Emerging repair, regeneration, and translational research advances for spinal cord injury.
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Cellular treatments for spinal cord injury: the time is right for clinical trialsHydrogels in spinal cord injury repair strategiesA synthesis of best evidence for the restoration of upper-extremity function in people with tetraplegiaCell therapy in spinal cord injury: a mini- reivewThe curious ability of polyethylene glycol fusion technologies to restore lost behaviors after nerve severanceSyndromics: a bioinformatics approach for neurotrauma researchVery high resolution ultrasound imaging for real-time quantitative visualization of vascular disruption after spinal cord injury.Evaluation of the neural function of nonhuman primates with spinal cord injury using an evoked potential-based scoring systemHydrophilic polymers enhance early functional outcomes after nerve autograftingNeural stem/progenitor cells from the adult human spinal cord are multipotent and self-renewing and differentiate after transplantation.Recent advances in the pharmacologic treatment of spinal cord injuryRight care, right time, right place: improving outcomes for people with spinal cord injury through early access to intervention and improved access to specialised care: study protocolProlonged minocycline treatment impairs motor neuronal survival and glial function in organotypic rat spinal cord cultures.Thermomineral water promotes axonal sprouting but does not reduce glial scar formation in a mouse model of spinal cord injuryPotential long-term benefits of acute hypothermia after spinal cord injury: assessments with somatosensory-evoked potentialsCurrent stem cell treatments for spinal cord injuryProlonged Local Hypothermia Has No Long-Term Adverse Effect on the Spinal CordNanoparticle Estrogen in Rat Spinal Cord Injury Elicits Rapid Anti-Inflammatory Effects in Plasma, Cerebrospinal Fluid, and Tissue.Application and implications of polyethylene glycol-fusion as a novel technology to repair injured spinal cordsImmunoglobulin G (IgG) attenuates neuroinflammation and improves neurobehavioral recovery after cervical spinal cord injury.Limiting multiple sclerosis related axonopathy by blocking Nogo receptor and CRMP-2 phosphorylation.Vitamins and nutrients as primary treatments in experimental brain injury: Clinical implications for nutraceutical therapies.Electrical stimulation of embryonic neurons for 1 hour improves axon regeneration and the number of reinnervated muscles that function.Wnts are expressed in the spinal cord of adult mice and are differentially induced after injury.Canine epidermal neural crest stem cells: characterization and potential as therapy candidate for a large animal model of spinal cord injury.Tetracyclines and pain.Ion channel blockers and spinal cord injury.Targeting the peroxisome proliferator-activated receptors (PPARs) in spinal cord injury.The best basic science paper on multiple sclerosis in 2012: commentary.Stem cells in canine spinal cord injury--promise for regenerative therapy in a large animal model of human disease.Investigational drugs for the treatment of spinal cord injury: review of preclinical studies and evaluation of clinical trials from Phase I to II.Transplantation of human oligodendrocyte progenitor cells in an animal model of diffuse traumatic axonal injury: survival and differentiationSustained delivery of bioactive neurotrophin-3 to the injured spinal cord.Clinical trials in spinal cord injury: lessons learned on the path to translation. The 2011 International Spinal Cord Society Sir Ludwig Guttmann Lecture.Stem cell therapies for traumatic brain injury.Stem cell clinical trials for spinal cord injury: readiness, reluctance, redefinition.Deep brain stimulation of the midbrain locomotor region improves paretic hindlimb function after spinal cord injury in rats.Neurophysiological evaluation of segmental motor neuron function of the thoracic cord in chronic SCI.Synopsis of the 10th International Neurotrauma Symposium: from bench to bedside in neurotrauma translational research.Traumatic spinal cord injury
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Emerging repair, regeneration, and translational research advances for spinal cord injury.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on October 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Emerging repair, regeneration, ...... vances for spinal cord injury.
@en
Emerging repair, regeneration, ...... vances for spinal cord injury.
@nl
type
label
Emerging repair, regeneration, ...... vances for spinal cord injury.
@en
Emerging repair, regeneration, ...... vances for spinal cord injury.
@nl
prefLabel
Emerging repair, regeneration, ...... vances for spinal cord injury.
@en
Emerging repair, regeneration, ...... vances for spinal cord injury.
@nl
P1433
P1476
Emerging repair, regeneration, ...... vances for spinal cord injury.
@en
P2093
Brian K Kwon
Lali H Sekhon
P304
P356
10.1097/BRS.0B013E3181F3286D
P407
P433
P577
2010-10-01T00:00:00Z