Combinatorial strategies with Schwann cell transplantation to improve repair of the injured spinal cord.
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Restoration of sensorimotor functions after spinal cord injurySustained dual drug delivery of anti-inhibitory molecules for treatment of spinal cord injurySchwann-spheres derived from injured peripheral nerves in adult mice--their in vitro characterization and therapeutic potentialSchwann cell dedifferentiation is independent of mitogenic signaling and uncoupled to proliferation: role of cAMP and JNK in the maintenance of the differentiated stateA calpain inhibitor enhances the survival of Schwann cells in vitro and after transplantation into the injured spinal cordProlonged minocycline treatment impairs motor neuronal survival and glial function in organotypic rat spinal cord cultures.Advances in regenerative therapies for spinal cord injury: a biomaterials approach.Neuropeptide expression and morphometric differences in crushed alveolar inferior nerve of rats: Effects of photobiomodulation.Neuroprotective effects of ultrasound-guided nerve growth factor injections after sciatic nerve injury.Fabrication of growth factor- and extracellular matrix-loaded, gelatin-based scaffolds and their biocompatibility with Schwann cells and dorsal root ganglia.Exogenous nerve growth factor protects the hypoglossal nerve against crush injury.P2X7 purinoceptors contribute to the death of Schwann cells transplanted into the spinal cord.Tissue engineered constructs for peripheral nerve surgery.Combination of engineered Schwann cell grafts to secrete neurotrophin and chondroitinase promotes axonal regeneration and locomotion after spinal cord injury.Regenerative therapies for central nervous system diseases: a biomaterials approach.Gene therapy strategies for the treatment of spinal cord injury.Hydrogels for central nervous system therapeutic strategies.Does the preclinical evidence for functional remyelination following myelinating cell engraftment into the injured spinal cord support progression to clinical trials?Combinatorial Therapies After Spinal Cord Injury: How Can Biomaterials Help?Breaking news in spinal cord injury research: FDA approved phase I clinical trial of human, autologous schwann cell transplantation in patients with spinal cord injuries.Chondroitinase ABC plus bone marrow mesenchymal stem cells for repair of spinal cord injuryTo myelinate or not to myelinate: fine tuning cAMP signaling in Schwann cells to balance cell proliferation and differentiation.Schwann cell-derived exosomes enhance axonal regeneration in the peripheral nervous system.Soluble epoxide hydrolase inhibition provides multi-target therapeutic effects in rats after spinal cord injury.Enhanced noradrenergic axon regeneration into schwann cell-filled PVDF-TrFE conduits after complete spinal cord transection.GGF2 (Nrg1-β3) treatment enhances NG2+ cell response and improves functional recovery after spinal cord injury.Transplantation of Adult Rat Schwann Cells into the Injured Spinal Cord.Macrophage depletion and Schwann cell transplantation reduce cyst size after rat contusive spinal cord injury.
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Combinatorial strategies with Schwann cell transplantation to improve repair of the injured spinal cord.
description
article científic
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article scientifique
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articolo scientifico
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artigo científico
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bilimsel makale
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scientific article published on 17 January 2009
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
Combinatorial strategies with ...... ir of the injured spinal cord.
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Combinatorial strategies with ...... ir of the injured spinal cord.
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Combinatorial strategies with ...... ir of the injured spinal cord.
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Combinatorial strategies with ...... ir of the injured spinal cord.
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Combinatorial strategies with ...... ir of the injured spinal cord.
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Combinatorial strategies with ...... ir of the injured spinal cord.
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Combinatorial strategies with ...... ir of the injured spinal cord.
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Caitlin E Hill
Jenny Fortun
Mary Bartlett Bunge
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P304
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10.1016/J.NEULET.2008.08.092
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P577
2009-01-17T00:00:00Z