Functional integration of striatal allografts in a primate model of Huntington's disease.
about
Neurobehavioral development of common marmoset monkeys.Stem cell-based models and therapies for neurodegenerative diseasesUnilateral transplantation of human primary fetal tissue in four patients with Huntington's disease: NEST-UK safety report ISRCTN no 36485475.Aspects of PET imaging relevant to the assessment of striatal transplantation in Huntington's disease.Cell-based therapies for Huntington's disease.Cell replacement therapies for central nervous system disorders.Dopamine and synaptic plasticity in the neostriatum.Quantitative molecular assessment of chimerism across tissues in marmosets and tamarins.Differentiation of pluripotent stem cells into striatal projection neurons: a pure MSN fate may not be sufficient.Opinion: neural stem cell therapy for neurological diseases: dreams and reality.Clinical and research advances in Huntington's disease.Transplanted fetal striatum in Huntington's disease: phenotypic development and lack of pathology.The Current Status of Neural Grafting in the Treatment of Huntington's Disease. A ReviewAssociative plasticity in striatal transplants.Human pluripotent stem cell therapy for Huntington's disease: technical, immunological, and safety challenges human pluripotent stem cell therapy for Huntington's disease: technical, immunological, and safety challenges.Novel therapies in the search for a cure for Huntington's diseaseThe design of clinical trials for cell transplantation into the central nervous system.Therapeutic rAAVrh10 Mediated SOD1 Silencing in Adult SOD1(G93A) Mice and Nonhuman Primates.Brain regeneration in physiology and pathology: the immune signature driving therapeutic plasticity of neural stem cellsStem cells and neurodegenerative diseases.Widespread spinal cord transduction by intrathecal injection of rAAV delivers efficacious RNAi therapy for amyotrophic lateral sclerosis.The fate of cell grafts for the treatment of Huntington's disease: the post-mortem evidence.Graphene-based nanoprobes for molecular diagnostics.In situ hybridization study of CYP2D mRNA in the common marmoset brainMicrotransplantation of whole ganglionic eminence cells ameliorates motor deficit, enlarges the volume of grafts, and prolongs survival in a rat model of Huntington's disease.Progressive striatal and cortical dopamine receptor dysfunction in Huntington's disease: a PET study.Developmental behavior of embryonic myogenic progenitors transplanted into adult muscle as revealed by desmin LacZ recombinant gene.Selection of suitable reference genes for mRNA quantification studies using common marmoset tissues.Neuronal grafts for Huntington's disease.Isolation and characterization of dendritic cells from common marmosets for preclinical cell therapy studies.Cross-species comparison of behavioral neurodevelopmental milestones in the common marmoset monkey and human child.Setback for Huntington's disease therapy
P2860
Q30375150-958C9984-DCFF-4070-BC93-8B771A3CCA86Q30451005-B90030AE-6083-437E-8320-EEC9866146ACQ31118947-6FB2F944-F44C-4544-BE9B-15A27C922DA3Q31797771-CBE392EE-192D-4900-BB1A-A0975881C328Q33849242-C41D4F0C-C96C-4BA6-A1A2-7BD591EB5CFEQ33921503-A518890E-66A6-4447-979F-9E980A6AF188Q33989366-3C60FA6E-9A6E-4B37-943D-812050B2B156Q34202085-32A2D1AD-F578-44C5-9F13-758F0709123DQ34608910-FB67B650-C2D9-4FCC-9EB9-55D301C804F2Q34623843-70441F30-D5AE-4F9A-BB7A-B9022E6A873BQ35105749-BE0148C0-9745-4F07-865C-AFF51C4E4964Q35579484-CBAFC760-5145-44F1-8B52-BF08E5DE5C45Q35597607-0B320F64-066B-485D-8B84-8B7E8DA8C57FQ35624975-A1479CCC-A9CF-4484-9AB8-ADE5DCB5DEC4Q35648168-E8E8DF96-04E4-4503-A059-A2578B7B00FAQ35907626-DE8A45DB-DCB5-4D6B-A799-8F0EA0474EF5Q36045409-F5DD0D8B-D6F1-4F50-81CA-1212B7B8F0A7Q36543516-1835ADD5-C6A7-4636-AB37-A5DB8D3BFEE6Q36554467-7EC0AD92-152F-4A89-9AA2-7B48854E7762Q37119760-E6885A8B-4419-40BA-9845-ACF9185454E3Q37463967-34F0FBD3-3ECA-4779-9395-109D0DFCBBDAQ38168592-05766F8F-DC36-44F3-86B4-49FC0F5237F4Q38566823-51109941-9C51-4699-AEED-E0AF3B13EB77Q42108549-0A4799A2-1FBB-4CE6-99F2-9A67696A493CQ43664697-E0C0EEAF-90CE-4A2A-9E7D-3FAA81CC7189Q44400030-AF28B57F-780E-42A8-9E46-8067F8CCD18AQ44590803-93FBC7AE-E1D7-4D9D-B26E-07DFFD73282AQ44957486-AC240C70-093A-4E12-A1CA-0E517809CD47Q45296055-09876560-00D8-484F-9591-0954ABA1BF6BQ46267453-5E02D9DC-D12C-4291-BF74-ECD246EC7A55Q46327863-6CD901A8-1FBF-433A-82B2-5CC02C300B03Q74441201-4FD49D83-B442-4DC9-AB50-9215B484AC46
P2860
Functional integration of striatal allografts in a primate model of Huntington's disease.
description
1998 nî lūn-bûn
@nan
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
1998年论文
@zh
1998年论文
@zh-cn
name
Functional integration of striatal allografts in a primate model of Huntington's disease.
@en
Functional integration of striatal allografts in a primate model of Huntington's disease.
@nl
type
label
Functional integration of striatal allografts in a primate model of Huntington's disease.
@en
Functional integration of striatal allografts in a primate model of Huntington's disease.
@nl
prefLabel
Functional integration of striatal allografts in a primate model of Huntington's disease.
@en
Functional integration of striatal allografts in a primate model of Huntington's disease.
@nl
P2093
P2860
P356
P1433
P1476
Functional integration of striatal allografts in a primate model of Huntington's disease
@en
P2093
A L Kendall
E M Torres
F D Rayment
R M Ridley
P2860
P2888
P304
P356
10.1038/NM0698-727
P407
P577
1998-06-01T00:00:00Z