Differential effects of anti-Nogo-A antibody treatment and treadmill training in rats with incomplete spinal cord injury.
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Biomaterial Approaches to Enhancing Neurorestoration after Spinal Cord Injury: Strategies for Overcoming Inherent Biological ObstaclesCorticospinal reorganization after spinal cord injuryRestoration of sensorimotor functions after spinal cord injuryRestoration of skilled locomotion by sprouting corticospinal axons induced by co-deletion of PTEN and SOCS3Sustained dual drug delivery of anti-inhibitory molecules for treatment of spinal cord injurySyndromics: a bioinformatics approach for neurotrauma researchNogo receptor deletion and multimodal exercise improve distinct aspects of recovery in cervical spinal cord injuryRewiring of regenerated axons by combining treadmill training with semaphorin3A inhibition.Recovery of control of posture and locomotion after a spinal cord injury: solutions staring us in the faceInduction of central nervous system plasticity by repetitive transcranial magnetic stimulation to promote sensorimotor recovery in incomplete spinal cord injuryTransformation of nonfunctional spinal circuits into functional states after the loss of brain inputCombination of NEP 1-40 treatment and motor training enhances behavioral recovery after a focal cortical infarct in rats.Increasing Human Neural Stem Cell Transplantation Dose Alters Oligodendroglial and Neuronal Differentiation after Spinal Cord Injury.Epidermal neural crest stem cell (EPI-NCSC)--mediated recovery of sensory function in a mouse model of spinal cord injury.Neutralization of Nogo-A enhances synaptic plasticity in the rodent motor cortex and improves motor learning in vivo.Examination of the combined effects of chondroitinase ABC, growth factors and locomotor training following compressive spinal cord injury on neuroanatomical plasticity and kinematics.Enhancing Nervous System Recovery through Neurobiologics, Neural Interface Training, and Neurorehabilitation.Improvement of gait patterns in step-trained, complete spinal cord-transected rats treated with a peripheral nerve graft and acidic fibroblast growth factorNogoA restricts synaptic plasticity in the adult hippocampus on a fast time scaleClinical and experimental advances in regeneration of spinal cord injury.Plasticity after spinal cord injury: relevance to recovery and approaches to facilitate itTwo monoclonal antibodies recognising aa 634-668 and aa 1026-1055 of NogoA enhance axon extension and branching in cultured neurons.A systematic review of directly applied biologic therapies for acute spinal cord injury.Effects of PTEN and Nogo Codeletion on Corticospinal Axon Sprouting and Regeneration in Mice.Leveraging biomedical informatics for assessing plasticity and repair in primate spinal cord injury.Technologies and combination therapies for enhancing movement training for people with a disabilityA systematic review of exercise training to promote locomotor recovery in animal models of spinal cord injuryAxonal regeneration induced by blockade of glial inhibitors coupled with activation of intrinsic neuronal growth pathwaysRewiring neuronal microcircuits of the brain via spine head protrusions--a role for synaptopodin and intracellular calcium stores.The dark side of neuroplasticity.Transcutaneous electrical spinal-cord stimulation in humansFunctional testing in animal models of spinal cord injury: not as straight forward as one would thinkNeuroplastic Changes Following Brain Ischemia and their Contribution to Stroke Recovery: Novel Approaches in Neurorehabilitation.Neuronal dysfunction in chronic spinal cord injury.Role of myelin-associated inhibitors in axonal repair after spinal cord injury.Biological basis of exercise-based treatments: spinal cord injury.Influence of the environment on adult CNS plasticity and repair.Therapeutics targeting Nogo-A hold promise for stroke restoration.Combination treatment with chondroitinase ABC in spinal cord injury--breaking the barrierPersonalized neuroprosthetics.
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P2860
Differential effects of anti-Nogo-A antibody treatment and treadmill training in rats with incomplete spinal cord injury.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
Differential effects of anti-N ...... incomplete spinal cord injury.
@en
Differential effects of anti-N ...... incomplete spinal cord injury.
@en-gb
Differential effects of anti-N ...... incomplete spinal cord injury.
@nl
type
label
Differential effects of anti-N ...... incomplete spinal cord injury.
@en
Differential effects of anti-N ...... incomplete spinal cord injury.
@en-gb
Differential effects of anti-N ...... incomplete spinal cord injury.
@nl
prefLabel
Differential effects of anti-N ...... incomplete spinal cord injury.
@en
Differential effects of anti-N ...... incomplete spinal cord injury.
@en-gb
Differential effects of anti-N ...... incomplete spinal cord injury.
@nl
P2093
P50
P356
P1433
P1476
Differential effects of anti-N ...... incomplete spinal cord injury.
@en
P2093
Irin C Maier
Lisa Schnell
Martin E Schwab
V Reggie Edgerton
P304
P356
10.1093/BRAIN/AWP085
P407
P577
2009-04-16T00:00:00Z