Transplantation strategies to promote repair of the injured spinal cord.
about
Single-walled carbon nanotubes chemically functionalized with polyethylene glycol promote tissue repair in a rat model of spinal cord injuryTranslational spinal cord injury research: preclinical guidelines and challengesPotassium channel antagonists 4-aminopyridine and the T-butyl carbamate derivative of 4-aminopyridine improve hind limb function in chronically non-ambulatory dogs; a blinded, placebo-controlled trialA chemical screen identifies novel compounds that overcome glial-mediated inhibition of neuronal regeneration.A guidance channel seeded with autologous Schwann cells for repair of cauda equina injury in a primate modelSuspension matrices for improved Schwann-cell survival after implantation into the injured rat spinal cord.Grafting of human bone marrow stromal cells into spinal cord injury: a comparison of delivery methods.Comparison of polymer scaffolds in rat spinal cord: a step toward quantitative assessment of combinatorial approaches to spinal cord repairExtensive cell migration, axon regeneration, and improved function with polysialic acid-modified Schwann cells after spinal cord injury.Length-scale mediated adhesion and directed growth of neural cells by surface-patterned poly(ethylene glycol) hydrogelsThe assessment of adeno-associated vectors as potential intrinsic treatments for brainstem axon regeneration.Modulating Sema3A signal with a L1 mimetic peptide is not sufficient to promote motor recovery and axon regeneration after spinal cord injury.Aspiration of a cervical spinal contusion injury in preparation for delayed peripheral nerve grafting does not impair forelimb behavior or axon regenerationThe Utility of 3D Ultramicroscopy for Evaluating Cellular Therapies After Spinal Cord Injury.Multipotent skin-derived precursors: adult neural crest-related precursors with therapeutic potential.Neurodegeneration and cell replacement.Matrices and scaffolds for DNA delivery in tissue engineeringSchwann cell LRP1 regulates remak bundle ultrastructure and axonal interactions to prevent neuropathic pain.Axon regeneration through scaffold into distal spinal cord after transection.Multiple channel bridges for spinal cord injury: cellular characterization of host response.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.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.G. Heiner Sell memorial lecture: neuronal plasticity after spinal cord injury: significance for present and future treatments.Mesenchymal stem cells as an alternative for Schwann cells in rat spinal cord injury.
P2860
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P2860
Transplantation strategies to promote repair of the injured spinal cord.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
2003年论文
@zh
2003年论文
@zh-cn
name
Transplantation strategies to promote repair of the injured spinal cord.
@ast
Transplantation strategies to promote repair of the injured spinal cord.
@en
type
label
Transplantation strategies to promote repair of the injured spinal cord.
@ast
Transplantation strategies to promote repair of the injured spinal cord.
@en
prefLabel
Transplantation strategies to promote repair of the injured spinal cord.
@ast
Transplantation strategies to promote repair of the injured spinal cord.
@en
P1476
Transplantation strategies to promote repair of the injured spinal cord.
@en
P2093
Damien D Pearse
Mary Bartlett Bunge
P433
P577
2003-07-01T00:00:00Z