Impaired transmission in the corticospinal tract and gait disability in spinal cord injured persons. - Wikidata - wikimedia - TriplyDB

Impaired transmission in the corticospinal tract and gait disability in spinal cord injured persons.

Impaired transmission in the corticospinal tract and gait disability in spinal cord injured persons.

http://www.wikidata.org/entity/Q43016931

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A Review on Locomotor Training after Spinal Cord Injury: Reorganization of Spinal Neuronal Circuits and Recovery of Motor Function Corticospinal reorganization after spinal cord injury Gait training facilitates central drive to ankle dorsiflexors in children with cerebral palsy.Longitudinal estimation of intramuscular Tibialis Anterior coherence during subacute spinal cord injury: relationship with neurophysiological, functional and clinical outcome measures.Restoring walking after spinal cord injury: operant conditioning of spinal reflexes can help Volitional muscle strength in the legs predicts changes in walking speed following locomotor training in people with chronic spinal cord injury Reliability and agreement of intramuscular coherence in tibialis anterior muscle Effects of spinal cord injury-induced changes in muscle activation on foot drag in a computational rat ankle model Plasticity of corticospinal neural control after locomotor training in human spinal cord injury Synchronous EMG activity in the piper frequency band reveals the corticospinal demand of walking tasks.Motor recovery after spinal cord injury enhanced by strengthening corticospinal synaptic transmission.Impaired crossed facilitation of the corticospinal pathway after cervical spinal cord injury.Tibialis Anterior muscle coherence during controlled voluntary activation in patients with spinal cord injury: diagnostic potential for muscle strength, gait and spasticity.Measuring human locomotor control using EMG and EEG: Current knowledge, limitations and future considerations.Supraspinal Control Predicts Locomotor Function and Forecasts Responsiveness to Training after Spinal Cord Injury.Corticospinal reorganization after locomotor training in a person with motor incomplete paraplegia Childhood development of common drive to a human leg muscle during ankle dorsiflexion and gait.Functional implications of corticospinal tract impairment on gait after spinal cord injury.Modulation of corticospinal input to the legs by arm and leg cycling in people with incomplete spinal cord injury.Spike-timing-dependent plasticity in lower-limb motoneurons after human spinal cord injury.Increased central common drive to ankle plantar flexor and dorsiflexor muscles during visually guided gait.Failure of normal development of central drive to ankle dorsiflexors relates to gait deficits in children with cerebral palsy.The motor cortex drives the muscles during walking in human subjects.Age-Related Declines in the Ability to Modulate Common Input to Bilateral and Unilateral Plantar Flexors During Forward Postural Lean.Impaired Ability to Suppress Excitability of Antagonist Motoneurons at Onset of Dorsiflexion in Adults with Cerebral Palsy

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Impaired transmission in the corticospinal tract and gait disability in spinal cord injured persons.

http://www.wikidata.org/entity/Q43016931

description

2010 nî lūn-bûn

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2010年の論文

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2010年学术文章

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2010年学术文章

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2010年学术文章

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2010年学术文章

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2010年學術文章

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2010年學術文章

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Journal of Neurophysiology

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Impaired transmission in the c ...... n spinal cord injured persons.

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Dorothy Barthélemy

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Hanne Knudsen

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Maria Willerslev-Olsen

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P2860

Suppression of EMG activity by transcranial magnetic stimulation in human subjects during walking

How we walk: central control of muscle activity during human walking.

Invasive cortical stimulation to promote recovery of function after stroke: a critical appraisal.

Neuronal spike trains and stochastic point processes. I. The single spike train

Neuronal spike trains and stochastic point processes. II. Simultaneous spike trains

Investigating human motor control by transcranial magnetic stimulation.

Towards improved clinical and physiological assessments of recovery in spinal cord injury: a clinical initiative.

Drivers of brain plasticity.

Plasticity of connections underlying locomotor recovery after central and/or peripheral lesions in the adult mammals

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1167-1176

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scholarly article

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10.1152/JN.00382.2010

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2

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104

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Jens Bo Nielsen

Bernard A. Conway

Fin Biering-Sørensen

Henrik M Lundell

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2010-06-16T00:00:00Z

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44679728

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20554839

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