Sensorimotor attenuation by central motor command signals in the absence of movement. - Wikidata - awgldk - TriplyDB

Sensorimotor attenuation by central motor command signals in the absence of movement.

Sensorimotor attenuation by central motor command signals in the absence of movement.

http://www.wikidata.org/entity/Q43186578

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Neural mirroring systems: exploring the EEG μ rhythm in human infancy Corollary discharge across the animal kingdom Ageing increases reliance on sensorimotor prediction through structural and functional differences in frontostriatal circuits Cerebral mechanisms underlying the effects of music during a fatiguing isometric ankle-dorsiflexion task.What does motor efference copy represent? Evidence from speech production.The DIVA model: A neural theory of speech acquisition and production When standing on a moving support, cutaneous inputs provide sufficient information to plan the anticipatory postural adjustments for gait initiation.Sensorimotor enhancement in mouse mutants lacking the Purkinje cell-specific Gi/o modulator, Pcp2(L7).Somatotopic mapping of piano fingering errors in sensorimotor experts: TMS studies in pianists and visually trained musically naives.Lateralized enhancement of auditory cortex activity and increased sensitivity to self-generated sounds.Sensorimotor organization of a sustained involuntary movement.Mere expectation to move causes attenuation of sensory signals Did I do that? Abnormal predictive processes in schizophrenia when button pressing to deliver a tone.Whodunnit? Electrophysiological correlates of agency judgements.Visual, motor and attentional influences on proprioceptive contributions to perception of hand path rectilinearity during reaching.Modulation of somatosensory processing by action.Behavioral impact of unisensory and multisensory audio-tactile events: pros and cons for interlimb coordination in juggling.Parallel processing streams for motor output and sensory prediction during action preparation.The sense of agency during continuous action: performance is more important than action-feedback association Sensory Attenuation Assessed by Sensory Evoked Potentials in Functional Movement Disorders Facilitation of cutaneous inputs during the planning phase of gait initiation.An fMRI study of joint action-varying levels of cooperation correlates with activity in control networks Computational principles of sensorimotor control that minimize uncertainty and variability.Gating of reafference in the external cuneate nucleus during self-generated movements in wake but not sleep Corollary discharge circuits in the primate brain.Tactile gating in a reaching and grasping task.Active inference, sensory attenuation and illusions.Lack of motor prediction, rather than perceptual conflict, evokes an odd sensation upon stepping onto a stopped escalator.The influence of visual training on predicting complex action sequences.Dependence of auditory spatial updating on vestibular, proprioceptive, and efference copy signals.Comparing intensities and modalities within the sensory attenuation paradigm: Preliminary evidence.Computational cognitive modelling of action awareness: prior and retrospective.Enhanced alpha-oscillations in visual cortex during anticipation of self-generated visual stimulation.Effects of motor intention on the perception of somatosensory events: a behavioural and functional magnetic resonance imaging study.Cortical facilitation of proprioceptive inputs related to gravitational balance constraints during step preparation.Motor intention determines sensory attenuation of brain responses to self-initiated sounds.Effect of gravity-like torque on goal-directed arm movements in microgravity.Altered awareness of action in schizophrenia: a specific deficit in predicting action consequences.Human control of an inverted pendulum: is continuous control necessary? Is intermittent control effective? Is intermittent control physiological?Availability of vision and tactile gating: vision enhances tactile sensitivity.

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P2860

Sensorimotor attenuation by central motor command signals in the absence of movement.

http://www.wikidata.org/entity/Q43186578

description

2005 nî lūn-bûn

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name

Sensorimotor attenuation by central motor command signals in the absence of movement.

@en

Sensorimotor attenuation by central motor command signals in the absence of movement.

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type

label

Sensorimotor attenuation by central motor command signals in the absence of movement.

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Sensorimotor attenuation by central motor command signals in the absence of movement.

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prefLabel

Sensorimotor attenuation by central motor command signals in the absence of movement.

@en

Sensorimotor attenuation by central motor command signals in the absence of movement.

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Nature Neuroscience

P1476

Sensorimotor attenuation by central motor command signals in the absence of movement.

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James N Ingram

http://www.w3.org/2001/XMLSchema#string

Martin Voss

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P2860

Spatio-temporal prediction modulates the perception of self-produced stimuli.

Evoked oscillations in the thalamo-cortical auditory system are present in anesthetized but not in unanesthetized rats.

Suppression of cutaneous perception by magnetic pulse stimulation of the human brain.

Differentiation of sensorimotor neuronal structures responsible for induction of motor evoked potentials, attenuation in detection of somatosensory stimuli, and induction of sensation of movement by mapping of optimal current directions.

The processing of human ballistic movements explored by stimulation over the cortex.

Pre-movement gating of short-latency somatosensory evoked potentials.

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10.1038/NN1592

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1

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9

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Daniel M. Wolpert

Patrick Haggard

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