about
Differences between the neurogenic and proliferative abilities of Müller glia with stem cell characteristics and the ciliary epithelium from the adult human eyeHuman Müller stem cell (MIO-M1) transplantation in a rat model of glaucoma: survival, differentiation, and integration.MIO-M1 cells and similar muller glial cell lines derived from adult human retina exhibit neural stem cell characteristics.Optimized feline vitrectomy technique for therapeutic stem cell delivery to the inner retinaMatrix metalloproteinases in disease and repair processes in the anterior segment.Amyloid β Peptide Induces Apoptosis Through P2X7 Cell Death Receptor in Retinal Cells: Modulation by Marine Omega-3 Fatty Acid DHA and EPADownregulation of the Canonical WNT Signaling Pathway by TGFβ1 Inhibits Photoreceptor Differentiation of Adult Human Müller Glia with Stem Cell Characteristics.Current prospects for adult stem cell-based therapies in ocular repair and regeneration.Allogeneic Transplantation of Müller-Derived Retinal Ganglion Cells Improves Retinal Function in a Feline Model of Ganglion Cell DepletionHuman Müller glia with stem cell characteristics differentiate into retinal ganglion cell (RGC) precursors in vitro and partially restore RGC function in vivo following transplantation.Transplantation of photoreceptors derived from human Muller glia restore rod function in the P23H rat.Strategies for optic nerve rescue and regeneration in glaucoma and other optic neuropathies.Current approaches and future prospects for stem cell rescue and regeneration of the retina and optic nerve.Glial cell expression of hepatocyte growth factor in vitreoretinal proliferative disease.Comparison of proteomic profiles in the zebrafish retina during experimental degeneration and regeneration.Müller glia as an important source of cytokines and inflammatory factors present in the gliotic retina during proliferative vitreoretinopathy.Characteristics and vitreoretinal management of retinal detachment in eyes with Boston keratoprosthesis.The human Müller cell line MIO-M1 expresses opsins.Acquisition of RGC phenotype in human Müller glia with stem cell characteristics is accompanied by upregulation of functional nicotinic acetylcholine receptors.Hydroquinone induces oxidative and mitochondrial damage to human retinal Müller cells (MIO-M1).Hyperglycaemia-induced pro-inflammatory responses by retinal Müller glia are regulated by the receptor for advanced glycation end-products (RAGE).Characterization of the basic fibroblast growth factor-evoked proliferation of the human Müller cell line, MIO-M1.Adoptive immunotherapy administered via the hepatic artery and intralesional interleukin-2 in hepatocellular carcinoma.Short Communication: Contribution of Voltage-Gated Sodium Channels to the Rabbit Cone Electroretinograms.Detection of interferon gamma mRNA in the mucosa of patients with coeliac disease by in situ hybridisationHuman corneal epithelial cells require MMP-1 for HGF-mediated migration on collagen I.Gene therapy: new "magic bullets" to prevent ocular scarring.Protective effects of memantine and epicatechin on catechol-induced toxicity on Müller cells in vitro.Triamcinolone attenuates macrophage/microglia accumulation associated with NMDA-induced RGC death and facilitates survival of Müller stem cell grafts.Protective Effects of Memantine on Hydroquinone-Treated Human Retinal Pigment Epithelium Cells and Human Retinal Müller Cells.Gene expression and protein distribution of ADAMTSL-4 in human iris, choroid and retina.Brimonidine Can Prevent In Vitro Hydroquinone Damage on Retinal Pigment Epithelium Cells and Retinal Müller Cells.Effect of various platelet preparations on retinal muller cells.Distribution of Müller stem cells within the neural retina: evidence for the existence of a ciliary margin-like zone in the adult human eye.Effects of light on retinal pigment epithelial cells, neurosensory retinal cells and Müller cells treated with Brilliant Blue G.Sialoadhesin expression in intact degenerating retinas and following transplantation.Expression and localisation of BDNF, NT4 and TrkB in proliferative vitreoretinopathy.Chondroitin sulfate proteoglycans and microglia prevent migration and integration of grafted Müller stem cells into degenerating retina.Posterior Vitreous Detachment and the Posterior Hyaloid Membrane.Genetic background and light-dependent progression of photoreceptor cell degeneration in Prominin-1 knockout mice.
P50
Q28250186-E5EF19B7-8A6B-4D15-AA7D-5DED056C2630Q33327943-609A762E-4E2F-4AD5-B8DC-5C7BFAAC9BF2Q34631557-ED816519-2871-4BE6-8690-69D5AA3620C6Q34643711-95FAE682-C87C-4F18-A396-B6EC5F8A3B2FQ34674433-25A1B32B-0C8F-47A8-A905-B28E3283B6EDQ35807628-D9396117-A9E5-4FAF-A2E0-A72DE884321EQ36406932-ABC29099-1BBE-4227-BB14-D9BFE0ADC5FDQ36484197-67565F91-0FCB-47DA-AC8D-049B80DC6916Q36510111-3B5519DA-9D96-43D7-9838-79F18731FF00Q36862089-8E0F7FA6-505F-41ED-8C3E-2EBDD1F4E041Q37635461-19A0A845-E183-485D-A108-9791076E502FQ37701565-AE7A523A-3B91-48C1-8769-F8F7E4560C6EQ37774557-3225D296-21A6-4FDC-85A0-29862383DB92Q38340883-5DA2AFC8-A396-41A5-ADBF-BBC5BECEFE5FQ38435860-DB3005BC-4D77-4DEA-A41C-F9696411B00EQ38820358-9E0A8C92-A620-4F23-A5A0-EBFE77A1CAD9Q38938310-8B0A6477-3C51-4C4E-847F-27CCFD688D03Q38961927-1908835D-2C9F-4C75-AD58-FCFC928D2D16Q39094186-14A88C85-B74E-49FE-A2CD-B49CA1712411Q39102213-11481BC1-DC2C-4496-A366-4704FD6086BFQ39656639-7015AF4F-F7E3-4E51-9D88-DBC4F5CF1686Q40589846-25B6B5C4-B9D5-477A-AFE4-6754BE326DADQ40774841-2C5A8E1D-F77A-4B53-9773-504CB6DC7E42Q40939875-ED504FF1-CFD7-48BA-AEF6-8B7950816050Q41781321-68BFAA8A-B424-4989-91E7-48324277DAF7Q42437431-68B88574-59D5-44C2-88A9-1CD71AB3F61AQ43009544-4FFFA6EE-DEA5-4643-B445-54AD2B549471Q43116490-0E7F9B66-8A96-4246-A2A8-56CB6D5751ABQ43229627-78973E6A-1183-4216-8851-F33F5EA2B556Q44915228-6C161C61-8290-4513-A18E-0A903EFD5E7BQ45794743-F8780D79-5D84-482E-8B33-FB62F5F2F908Q45935732-B46FB4E3-30B8-4056-892D-CD7E99CCCF4EQ46011336-FAC8F5E9-67D0-4EA4-926E-00416BA4D008Q46044177-57B22157-2A17-4E17-980E-C219000A7A36Q46089949-01DFE5F6-1AB6-4C8A-BCCA-C633C9302FB2Q46473198-B8798ECA-F5CD-48E1-B1B4-53A6695CDA91Q46649645-D15534C8-8D1C-49B9-979C-062759BFB50CQ46792443-83F4B6CB-75F5-4ABE-87A9-62D64C710A96Q47863573-302E1015-2024-4ECE-B500-87BFE7CD5359Q48450668-C3C7C1E6-E67F-44E5-9E68-74176BE8A019
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Gloria Astrid Limb
@ast
Gloria Astrid Limb
@en
Gloria Astrid Limb
@es
Gloria Astrid Limb
@nl
Gloria Astrid Limb
@sl
type
label
Gloria Astrid Limb
@ast
Gloria Astrid Limb
@en
Gloria Astrid Limb
@es
Gloria Astrid Limb
@nl
Gloria Astrid Limb
@sl
altLabel
Limb A
@en
Limb Astrid
@en
Limb G
@en
Limb G. Astrid
@en
Limb GA
@en
prefLabel
Gloria Astrid Limb
@ast
Gloria Astrid Limb
@en
Gloria Astrid Limb
@es
Gloria Astrid Limb
@nl
Gloria Astrid Limb
@sl
P1153
P106
P1153
56785711800
57192033176
7004302933
P21
P31
P496
0000-0001-7014-8922