Excitability changes in human corticospinal projections to forearm muscles during voluntary movement of ipsilateral foot. - Wikidata - wikimedia - TriplyDB

Excitability changes in human corticospinal projections to forearm muscles during voluntary movement of ipsilateral foot.

Excitability changes in human corticospinal projections to forearm muscles during voluntary movement of ipsilateral foot.

http://www.wikidata.org/entity/Q43920133

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The Organization and Control of Intra-Limb Anticipatory Postural Adjustments and Their Role in Movement Performance.Preparation and execution of teeth clenching and foot muscle contraction influence on corticospinal hand-muscle excitability.Synchrony of hand-foot coupled movements: is it attained by mutual feedback entrainment or by independent linkage of each limb to a common rhythm generator?Excitability of the motor cortex ipsilateral to the moving body side depends on spatio-temporal task complexity and hemispheric specialization.The role of attention in human motor resonance Reliable assessment of lower limb motor representations with fMRI: use of a novel MR compatible device for real-time monitoring of ankle, knee and hip torques Upper and lower limb muscle activation is bidirectionally and ipsilaterally coupled.APAs Constraints to Voluntary Movements: The Case for Limb Movements Coupling.Difference in Activity in the Supplementary Motor Area Depending on Limb Combination of Hand-Foot Coordinated Movements.Potential explanation of limb combination performance differences for two-limb coordination tasks.Muscle Relaxation of the Foot Reduces Corticospinal Excitability of Hand Muscles and Enhances Intracortical Inhibition Corticospinal excitability for hand muscles during motor imagery of foot changes with imagined force level.Voluntary activation of ankle muscles is accompanied by subcortical facilitation of their antagonists.Corticospinal excitability modulation in resting digit muscles during cyclical movement of the digits of the ipsilateral limb.Excitability changes in human forearm corticospinal projections and spinal reflex pathways during rhythmic voluntary movement of the opposite limb.Modulation of corticospinal input to the legs by arm and leg cycling in people with incomplete spinal cord injury.Ischemic block of the forearm abolishes finger movements but not their associated anticipatory postural adjustments.Hand immobilization affects arm and shoulder postural control.Influence of body segment position during in-phase and antiphase hand and foot movements: a kinematic and functional MRI study.

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P2860

Excitability changes in human corticospinal projections to forearm muscles during voluntary movement of ipsilateral foot.

http://www.wikidata.org/entity/Q43920133

description

2002 nî lūn-bûn

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2002年の論文

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2002年学术文章

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2002年學術文章

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2002年學術文章

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Excitability changes in human ...... movement of ipsilateral foot.

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Excitability changes in human ...... movement of ipsilateral foot.

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Excitability changes in human ...... movement of ipsilateral foot.

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Excitability changes in human ...... movement of ipsilateral foot.

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JPHYSIOL.2001.013282

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The Journal of Physiology

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Excitability changes in human ...... movement of ipsilateral foot.

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Fausto Baldissera

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Gabriella Cerri

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Paola Borroni

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Paolo Cavallari

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P2860

Posturo-kinetic organisation during the early phase of voluntary upper limb movement. 1. Normal subjects.

Presynaptic inhibition in the vertebrate spinal cord revisited.

Motor plasticity induced by synchronized thumb and foot movements.

Differential control of in-phase and anti-phase coupling of rhythmic movements of ipsilateral hand and foot.

Suppression of voluntary motor activity revealed using transcranial magnetic stimulation of the motor cortex in man.

Is presynaptic inhibition distributed to corticospinal fibres in man?

Evidence for corticospinal excitation of presumed propriospinal neurones in man.

Complete suppression of voluntary motor drive during the silent period after transcranial magnetic stimulation.

Short-latency subliminal effects of transcranial magnetic stimulation on forearm motoneurones.

Load compensation during homologous and non-homologous coordination.

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903-911

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scholarly article

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10.1113/JPHYSIOL.2001.013282

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Pt 3

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539

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2002-03-01T00:00:00Z

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