Behavioral improvement in a primate Parkinson's model is associated with multiple homeostatic effects of human neural stem cells. - Wikidata - awgldk - TriplyDB

Behavioral improvement in a primate Parkinson's model is associated with multiple homeostatic effects of human neural stem cells.

Behavioral improvement in a primate Parkinson's model is associated with multiple homeostatic effects of human neural stem cells.

http://www.wikidata.org/entity/Q35850739

about

Neuroprotective effects of edaravone-administration on 6-OHDA-treated dopaminergic neurons A Compendium of Preparation and Application of Stem Cells in Parkinson's Disease: Current Status and Future Prospects Induced pluripotent stem cells in Parkinson's disease: scientific and clinical challenges Potential of Neural Stem Cell-Based Therapy for Parkinson's Disease Stem cell transplantation therapy in Parkinson's disease Patient-specific induced pluripotent stem cells in neurological disease modeling: the importance of nonhuman primate models Immortalization of neuronal progenitors using SV40 large T antigen and differentiation towards dopaminergic neurons Systems biology of the vervet monkey Neurogenic bowel dysfunction in patients with spinal cord injury, myelomeningocele, multiple sclerosis and Parkinson's disease Intrastriatal transplantation of adult human neural crest-derived stem cells improves functional outcome in parkinsonian rats Effects of neonatal neural progenitor cell implantation on adult neuroanatomy and cognition in the Ts65Dn model of Down syndrome Learning-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 site Transdifferentiation-Induced Neural Stem Cells Promote Recovery of Middle Cerebral Artery Stroke Rats Advances in Stem Cell Research- A Ray of Hope in Better Diagnosis and Prognosis in Neurodegenerative Diseases Interneuron Progenitor Transplantation to Treat CNS Dysfunction Differentiated human midbrain-derived neural progenitor cells express excitatory strychnine-sensitive glycine receptors containing α2β subunits Communication via gap junctions underlies early functional and beneficial interactions between grafted neural stem cells and the host Deriving dopaminergic neurons for clinical use. A practical approach Homing 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 field Neurogenic 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 brain Constraining 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 future Embryonic substantia nigra grafts in the mesencephalon send neurites to the host striatum in non-human primate after overexpression of GDNF Microglial activation mediates host neuronal survival induced by neural stem cells.Clinical application of stem cell therapy in Parkinson's disease Cellular 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 repair Dopamine 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-28A11A14754E Q26746033-70BC97A5-BBB9-45FD-814B-4DD20329EDA6 Q26772879-301C7182-E59B-4E08-949B-BDF8DD2B386D Q26776154-256A95E6-7E9C-4CD4-A1A0-941A59F0D557 Q26778682-FA3D325E-AD87-4DD6-824A-9C72149B16E7 Q26825524-F8B8DC44-25EF-4C69-BBB1-06556AD4B46D Q26829548-10CDEB0D-6DB7-4540-A696-BB097D16A81F Q26995525-381BBC3B-3DB1-4EE6-9958-3FB61AF589B0 Q27012533-917F5664-733A-4429-9ACB-59D0BE383886 Q27301260-EDFE9091-854A-49B2-BF63-19A892EBA2A4 Q27303804-871FF170-A2D6-4AE1-81A3-82AD72B0D355 Q27304388-59EE7DF0-BCEA-4FD1-A084-A902F4B75D01 Q27306345-67207DF1-71B5-4C07-815A-F1481166E846 Q27319949-D308DE6C-50AF-45F1-AD16-D34ED8034424 Q28067160-CCC49689-0593-48A1-9602-4A467EFBA233 Q28077603-02878DFE-27CC-4D68-828F-F617D21D6CCB Q28483652-5F2C5104-E4A6-4E01-95E8-4A494FBAFC8D Q30493781-95E2B1F8-36AA-4BAA-8850-60884BDDC7A1 Q30537606-6D940310-9BA6-4D7A-9BEE-20253263F05D Q30571926-5E4DEE76-8BB5-446E-B5C4-8A00EA339578 Q30579312-87ABC08D-E50C-4135-AFD6-6B5EEF1E79E2 Q30651121-2534E77E-B54F-481B-8A26-AF7B00CA2DAE Q33569259-CA41BEC4-061F-4485-975C-8846FD9CFC69 Q33582786-42206D45-C93B-4EC6-9B32-B15CAB16A91F Q33732794-12FDFBDF-34B6-43C5-920E-46A926AAB654 Q33743890-F4C4D3FA-8776-4D13-B57E-B02A57C7D043 Q33771698-4D08D86B-1C01-4A8C-BDBB-E8D17DFCEC5F Q33805034-67E1F3E1-55CC-4D09-8868-AEA44F858E7F Q33818127-D21F48BE-08F6-4776-B035-17E32EBBEFA1 Q33897505-870C9684-78D5-4A00-8409-4FA08E277269 Q34011453-7A6AEA7A-A058-4B14-993C-F96D2B58AC06 Q34118131-D7B71157-A5A4-405C-8394-4B8D2224375B Q34157142-15161226-A1C2-4331-9705-F274C428B4A7 Q34171271-589113BD-8158-45FB-8AE4-E7F37D2016B0 Q34310404-CA67D438-B252-4D12-848E-42AB3968C5C2 Q34315105-42D335BC-210F-45D8-8DF5-A490DBD4216C Q34470920-B387727A-2D45-4565-A4B8-DB837305E158 Q34480963-7498DD12-7DE6-482C-B4AB-C574E911AA5C Q34720981-2F9D26D5-4FDC-4262-9D82-F50B70751DD2 Q34775239-076D6AAB-CFBA-409F-9A0C-755CE8DADA70

P2860

Behavioral improvement in a primate Parkinson's model is associated with multiple homeostatic effects of human neural stem cells.

http://www.wikidata.org/entity/Q35850739

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

P1433

Q35850739-5F1A7FF9-2041-4C5B-AE16-A3CFB718B152

P1476

Q35850739-1C012E3E-5EBA-4B17-A5EE-809AB22B849D

P2093

Q35850739-05836556-33FC-45C7-9319-7B7BB398696B

Q35850739-18658051-CA55-4425-8BCA-5AA0217835BC

Q35850739-227C8BEF-03B2-4739-B8C7-5EA223E04B11

Q35850739-29F9EBF4-5B58-47A9-A733-E556F251DC04

Q35850739-2F3C87F1-E941-438E-AB3B-E79C4ED2E46C

Q35850739-33000BC3-152E-48F6-A9F3-D36187C1A86E

Q35850739-37FA53CC-1CB1-46B4-904A-78949ACD2100

Q35850739-3E2775D4-D052-434B-8677-B31A3BB2E0FE

Q35850739-3EE63F57-4644-44E2-B7D2-6F27555BE3CB

Q35850739-43DF4B74-CCBD-4847-9F53-C9A712CC4208

P2860

Q35850739-03156E28-029B-47DF-8994-5C24D7F576D0

Q35850739-11586F69-1789-4613-8C85-BD645FE82FCE

Q35850739-11FE1B6D-0564-41A0-A00E-B4738FCA4A84

Q35850739-1436965C-0D1C-4DEE-81A5-4FD7140ECE35

Q35850739-18D38A85-6526-4A35-88B8-C4081F78E2B5

Q35850739-2482A15F-453D-4F71-82A2-71EBC5B93CDD

Q35850739-32776CD0-8F51-482C-AE66-F4F98CEA2E84

Q35850739-49C15532-FFDA-4F2C-8DDC-8FEDCBB1D8FC

Q35850739-4D92F8D6-5639-4F60-90CD-394E5B333362

Q35850739-50A4CC02-6024-4E4B-B3D4-C6E390C3259F

P304

Q35850739-EFBC61C8-3C58-4F5F-9DAB-56649DF14473

P31

Q35850739-F9F22681-E2F0-4BD1-9E92-D47A2B3FFEE1

P356

Q35850739-E17DCF01-2055-4FE8-92F0-3A81AA66AC6A

P407

Q35850739-BF85D285-0D7D-4B1B-8883-AFE39B6175AB

P433

Q35850739-AAE54F0D-7BA0-4D83-88FB-840F18F2C591

P478

Q35850739-CC76634A-4290-448E-9110-32B88F6DA3AF

P50

Q35850739-7924D2A5-7476-4879-BCDD-3992AB63666B

P577

Q35850739-248C56E5-131F-4BF7-98F4-EEE040936DD2

P5875

Q35850739-28E06A4D-DBA8-442D-B51D-8B6C43B4848B

P698

Q35850739-EE549116-7701-40E2-A586-1FC6B2217BE3

P921

Q35850739-F0F0B3C7-5732-4AC0-B764-B6639E2891F9

P932

Q35850739-408477AB-5F73-4FE2-95D7-0A0949CEB5D3

P356

PNAS.0704091104

P1433

Proceedings of the National Academy of Sciences of the United States of America

P1476

Behavioral improvement in a pr ...... cts of human neural stem cells

@en

P2093

Barbara C Blanchard

http://www.w3.org/2001/XMLSchema#string

D Eugene Redmond

http://www.w3.org/2001/XMLSchema#string

Dustin R Wakeman

http://www.w3.org/2001/XMLSchema#string

Eleni A Markakis

http://www.w3.org/2001/XMLSchema#string

Evan Y Snyder

http://www.w3.org/2001/XMLSchema#string

Jitka Ourednik

http://www.w3.org/2001/XMLSchema#string

John D Elsworth

http://www.w3.org/2001/XMLSchema#string

John R Sladek

http://www.w3.org/2001/XMLSchema#string

Richard L Sidman

http://www.w3.org/2001/XMLSchema#string

Robert H Roth

http://www.w3.org/2001/XMLSchema#string

P2860

Functional recovery in parkinsonian monkeys treated with GDNF

Directed migration of neural stem cells to sites of CNS injury by the stromal cell-derived factor 1alpha/CXC chemokine receptor 4 pathway

Cellular replacement therapy for Parkinson's disease--where we are today?

Direct isolation of human central nervous system stem cells

Embryonic stem cells develop into functional dopaminergic neurons after transplantation in a Parkinson rat model

Thrombospondins are astrocyte-secreted proteins that promote CNS synaptogenesis

Functional recovery following traumatic spinal cord injury mediated by a unique polymer scaffold seeded with neural stem cells.

Endogenous Nkx2.2+/Olig2+ oligodendrocyte precursor cells fail to remyelinate the demyelinated adult rat spinal cord in the absence of astrocytes.

Establishment and properties of neural stem cell clones: plasticity in vitro and in vivo.

Segregation of human neural stem cells in the developing primate forebrain.

P304

12175-12180

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1073/PNAS.0704091104

http://www.w3.org/2001/XMLSchema#string

P407

P433

29

http://www.w3.org/2001/XMLSchema#string

P478

104

http://www.w3.org/2001/XMLSchema#string

P50

Kimberly B Bjugstad

P577

2007-06-22T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

6250102

http://www.w3.org/2001/XMLSchema#string

P698

17586681

http://www.w3.org/2001/XMLSchema#string

P921

Parkinson's disease

P932

1896134

http://www.w3.org/2001/XMLSchema#string