Efficient differentiation of human embryonic stem cells into oligodendrocyte progenitors for application in a rat contusion model of spinal cord injury.
about
Transplantation of specific human astrocytes promotes functional recovery after spinal cord injuryOligodendrocyte Precursor Cells in Spinal Cord Injury: A Review and UpdateCell Therapy Augments Functional Recovery Subsequent to Spinal Cord Injury under Experimental ConditionsHuman embryonic stem cell-derived oligodendrocytes: protocols and perspectivesThe Potential for iPS-Derived Stem Cells as a Therapeutic Strategy for Spinal Cord Injury: Opportunities and ChallengesNeural differentiation from pluripotent stem cells: The role of natural and synthetic extracellular matrixComplete rat spinal cord transection as a faithful model of spinal cord injury for translational cell transplantationMicroRNA expression profiling of oligodendrocyte differentiation from human embryonic stem cells.Four decades of leading-edge research in the reproductive and developmental sciences: the Infant Primate Research Laboratory at the University of Washington National Primate Research Center.Defined and Scalable Differentiation of Human Oligodendrocyte Precursors from Pluripotent Stem Cells in a 3D Culture System.What is the potential of oligodendrocyte progenitor cells to successfully treat human spinal cord injury?Human induced pluripotent stem cells differentiation into oligodendrocyte progenitors and transplantation in a rat model of optic chiasm demyelinationThe effects of local and general hypothermia on temperature profiles of the central nervous system following spinal cord injury in rats.Impact of induced pluripotent stem cells on the study of central nervous system diseaseHuman embryonic stem cell-derived oligodendrocyte progenitors aid in functional recovery of sensory pathways following contusive spinal cord injuryMicroRNAs: modulators of cell identity, and their applications in tissue engineeringEarly intervention for spinal cord injury with human induced pluripotent stem cells oligodendrocyte progenitors.Neural tissue engineering using embryonic and induced pluripotent stem cells.Achieving stable human stem cell engraftment and survival in the CNS: is the future of regenerative medicine immunodeficient?Cell transplantation for spinal cord injury: a systematic reviewQuantitative temporal proteomic analysis of human embryonic stem cell differentiation into oligodendrocyte progenitor cells.Phase 1 Trial of Autologous Bone Marrow Stem Cell Transplantation in Patients with Spinal Cord Injury.Update on stem cell therapy for cerebral palsyInduced pluripotent stem cells and neurodegenerative diseases.Generation and applications of human pluripotent stem cells induced into neural lineages and neural tissues.Concise review: human pluripotent stem cells in the treatment of spinal cord injury.Epidermal stem cells and their epigenetic regulation.The known-unknowns in spinal cord injury, with emphasis on cell-based therapies - a review with suggestive arenas for research.Human oligodendrocytes in remyelination research.Neural Subtype Specification from Human Pluripotent Stem Cells.Overcoming Monocarboxylate Transporter 8 (MCT8)-Deficiency to Promote Human Oligodendrocyte Differentiation and Myelination.The emerging role of long non-coding RNA in spinal cord injury.Human Neural Stem Cell Transplantation in Chronic Cervical Spinal Cord Injury: Functional Outcomes at 12 Months in a Phase II Clinical Trial.
P2860
Q21135533-706AD54C-600B-4391-88A4-AAB0BD6F01C2Q26780518-AFDB8CA0-D666-41F2-AAA2-CE3C335529B8Q26799335-131A47A9-3E4D-4D17-BFA6-19749DC4A176Q26829414-3101AE5A-55BA-4A8A-83DB-47EDD0A08A37Q26860309-1CA40708-3922-46E5-BEF3-140CF0A07544Q27007542-56ED9ACA-D82C-46FC-B4A5-AD91ED95BDC4Q30844257-C8A506AA-4E4A-4EF9-ACC0-5C4269BBA5B9Q33576848-0F5B5997-A790-4CE2-B240-D02FE646E89DQ33750568-75EE2CC8-954C-43F6-9E7F-05378EA49A11Q33795348-570F5D45-25C3-41DA-A863-ED3E1FA5CEA8Q34029285-0F44CA22-4263-4FD0-9C17-BDAA20E1DE1AQ34085826-E032A63A-150B-4CF3-B420-24E3C610D2A3Q34116927-E76C5843-3378-4726-BBB2-B3FEF58A40FEQ34161356-3E1CBA01-2BFD-43C1-976E-EFCF771B7E84Q34455327-6F842578-14EF-4DEF-9A34-D619349A84D5Q34676147-16742B34-C74C-4249-AF75-215D0E18A79FQ35031911-A3C139E9-2C9B-4AD2-99AC-38C1C2FFA087Q35579271-7D29C059-E1D5-4579-8B56-48A82F23A456Q36111849-CDEE630F-4424-4BA9-AF98-32909DA31310Q36635432-703C89B2-62DE-4CD6-A895-F2229A0E70FEQ37058194-6B7EC456-BA5A-4A58-89AD-5C333DF5E93BQ37084358-314397A2-249B-42AD-B6B1-28B4513889A3Q37836913-8A565FFE-D6E0-4C4B-AA0B-D7641B4175A4Q37858416-8AE9CE17-940F-42D8-AD21-0CB5505F3DD1Q37998022-221353AA-951A-4F16-A158-7FBFAA18F969Q38021973-4B502C5A-B330-41EC-9473-83B0B29C169AQ38133731-E9A3FD36-ED99-4A54-BD51-5CE745F52023Q38198731-F6671763-4128-4202-ADAC-10604DE59B61Q38271155-76789EA0-55E4-44E9-ADD5-D16D45BAAC8DQ38998787-4BC652E9-172C-47F5-B96B-EDF2E75AA804Q47129278-9C1BD607-0A62-4596-9EDB-0BAE8E4D49D8Q48116939-1F752999-AE65-4CA2-A631-36637C0109F0Q50130512-AC481E04-894A-4B0F-8918-7B6F86FEF7DC
P2860
Efficient differentiation of human embryonic stem cells into oligodendrocyte progenitors for application in a rat contusion model of spinal cord injury.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh-hant
name
Efficient differentiation of h ...... n model of spinal cord injury.
@en
Efficient differentiation of h ...... n model of spinal cord injury.
@nl
type
label
Efficient differentiation of h ...... n model of spinal cord injury.
@en
Efficient differentiation of h ...... n model of spinal cord injury.
@nl
prefLabel
Efficient differentiation of h ...... n model of spinal cord injury.
@en
Efficient differentiation of h ...... n model of spinal cord injury.
@nl
P2093
P2860
P1476
Efficient differentiation of h ...... n model of spinal cord injury.
@en
P2093
Angelo H All
Brian S Letzen
Candace L Kerr
Christine M Hill
Gracee Agrawal
John D Gearhart
P2860
P304
P356
10.3109/00207450903585290
P577
2010-04-01T00:00:00Z