Behavioral improvement in a primate Parkinson's model is associated with multiple homeostatic effects of human neural stem cells.
about
Neuroprotective effects of edaravone-administration on 6-OHDA-treated dopaminergic neuronsA Compendium of Preparation and Application of Stem Cells in Parkinson's Disease: Current Status and Future ProspectsInduced pluripotent stem cells in Parkinson's disease: scientific and clinical challengesPotential of Neural Stem Cell-Based Therapy for Parkinson's DiseaseStem cell transplantation therapy in Parkinson's diseasePatient-specific induced pluripotent stem cells in neurological disease modeling: the importance of nonhuman primate modelsImmortalization of neuronal progenitors using SV40 large T antigen and differentiation towards dopaminergic neuronsSystems biology of the vervet monkeyNeurogenic bowel dysfunction in patients with spinal cord injury, myelomeningocele, multiple sclerosis and Parkinson's diseaseIntrastriatal transplantation of adult human neural crest-derived stem cells improves functional outcome in parkinsonian ratsEffects of neonatal neural progenitor cell implantation on adult neuroanatomy and cognition in the Ts65Dn model of Down syndromeLearning-induced synaptic potentiation in implanted neural precursor cell-derived neurons.Stem cell recruitment of newly formed host cells via a successful seduction? Filling the gap between neurogenic niche and injured brain siteTransdifferentiation-Induced Neural Stem Cells Promote Recovery of Middle Cerebral Artery Stroke RatsAdvances in Stem Cell Research- A Ray of Hope in Better Diagnosis and Prognosis in Neurodegenerative DiseasesInterneuron Progenitor Transplantation to Treat CNS DysfunctionDifferentiated human midbrain-derived neural progenitor cells express excitatory strychnine-sensitive glycine receptors containing α2β subunitsCommunication via gap junctions underlies early functional and beneficial interactions between grafted neural stem cells and the hostDeriving dopaminergic neurons for clinical use. A practical approachHoming of neural stem cells from the venous compartment into a brain infarct does not involve conventional interactions with vascular endothelium.Human neural stem cells survive long term in the midbrain of dopamine-depleted monkeys after GDNF overexpression and project neurites toward an appropriate target.Guided migration of neural stem cells derived from human embryonic stem cells by an electric fieldNeurogenic and non-neurogenic functions of endogenous neural stem cells.Neural progenitor cells attenuate inflammatory reactivity and neuronal loss in an animal model of inflamed AD brainConstraining the Pluripotent Fate of Human Embryonic Stem Cells for Tissue Engineering and Cell Therapy - The Turning Point of Cell-Based Regenerative Medicine.Live attenuated tetravalent dengue virus host range vaccine is immunogenic in African green monkeys following a single vaccination.The stem cell secretome and its role in brain repair.Blockade of peroxynitrite-induced neural stem cell death in the acutely injured spinal cord by drug-releasing polymer.Cell-based therapies for Parkinson's disease: past, present, and futureEmbryonic substantia nigra grafts in the mesencephalon send neurites to the host striatum in non-human primate after overexpression of GDNFMicroglial activation mediates host neuronal survival induced by neural stem cells.Clinical application of stem cell therapy in Parkinson's diseaseCellular repair in the parkinsonian nonhuman primate brain.Impact of degradable macromer content in a poly(ethylene glycol) hydrogel on neural cell metabolic activity, redox state, proliferation, and differentiation.Embedding the Future of Regenerative Medicine into the Open Epigenomic Landscape of Pluripotent Human Embryonic Stem Cells.Expression sequence tag library derived from peripheral blood mononuclear cells of the chlorocebus sabaeus.Moving stem cells to the clinic: potential and limitations for brain repairDopamine release from transplanted neural stem cells in Parkinsonian rat striatum in vivo.Self-renewal induced efficiently, safely, and effective therapeutically with one regulatable gene in a human somatic progenitor cell.Induction of pluripotent stem cells from a cynomolgus monkey using a polycistronic simian immunodeficiency virus-based vector, differentiation toward functional cardiomyocytes, and generation of stably expressing reporter lines.
P2860
Q21262040-35E3FC4C-2CB2-4255-BE5D-28A11A14754EQ26746033-70BC97A5-BBB9-45FD-814B-4DD20329EDA6Q26772879-301C7182-E59B-4E08-949B-BDF8DD2B386DQ26776154-256A95E6-7E9C-4CD4-A1A0-941A59F0D557Q26778682-FA3D325E-AD87-4DD6-824A-9C72149B16E7Q26825524-F8B8DC44-25EF-4C69-BBB1-06556AD4B46DQ26829548-10CDEB0D-6DB7-4540-A696-BB097D16A81FQ26995525-381BBC3B-3DB1-4EE6-9958-3FB61AF589B0Q27012533-917F5664-733A-4429-9ACB-59D0BE383886Q27301260-EDFE9091-854A-49B2-BF63-19A892EBA2A4Q27303804-871FF170-A2D6-4AE1-81A3-82AD72B0D355Q27304388-59EE7DF0-BCEA-4FD1-A084-A902F4B75D01Q27306345-67207DF1-71B5-4C07-815A-F1481166E846Q27319949-D308DE6C-50AF-45F1-AD16-D34ED8034424Q28067160-CCC49689-0593-48A1-9602-4A467EFBA233Q28077603-02878DFE-27CC-4D68-828F-F617D21D6CCBQ28483652-5F2C5104-E4A6-4E01-95E8-4A494FBAFC8DQ30493781-95E2B1F8-36AA-4BAA-8850-60884BDDC7A1Q30537606-6D940310-9BA6-4D7A-9BEE-20253263F05DQ30571926-5E4DEE76-8BB5-446E-B5C4-8A00EA339578Q30579312-87ABC08D-E50C-4135-AFD6-6B5EEF1E79E2Q30651121-2534E77E-B54F-481B-8A26-AF7B00CA2DAEQ33569259-CA41BEC4-061F-4485-975C-8846FD9CFC69Q33582786-42206D45-C93B-4EC6-9B32-B15CAB16A91FQ33732794-12FDFBDF-34B6-43C5-920E-46A926AAB654Q33743890-F4C4D3FA-8776-4D13-B57E-B02A57C7D043Q33771698-4D08D86B-1C01-4A8C-BDBB-E8D17DFCEC5FQ33805034-67E1F3E1-55CC-4D09-8868-AEA44F858E7FQ33818127-D21F48BE-08F6-4776-B035-17E32EBBEFA1Q33897505-870C9684-78D5-4A00-8409-4FA08E277269Q34011453-7A6AEA7A-A058-4B14-993C-F96D2B58AC06Q34118131-D7B71157-A5A4-405C-8394-4B8D2224375BQ34157142-15161226-A1C2-4331-9705-F274C428B4A7Q34171271-589113BD-8158-45FB-8AE4-E7F37D2016B0Q34310404-CA67D438-B252-4D12-848E-42AB3968C5C2Q34315105-42D335BC-210F-45D8-8DF5-A490DBD4216CQ34470920-B387727A-2D45-4565-A4B8-DB837305E158Q34480963-7498DD12-7DE6-482C-B4AB-C574E911AA5CQ34720981-2F9D26D5-4FDC-4262-9D82-F50B70751DD2Q34775239-076D6AAB-CFBA-409F-9A0C-755CE8DADA70
P2860
Behavioral improvement in a primate Parkinson's model is associated with multiple homeostatic effects of human neural stem cells.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Behavioral improvement in a pr ...... ts of human neural stem cells.
@ast
Behavioral improvement in a pr ...... ts of human neural stem cells.
@en
type
label
Behavioral improvement in a pr ...... ts of human neural stem cells.
@ast
Behavioral improvement in a pr ...... ts of human neural stem cells.
@en
prefLabel
Behavioral improvement in a pr ...... ts of human neural stem cells.
@ast
Behavioral improvement in a pr ...... ts of human neural stem cells.
@en
P2093
P2860
P356
P1476
Behavioral improvement in a pr ...... cts of human neural stem cells
@en
P2093
Barbara C Blanchard
D Eugene Redmond
Dustin R Wakeman
Eleni A Markakis
Evan Y Snyder
Jitka Ourednik
John D Elsworth
John R Sladek
Richard L Sidman
Robert H Roth
P2860
P304
12175-12180
P356
10.1073/PNAS.0704091104
P407
P577
2007-06-22T00:00:00Z