scholarly article | Q13442814 |
P356 | DOI | 10.1152/JN.1999.82.1.416 |
P8608 | Fatcat ID | release_bev34myq2jhwdj52hjvvlamc6m |
P698 | PubMed publication ID | 10400968 |
P50 | author | Greg T. Gdowski | Q68183427 |
P2093 | author name string | R Boyle | |
R A McCrea | |||
T Belton | |||
P433 | issue | 1 | |
P304 | page(s) | 416-428 | |
P577 | publication date | 1999-07-01 | |
P1433 | published in | Journal of Neurophysiology | Q1709863 |
P1476 | title | Firing behavior of vestibular neurons during active and passive head movements: vestibulo-spinal and other non-eye-movement related neurons | |
P478 | volume | 82 |
Q48170910 | A unified internal model theory to resolve the paradox of active versus passive self-motion sensation. |
Q35160387 | Active and passive movement are encoded equally by head direction cells in the anterodorsal thalamus |
Q33856305 | Afferent diversity and the organization of central vestibular pathways |
Q45240223 | Angular path integration by moving "hill of activity": a spiking neuron model without recurrent excitation of the head-direction system. |
Q33725759 | Anticipatory eye movements stabilize gaze during self-generated head movements |
Q37135712 | Behavioral state modulates the activity of brainstem sensorimotor neurons |
Q26992868 | Brainstem processing of vestibular sensory exafference: implications for motion sickness etiology |
Q33848743 | Cerebellar re-encoding of self-generated head movements. |
Q38598833 | Coding of Velocity Storage in the Vestibular Nuclei |
Q81413004 | Coding of self-motion signals in ventro-posterior thalamus neurons in the alert squirrel monkey |
Q36606657 | Computational principles of sensorimotor control that minimize uncertainty and variability |
Q37014045 | Convergence of vestibular and neck proprioceptive sensory signals in the cerebellar interpositus |
Q34175860 | Coordinate transformations for eye and arm movements in the brain |
Q35599330 | Current approaches and future directions to understanding control of head movement |
Q35034910 | Cutaneous reflex modulation and self-induced reflex attenuation in cerebellar patients |
Q52034954 | Cutaneous reflexes evoked during human walking are reduced when self-induced. |
Q30359040 | Descending Influences on Vestibulospinal and Vestibulosympathetic Reflexes. |
Q33606319 | Direction discrimination thresholds of vestibular and cerebellar nuclei neurons |
Q48607047 | Discrimination between active and passive head movements by macaque ventral and medial intraparietal cortex neurons |
Q51637165 | Dissociating self-generated from passively applied head motion: neural mechanisms in the vestibular nuclei. |
Q28275342 | Dynamic transformation of vestibular signals for orientation |
Q79873330 | Dynamics of vestibular neurons during rotational motion in alert rhesus monkeys |
Q33708249 | Early vestibular processing does not discriminate active from passive self-motion if there is a discrepancy between predicted and actual proprioceptive feedback |
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 |
Q48414914 | Firing behaviour of squirrel monkey eye movement-related vestibular nucleus neurons during gaze saccades. |
Q34662458 | Getting ahead of oneself: anticipation and the vestibulo-ocular reflex |
Q48634490 | Head control strategies during whole-body turns |
Q39658432 | Head movement during walking in the cat |
Q36852194 | Head stabilization by vestibulocollic reflexes during quadrupedal locomotion in monkey |
Q41881978 | How actions alter sensory processing: reafference in the vestibular system |
Q49829522 | Hypothesis: The Vestibular and Cerebellar Basis of the Mal de Debarquement Syndrome |
Q33947746 | Immunoreactivity for calcium-binding proteins defines subregions of the vestibular nuclear complex of the cat |
Q48366792 | Influence of dynamic tilts on the perception of earth-vertical |
Q30448314 | Information transmission and detection thresholds in the vestibular nuclei: single neurons vs. population encoding |
Q35117623 | Integration of canal and otolith inputs by central vestibular neurons is subadditive for both active and passive self-motion: implication for perception. |
Q37638424 | Internal models and neural computation in the vestibular system |
Q37834351 | Internal models of self-motion: computations that suppress vestibular reafference in early vestibular processing |
Q35773770 | Intrinsic physiology of identified neurons in the prepositus hypoglossi and medial vestibular nuclei |
Q51483991 | Mathematical requirements of visual-vestibular integration. |
Q41592931 | Modeling eye-head gaze shifts in multiple contexts without motor planning |
Q41993937 | Multimodal integration in rostral fastigial nucleus provides an estimate of body movement |
Q41900184 | Multimodal integration of self-motion cues in the vestibular system: active versus passive translations |
Q51675452 | Multiple reference frames for motion in the primate cerebellum. |
Q37441429 | Multisensory integration in early vestibular processing in mice: the encoding of passive vs. active motion |
Q37752786 | Multisensory integration: resolving sensory ambiguities to build novel representations |
Q48381668 | Neuronal detection thresholds during vestibular compensation: contributions of response variability and sensory substitution |
Q48313798 | Neurons in the pontomedullary reticular formation receive converging inputs from the hindlimb and labyrinth |
Q47889079 | New insights into vestibular-saccade interaction based on covert corrective saccades in patients with unilateral vestibular deficits. |
Q86993985 | Passive motion reduces vestibular balance and perceptual responses |
Q34000113 | Phase-linking and the perceived motion during off-vertical axis rotation |
Q35175109 | Physiological characterization of vestibular efferent brainstem neurons using a transgenic mouse model |
Q33793239 | Resolving the active versus passive conundrum for head direction cells |
Q37273282 | Response of vestibular nerve afferents innervating utricle and saccule during passive and active translations |
Q35057116 | Responses of neurons in the rostral ventrolateral medulla to whole body rotations: comparisons in decerebrate and conscious cats |
Q41649965 | Responses of non-eye-movement central vestibular neurons to sinusoidal yaw rotation in compensated macaques after unilateral semicircular canal plugging |
Q48955869 | Selective processing of vestibular reafference during self-generated head motion. |
Q30494055 | Self-motion and the shaping of sensory signals |
Q37225591 | Self-motion signals in vestibular nuclei neurons projecting to the thalamus in the alert squirrel monkey |
Q30484409 | Sensorimotor enhancement in mouse mutants lacking the Purkinje cell-specific Gi/o modulator, Pcp2(L7). |
Q35194696 | Spatial and temporal characteristics of vestibular convergence |
Q48973592 | Temporal processing of active and passive head movement |
Q36678457 | The cerebellum: a new key structure in the navigation system. |
Q34995880 | The interaction of visual, vestibular and extra-retinal mechanisms in the control of head and gaze during head-free pursuit |
Q34247038 | The vestibular system: multimodal integration and encoding of self-motion for motor control |
Q64120841 | Vestibular and Multi-Sensory Influences Upon Self-Motion Perception and the Consequences for Human Behavior |
Q30431198 | Vestibular control of the head: possible functions of the vestibulocollic reflex |
Q48739156 | Vestibular guidance of active head movements |
Q33708285 | Vestibular nucleus neurons respond to hindlimb movement in the decerebrate cat. |
Q34146963 | Vestibulocollic reflexes in the absence of head postural control. |
Search more.