Signal processing in the vestibular system during active versus passive head movements. - sprookjes - yvandenbroek - TriplyDB

Signal processing in the vestibular system during active versus passive head movements.

Signal processing in the vestibular system during active versus passive head movements.

http://www.wikidata.org/entity/Q35739988

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Active spatial perception in the vibrissa scanning sensorimotor system Dynamic transformation of vestibular signals for orientation Kinematics of visually-guided eye movements Hypoactivity affects IGF-1 level and PI3K/AKT signaling pathway in cerebral structures implied in motor control Different neural strategies for multimodal integration: comparison of two macaque monkey species.Descending Influences on Vestibulospinal and Vestibulosympathetic Reflexes.Do post-stroke patients benefit from robotic verticalization? A pilot-study focusing on a novel neurophysiological approach.Statistics of the vestibular input experienced during natural self-motion: implications for neural processing.Information transmission and detection thresholds in the vestibular nuclei: single neurons vs. population encoding.The vestibular system implements a linear-nonlinear transformation in order to encode self-motion.Multimodal integration after unilateral labyrinthine lesion: single vestibular nuclei neuron responses and implications for postural compensation ECoG gamma activity during a language task: differentiating expressive and receptive speech areas Self-motion evokes precise spike timing in the primate vestibular system.Just do it: action-dependent learning allows sensory prediction Direction discrimination thresholds of vestibular and cerebellar nuclei neurons.Sensory convergence in the parieto-insular vestibular cortex Anticipatory eye movements stabilize gaze during self-generated head movements.Envelope statistics of self-motion signals experienced by human subjects during everyday activities: Implications for vestibular processing Resolving the active versus passive conundrum for head direction cells Cerebellar re-encoding of self-generated head movements.Linear path integration deficits in patients with abnormal vestibular afference.Non-sensory inputs to angular path integration.Matching the oculomotor drive during head-restrained and head-unrestrained gaze shifts in monkey Eye-head coordination in the guinea pig II. Responses to self-generated (voluntary) head movements Eye-head coordination in the guinea pig I. Responses to passive whole-body rotations.Vestibulocollic reflexes in the absence of head postural control.Effect of vestibular rehabilitation on passive dynamic visual acuity High-velocity angular vestibulo-ocular reflex adaptation to position error signals.The vestibular system: multimodal integration and encoding of self-motion for motor control Hierarchical control of two-dimensional gaze saccades Characterizing high-velocity angular vestibulo-ocular reflex function in service members post-blast exposure Getting ahead of oneself: anticipation and the vestibulo-ocular reflex.Frequency dependence of vestibuloocular reflex thresholds.Galvanic stimulation of the vestibular periphery in guinea pigs during passive whole body rotation and self-generated head movement.Neural correlates of sensory substitution in vestibular pathways following complete vestibular loss.Head stabilization by vestibulocollic reflexes during quadrupedal locomotion in monkey.Plasticity within non-cerebellar pathways rapidly shapes motor performance in vivo.Computational approaches to spatial orientation: from transfer functions to dynamic Bayesian inference Trunk bradykinesia and foveation delays during whole-body turns in spasmodic torticollis.The horizontal angular vestibulo-ocular reflex: a nonlinear mechanism for context-dependent responses

P2860

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P2860

Signal processing in the vestibular system during active versus passive head movements.

http://www.wikidata.org/entity/Q35739988

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2004 nî lūn-bûn

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name

Signal processing in the vestibular system during active versus passive head movements.

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Signal processing in the vestibular system during active versus passive head movements.

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Signal processing in the vestibular system during active versus passive head movements.

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Signal processing in the vestibular system during active versus passive head movements.

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Signal processing in the vestibular system during active versus passive head movements.

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Signal processing in the vestibular system during active versus passive head movements.

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Journal of Neurophysiology

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Signal processing in the vestibular system during active versus passive head movements.

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Jefferson E Roy

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Kathleen E Cullen

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P2860

The vestibular cortex. Its locations, functions, and disorders.

Vestibular neurones in the parieto-insular cortex of monkeys (Macaca fascicularis): visual and neck receptor responses.

Does the vestibular system contribute to head direction cell activity in the rat?

Control of eye-head coordination during orienting gaze shifts.

Corticofugal connections between the cerebral cortex and brainstem vestibular nuclei in the macaque monkey.

Changes in the responses of Purkinje cells in the floccular complex of monkeys after motor learning in smooth pursuit eye movements

Deficits of gaze stability in multiple axes following unilateral vestibular lesions.

Frequency and velocity of rotational head perturbations during locomotion.

Primary vestibular afferent projections to the cerebellum as demonstrated by retrograde axonal transport of horseradish peroxidase.

The coordination of eye and head movement during smooth pursuit.

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1919-1933

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scholarly article

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10.1152/JN.00988.2003

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15069088

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