of anterior and posterior semicircular canal interneurons encoding head-velocity to the dorsal Y group of the vestibular nuclei | Q73776326 | ||
Horizontal vestibuloocular reflex evoked by high-acceleration rotations in the squirrel monkey. IV. Responses after spectacle-induced adaptation | Q74619193 | ||
Comparison of head thrust test with head autorotation test reveals that the vestibulo-ocular reflex is enhanced during voluntary head movements | Q74762090 | ||
P433 | issue | 1 | |
P304 | page(s) | 9-18 | |
P577 | publication date | 2010-01-01 | |
P1433 | published in | Restorative Neurology and Neuroscience | Q15765666 |
P1476 | title | Saccade and vestibular ocular motor adaptation | |
P478 | volume | 28 |
Q37141489 | A Conceptual Framework for the Progression of Balance Exercises in Persons with Balance and Vestibular Disorders |
Q41462756 | A Novel Saccadic Strategy Revealed by Suppression Head Impulse Testing of Patients with Bilateral Vestibular Loss |
Q30414548 | A Prototype Head-Motion Monitoring System for In-Home Vestibular Rehabilitation Therapy |
Q52620589 | A Tool to Quantify the Functional Impact of Oscillopsia. |
Q37513060 | Age-Related Vestibular Loss: Current Understanding and Future Research Directions |
Q24633804 | Are we ready for a natural history of motor learning? |
Q33988055 | Cerebellar and prefrontal cortex contributions to adaptation, strategies, and reinforcement learning |
Q33935978 | Cerebellar encoding of multiple candidate error cues in the service of motor learning |
Q50581923 | Compensatory saccades benefit from prediction during head impulse testing in early recovery from vestibular deafferentation. |
Q47915286 | Disassociation between brain activation and executive function in fragile X premutation females |
Q38737127 | Eye Movements Are Correctly Timed During Walking Despite Bilateral Vestibular Hypofunction |
Q91843620 | Feasibility of Eye Tracking Assisted Vestibular Rehabilitation Strategy Using Immersive Virtual Reality |
Q59795269 | Functional Head Impulse Testing Might Be Useful for Assessing Vestibular Compensation After Unilateral Vestibular Loss |
Q42672947 | Functional anatomy of predictive vergence and saccade eye movements in humans: a functional MRI investigation. |
Q35389541 | Ganzfeld stimulation or sleep enhance long term motor memory consolidation compared to normal viewing in saccadic adaptation paradigm |
Q92659115 | Head impulse compensatory saccades: Visual dependence is most evident in bilateral vestibular loss |
Q91975160 | Inter-individual variability and consistency of saccade adaptation in oblique saccades: Amplitude increase and decrease in the horizontal or vertical saccade component |
Q36348211 | Interactive wiimote gaze stabilization exercise training system for patients with vestibular hypofunction |
Q35683135 | Multiple timescales in the adaptation of the rotational VOR |
Q36618796 | Neurological basis for eye movements of the blind |
Q36136469 | Neuronal classification and marker gene identification via single-cell expression profiling of brainstem vestibular neurons subserving cerebellar learning |
Q47889079 | New insights into vestibular-saccade interaction based on covert corrective saccades in patients with unilateral vestibular deficits. |
Q26771478 | Perspectives on Aging Vestibular Function |
Q92624836 | Rehabilitation to improve gaze and postural stability in people with multiple sclerosis: study protocol for a prospective randomized clinical trial |
Q39748698 | Short-term adaptations of the dynamic disparity vergence and phoria systems |
Q34785578 | State-dependent sensorimotor processing: gaze and posture stability during simulated flight in birds |
Q48651761 | Sustained effects for training of smooth pursuit plasticity |
Q38964338 | The influence of age on adaptation of disparity vergence and phoria. |
Q37417468 | The reliability and response stability of dynamic testing of the vestibulo-ocular reflex in patients with vestibular disease |
Q30471393 | Vestibular rehabilitation therapy: review of indications, mechanisms, and key exercises |
Q30363815 | Vestibulo-Ocular Reflex Stabilization after Vestibular Schwannoma Surgery: A Story Told by Saccades |
Q35394762 | VisualEyes: a modular software system for oculomotor experimentation |
Q34448800 | Visuomotor adaptation needs a validation of prediction error by feedback error |