Competition with Primary Sensory Afferents Drives Remodeling of Corticospinal Axons in Mature Spinal Motor Circuits. - Wikidata - wikimedia - TriplyDB

Competition with Primary Sensory Afferents Drives Remodeling of Corticospinal Axons in Mature Spinal Motor Circuits.

Competition with Primary Sensory Afferents Drives Remodeling of Corticospinal Axons in Mature Spinal Motor Circuits.

http://www.wikidata.org/entity/Q36431995

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Paired Stimulation to Promote Lasting Augmentation of Corticospinal Circuits Right Hemisphere Remapping of Naming Functions Depends on Lesion Size and Location in Poststroke Aphasia Cardiac Arrest-Induced Global Brain Hypoxia-Ischemia during Development Affects Spontaneous Activity Organization in Rat Sensory and Motor Thalamocortical Circuits during Adulthood Intramuscular Neurotrophin-3 normalizes low threshold spinal reflexes, reduces spasms and improves mobility after bilateral corticospinal tract injury in rats.Surgical Neurostimulation for Spinal Cord Injury.Developmental role of DSCAM in spinal locomotor circuits.Rehabilitation Strategies after Spinal Cord Injury: Inquiry into the Mechanisms of Success and Failure.Tail Nerve Electrical Stimulation and Electro-Acupuncture Can Protect Spinal Motor Neurons and Alleviate Muscle Atrophy after Spinal Cord Transection in Rats.Noncanonical Adult Human Neurogenesis and Axonal Growth as Possible Structural Basis of Recovery From Traumatic Vegetative State Paired motor cortex and cervical epidural electrical stimulation timed to converge in the spinal cord promotes lasting increases in motor responses.Control of species-dependent cortico-motoneuronal connections underlying manual dexterity.Depolarization and electrical stimulation enhance in vitro and in vivo sensory axon growth after spinal cord injury.Retracing your footsteps: developmental insights to spinal network plasticity following injury.Motor system plasticity after unilateral injury in the developing brain.Effects of forced, passive, and voluntary exercise on spinal motoneurons changes after peripheral nerve injury.Spinal cord direct current stimulation differentially modulates neuronal activity in the dorsal and ventral spinal cord.Pax3 overexpression induces cell aggregation and perturbs commissural axon projection during embryonic spinal cord development.Dry immersion as a model of deafferentation: A neurophysiology study using somatosensory evoked potentials

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P2860

Competition with Primary Sensory Afferents Drives Remodeling of Corticospinal Axons in Mature Spinal Motor Circuits.

http://www.wikidata.org/entity/Q36431995

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2016 nî lūn-bûn

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2016年の論文

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2016年学术文章

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2016年学术文章

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2016年学术文章

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2016年学术文章

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2016年學術文章

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2016年學術文章

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2016年學術文章

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Competition with Primary Senso ...... Mature Spinal Motor Circuits.

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JNEUROSCI.3441-15.2016

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Journal of Neuroscience

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Competition with Primary Senso ...... Mature Spinal Motor Circuits.

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Boubker Zaaimi

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John H Martin

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Yu-Qiu Jiang

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P2860

Corticospinal reorganization after spinal cord injury

Differential joint-specific corticospinal tract projections within the cervical enlargement

Brief, low frequency stimulation of rat peripheral C-fibres evokes prolonged microglial-induced central sensitization in adults but not in neonates

ETS gene Er81 controls the formation of functional connections between group Ia sensory afferents and motor neurons

Chronic electrical stimulation of the intact corticospinal system after unilateral injury restores skilled locomotor control and promotes spinal axon outgrowth.

An electron microscopic examination of the corticospinal projection to the cervical spinal cord in the rat: lack of evidence for cortico-motoneuronal synapses.

Large cholinergic nerve terminals on subsets of motoneurons and their relation to muscarinic receptor type 2.

Ultrastructural synaptic features differ between alpha- and gamma-motoneurons innervating the tibialis anterior muscle in the rat.

Consistent features in the forelimb representation of primary motor cortex in rhesus macaques.

Primary afferent synapses on developing and adult Renshaw cells

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193-203

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10.1523/JNEUROSCI.3441-15.2016

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