An Examination of the Mechanisms by which Neural Precursors Augment Recovery following Spinal Cord Injury: A Key Role for Remyelination - Wikidata - wikimedia - TriplyDB

An Examination of the Mechanisms by which Neural Precursors Augment Recovery following Spinal Cord Injury: A Key Role for Remyelination

An Examination of the Mechanisms by which Neural Precursors Augment Recovery following Spinal Cord Injury: A Key Role for Remyelination

http://www.wikidata.org/entity/Q57838894

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Rodent Hypoxia-Ischemia Models for Cerebral Palsy Research: A Systematic Review Myelin damage and repair in pathologic CNS: challenges and prospects The Potential for iPS-Derived Stem Cells as a Therapeutic Strategy for Spinal Cord Injury: Opportunities and Challenges Antibody-Mediated Oligodendrocyte Remyelination Promotes Axon Health in Progressive Demyelinating Disease Effects of adult neural precursor-derived myelination on axonal function in the perinatal congenitally dysmyelinated brain: optimizing time of intervention, developing accurate prediction models, and enhancing performance Transplanted miR-219-overexpressing oligodendrocyte precursor cells promoted remyelination and improved functional recovery in a chronic demyelinated model.From demyelination to remyelination: the road toward therapies for spinal cord injury.Generation of Oligodendrogenic Spinal Neural Progenitor Cells From Human Induced Pluripotent Stem Cells.Does the preclinical evidence for functional remyelination following myelinating cell engraftment into the injured spinal cord support progression to clinical trials?Spinal cord injuries: how could cell therapy help?Cell transplantation therapy for spinal cord injury.Neural precursor cell transplantation enhances functional recovery and reduces astrogliosis in bilateral compressive/contusive cervical spinal cord injury.Transplantation of Induced Pluripotent Stem Cell-Derived Neural Stem Cells Mediate Functional Recovery Following Thoracic Spinal Cord Injury Through Remyelination of Axons.Transplantation of Neural Precursor Cells Attenuates Chronic Immune Environment in Cervical Spinal Cord Injury.

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An Examination of the Mechanisms by which Neural Precursors Augment Recovery following Spinal Cord Injury: A Key Role for Remyelination

http://www.wikidata.org/entity/Q57838894

description

scientific article published on 28 January 2013

@en

wetenschappelijk artikel

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наукова стаття, опублікована у квітні 2014

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name

An Examination of the Mechanis ...... : A Key Role for Remyelination

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An Examination of the Mechanis ...... : A Key Role for Remyelination

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type

label

An Examination of the Mechanis ...... : A Key Role for Remyelination

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An Examination of the Mechanis ...... : A Key Role for Remyelination

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An Examination of the Mechanis ...... : A Key Role for Remyelination

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An Examination of the Mechanis ...... : A Key Role for Remyelination

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Cell Transplantation

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An examination of the mechanis ...... : a key role for remyelination

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Gregory W J Hawryluk

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Mahmood Chamankhah

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Mark Erwin

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Nicole Forgione

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Shelly Wang

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Stefania Spano

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P2860

Human neural stem cells differentiate and promote locomotor recovery in spinal cord-injured mice.

Human embryonic stem cell-derived oligodendrocyte progenitor cell transplants remyelinate and restore locomotion after spinal cord injury

Intravenous synthetic peptide MBP8298 delayed disease progression in an HLA Class II-defined cohort of patients with progressive multiple sclerosis: results of a 24-month double-blind placebo-controlled clinical trial and 5 years of follow-up treatm

Transplantation of an acutely isolated bone marrow fraction repairs demyelinated adult rat spinal cord axons

Analysis of host-mediated repair mechanisms after human CNS-stem cell transplantation for spinal cord injury: correlation of engraftment with recovery

A sensitive and reliable locomotor rating scale for open field testing in rats

Remyelination in the CNS: from biology to therapy

A statistical method for analyzing rating scale data: the BBB locomotor score.

In vivo tracking of stem cells in brain and spinal cord injury.

Study of in vivo differentiation of rat bone marrow stromal cells into schwann cell-like cells.

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365-380

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scholarly article

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10.3727/096368912X662408

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3

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23

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Michael Fehlings

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2013-01-28T00:00:00Z

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23363615

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biomedical engineering