Renshaw cell recurrent inhibition improves physiological tremor by reducing corticomuscular coupling at 10 Hz.
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The primate reticulospinal tract, hand function and functional recovery.Spinal interneuron circuits reduce approximately 10-Hz movement discontinuities by phase cancellation.Alpha- and beta-band oscillations subserve different processes in reactive control of limb movements.Different phase delays of peripheral input to primate motor cortex and spinal cord promote cancellation at physiological tremor frequencies.Beta-adrenergic modulation of tremor and corticomuscular coherence in humans.Alpha band cortico-muscular coherence occurs in healthy individuals during mechanically-induced tremor.Modulation of motoneuron firing by recurrent inhibition in the adult rat in vivo.Tetanus toxin reduces local and descending regulation of the H-reflex.Pre-Synaptic Inhibition of Afferent Feedback in the Macaque Spinal Cord Does Not Modulate with Cycles of Peripheral Oscillations Around 10 Hz.Neural bases of hand synergiesCoherence between motor cortical activity and peripheral discontinuities during slow finger movements.Inhibitory interneuron circuits at cortical and spinal levels are associated with individual differences in corticomuscular coherence during isometric voluntary contraction.The optimal neural strategy for a stable motor task requires a compromise between level of muscle cocontraction and synaptic gain of afferent feedback.Muscle dependency of corticomuscular coherence in upper and lower limb muscles and training-related alterations in ballet dancers and weightlifters.Quantifying connectivity via efferent and afferent pathways in motor control using coherence measures and joint position perturbations.Between-subject variance in the magnitude of corticomuscular coherence during tonic isometric contraction of the tibialis anterior muscle in healthy young adults.Reply from C. L. Witham and S. N. Baker.Cardinal features of involuntary force variability can arise from the closed-loop control of viscoelastic afferented muscles.Impaired corticomuscular coherence during isometric elbow flexion contractions in humans with cervical spinal cord injury.Effect of training status on beta-range corticomuscular coherence in agonist vs. antagonist muscles during isometric knee contractions.Distinct roles for motor neuron autophagy early and late in the SOD1G93A mouse model of ALS.Transient visual responses reset the phase of low-frequency oscillations in the skeletomotor periphery.High-density surface electromyography improves the identification of oscillatory synaptic inputs to motoneurons.Decorrelation of cortical inputs and motoneuron output.Multiscale Information Transfer in Functional Corticomuscular Coupling Estimation Following Stroke: A Pilot Study.Spasms after spinal cord injury show low-frequency intermuscular coherence
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Renshaw cell recurrent inhibition improves physiological tremor by reducing corticomuscular coupling at 10 Hz.
description
2009 nî lūn-bûn
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2009年の論文
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2009年学术文章
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name
Renshaw cell recurrent inhibit ...... icomuscular coupling at 10 Hz.
@en
Renshaw cell recurrent inhibit ...... icomuscular coupling at 10 Hz.
@nl
type
label
Renshaw cell recurrent inhibit ...... icomuscular coupling at 10 Hz.
@en
Renshaw cell recurrent inhibit ...... icomuscular coupling at 10 Hz.
@nl
prefLabel
Renshaw cell recurrent inhibit ...... icomuscular coupling at 10 Hz.
@en
Renshaw cell recurrent inhibit ...... icomuscular coupling at 10 Hz.
@nl
P2860
P1476
Renshaw cell recurrent inhibit ...... ticomuscular coupling at 10 Hz
@en
P2093
Elizabeth R Williams
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P304
P356
10.1523/JNEUROSCI.0272-09.2009
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P50
P577
2009-05-01T00:00:00Z