Demyelination and remyelination after spinal cord injury.
about
The multifaceted effects of agmatine on functional recovery after spinal cord injury through Modulations of BMP-2/4/7 expressions in neurons and glial cellsMolecular mechanisms of acrolein-mediated myelin destruction in CNS trauma and diseaseProtein-tyrosine phosphatase alpha acts as an upstream regulator of Fyn signaling to promote oligodendrocyte differentiation and myelinationAdvanced MRI strategies for assessing spinal cord injury.Rapid assessment of internodal myelin integrity in central nervous system tissue.The protective effects of inosine against chemical hypoxia on cultured rat oligodendrocytes.What is the potential of oligodendrocyte progenitor cells to successfully treat human spinal cord injury?Electrical stimulation of the medullary pyramid promotes proliferation and differentiation of oligodendrocyte progenitor cells in the corticospinal tract of the adult rat.Human umbilical cord blood stem cell transplantation for the treatment of chronic spinal cord injury: Electrophysiological changes and long-term efficacy.Self-assembling peptide amphiphile promotes plasticity of serotonergic fibers following spinal cord injury.Stem cells for spinal cord regeneration: Current statusMn (III) tetrakis (4-benzoic acid) porphyrin protects against neuronal and glial oxidative stress and death after spinal cord injuryElectroacupuncture promotes the proliferation of endogenous neural stem cells and oligodendrocytes in the injured spinal cord of adult ratsOrganotypic spinal cord slice culture to study neural stem/progenitor cell microenvironment in the injured spinal cord.Comparison of human adipose-derived stem cells and chondroitinase ABC transplantation on locomotor recovery in the contusion model of spinal cord injury in rats.NG2-glia and their functions in the central nervous system.Axonal remyelination by cord blood stem cells after spinal cord injuryA systematic review of the effects of pharmacological agents on walking function in people with spinal cord injury.Human umbilical cord blood-derived mesenchymal stem cell therapy promotes functional recovery of contused rat spinal cord through enhancement of endogenous cell proliferation and oligogenesisGuanosine reduces apoptosis and inflammation associated with restoration of function in rats with acute spinal cord injuryRemyelination after chronic spinal cord injury is associated with proliferation of endogenous adult progenitor cells after systemic administration of guanosine.Cervical spinal demyelination with ethidium bromide impairs respiratory (phrenic) activity and forelimb motor behavior in rats.Topographical effects on fiber-mediated microRNA delivery to control oligodendroglial precursor cells development.Nanofiber-mediated microRNA delivery to enhance differentiation and maturation of oligodendroglial precursor cells.Polydendrocytes: NG2 cells with many roles in development and repair of the CNS.The promise and perils of stem cell therapeutics.Stem cell-based cell therapy for spinal cord injury.EXPRESS: Oligodendrocytes in HIV-associated pain pathogenesisThe impact of myelination on axon sparing and locomotor function recovery in spinal cord injury assessed using diffusion tensor imaging.Methylprednisolone protects oligodendrocytes but not neurons after spinal cord injury.Optic nerve inflammation and demyelination in a rodent model of nonarteritic anterior ischemic optic neuropathy.Transplantation of umbilical cord blood stem cells for treating spinal cord injury.Stem cell therapies for spinal cord injuryPotassium channel blockers as an effective treatment to restore impulse conduction in injured axons.Systematic review of induced pluripotent stem cell technology as a potential clinical therapy for spinal cord injury.The role of oligodendroglial dysfunction in amyotrophic lateral sclerosis.Spinal cord contusion.Pharmacological approaches to intervention in hypomyelinating and demyelinating white matter pathology.Cell Transplantation and Neuroengineering Approach for Spinal Cord Injury Treatment: A Summary of Current Laboratory Findings and Review of Literature.The regenerative effects of electromagnetic field on spinal cord injury.
P2860
Q27320717-9C52B1DE-257B-4883-ACC1-8C9A00BC85E2Q28081607-819071C3-6FFB-465C-8127-B762E5AA578DQ28577221-FED4DF16-B764-4BC2-8FE3-EDA473C26EC3Q30574716-A743699D-B8F0-4385-8C89-2AAE5C6D7887Q33618194-9A23AAC2-4E3B-48BF-BFC3-CB7FC2EDCBDFQ33924103-1F0C78E1-721F-4362-A1F6-DFBC257759D0Q34029285-76AAC518-6DC4-478A-9CC8-CBF27FD8B32DQ34067380-FAD87C0A-FEAD-4217-9552-AFD7697C199FQ34095523-7BA6B60A-649A-47CE-8751-7A7DA11DDD23Q34146061-457F1C81-24B4-4C9D-8089-9C5D193231DEQ34482689-FA019FF8-EC95-4F1A-9F4C-6D6E55A253DDQ34888816-C11C2C51-D5BC-4BC2-B39F-C8564176C38CQ35120168-715AF191-4BF1-4315-98C1-E9264CD3A232Q35545951-1738F3CD-E722-4A8B-9667-72F4D85DB696Q35563215-A4BE3F4B-C917-4A5F-9F1E-DCFB72EA6EDCQ35751998-2438266F-BD49-488E-B0CB-473F6D2311E0Q35768183-FF73C828-10D2-4D8D-AF55-07C6BC69F611Q35831905-C5C212B2-D59F-4A40-B9BF-AC1688622D70Q35833322-CEA14167-D20B-4022-B0F0-3D6A7591904AQ36131065-22B0A475-21A6-4129-8C48-9BA4EE0548E6Q36464834-9EFBC13E-E781-48B6-BBE4-DF5FFDE23D7DQ36501618-2D9F9442-BD08-4CFE-AC78-4EC91AA666FCQ36624321-C0FCCA3F-ADEB-4528-8BDA-F255F2C3AFE0Q36656696-C1DFE72A-0A67-4DC4-B864-7F39F512F433Q36710674-9344BC5F-E2BD-4448-83EE-4CD3B07623B1Q36776231-4039220D-B09C-4480-9F2E-1FCFF0542A3EQ36893915-D1203DB8-3390-4DF7-BF8B-CBCD8F1236CBQ37115164-5BDC5287-7176-4255-9D09-CCC42C9EFB4BQ37239354-8097D0F9-18A9-4F1C-9722-886412992B0AQ37357140-F075D49A-988F-4F28-B0AA-9C8638EACAF3Q37372314-C082718C-E476-4E6E-8805-723C5FF52804Q37763613-E5C36579-DF47-4860-8F57-C85C687B1BBDQ37765474-ADFC6895-D9B9-4396-9F21-7D490E95912FQ37832653-E2CB9BCB-9EA3-446E-924B-9F49D87C3B42Q38040207-55705B66-2E32-4B42-8AF3-92E5E2944946Q38237223-DEB2BA66-15C2-4221-A688-A38D54D9835CQ38248010-B5541739-C272-400D-95CF-134A122CF52FQ38538932-DE8D742A-949A-4FE0-AAC4-A930C5814DC3Q38724567-FB992567-8CA4-43A4-9AD4-A699AB952140Q38758872-C8E5E8AA-3E34-4C09-9CF9-EC9C14B21137
P2860
Demyelination and remyelination after spinal cord injury.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh
2006年學術文章
@zh-hant
name
Demyelination and remyelination after spinal cord injury.
@ast
Demyelination and remyelination after spinal cord injury.
@en
type
label
Demyelination and remyelination after spinal cord injury.
@ast
Demyelination and remyelination after spinal cord injury.
@en
prefLabel
Demyelination and remyelination after spinal cord injury.
@ast
Demyelination and remyelination after spinal cord injury.
@en
P356
P1476
Demyelination and remyelination after spinal cord injury.
@en
P2093
John W McDonald
Visar Belegu
P304
P356
10.1089/NEU.2006.23.345
P577
2006-03-01T00:00:00Z