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Journal Abstract Search

844 related items for PubMed ID: 28050123

  • 1. Loss of Nrf2 exacerbates the visual deficits and optic neuritis elicited by experimental autoimmune encephalomyelitis.
    Larabee CM, Desai S, Agasing A, Georgescu C, Wren JD, Axtell RC, Plafker SM.
    Mol Vis; 2016; 22():1503-1513. PubMed ID: 28050123
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  • 2. Myelin-specific Th17 cells induce severe relapsing optic neuritis with irreversible loss of retinal ganglion cells in C57BL/6 mice.
    Larabee CM, Hu Y, Desai S, Georgescu C, Wren JD, Axtell RC, Plafker SM.
    Mol Vis; 2016; 22():332-41. PubMed ID: 27122964
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  • 3. SIRT1 and NRF2 Gene Transfer Mediate Distinct Neuroprotective Effects Upon Retinal Ganglion Cell Survival and Function in Experimental Optic Neuritis.
    McDougald DS, Dine KE, Zezulin AU, Bennett J, Shindler KS.
    Invest Ophthalmol Vis Sci; 2018 Mar 01; 59(3):1212-1220. PubMed ID: 29494741
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  • 4. Retinal ganglion cell damage induced by spontaneous autoimmune optic neuritis in MOG-specific TCR transgenic mice.
    Guan Y, Shindler KS, Tabuena P, Rostami AM.
    J Neuroimmunol; 2006 Sep 01; 178(1-2):40-8. PubMed ID: 16828169
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  • 5. Exploring experimental autoimmune optic neuritis using multimodal imaging.
    Manogaran P, Walker-Egger C, Samardzija M, Waschkies C, Grimm C, Rudin M, Schippling S.
    Neuroimage; 2018 Jul 15; 175():327-339. PubMed ID: 29627590
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  • 7. Inflammatory demyelination induces glia alterations and ganglion cell loss in the retina of an experimental autoimmune encephalomyelitis model.
    Horstmann L, Schmid H, Heinen AP, Kurschus FC, Dick HB, Joachim SC.
    J Neuroinflammation; 2013 Oct 04; 10():120. PubMed ID: 24090415
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  • 9. Correlation of Visual System Biomarkers With Motor Deficits in Experimental Autoimmune Encephalomyelitis-Optic Neuritis.
    Elwood BW, Godwin CR, Anders JJ, Kardon RH, Gramlich OW.
    Transl Vis Sci Technol; 2024 Aug 01; 13(8):1. PubMed ID: 39087931
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  • 14. Roles of Treg/Th17 Cell Imbalance and Neuronal Damage in the Visual Dysfunction Observed in Experimental Autoimmune Optic Neuritis Chronologically.
    Liu Y, You C, Zhang Z, Zhang J, Yan H.
    Neuromolecular Med; 2015 Dec 01; 17(4):391-403. PubMed ID: 26318182
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  • 15. Progressive Retinal and Optic Nerve Damage in a Mouse Model of Spontaneous Opticospinal Encephalomyelitis.
    Petrikowski L, Reinehr S, Haupeltshofer S, Deppe L, Graz F, Kleiter I, Dick HB, Gold R, Faissner S, Joachim SC.
    Front Immunol; 2021 Dec 01; 12():759389. PubMed ID: 35140707
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  • 16. Complement component 3 from astrocytes mediates retinal ganglion cell loss during neuroinflammation.
    Gharagozloo M, Smith MD, Jin J, Garton T, Taylor M, Chao A, Meyers K, Kornberg MD, Zack DJ, Ohayon J, Calabresi BA, Reich DS, Eberhart CG, Pardo CA, Kemper C, Whartenby KA, Calabresi PA.
    Acta Neuropathol; 2021 Nov 01; 142(5):899-915. PubMed ID: 34487221
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  • 17. Inflammatory demyelination induces axonal injury and retinal ganglion cell apoptosis in experimental optic neuritis.
    Shindler KS, Ventura E, Dutt M, Rostami A.
    Exp Eye Res; 2008 Sep 01; 87(3):208-13. PubMed ID: 18653182
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  • 18. Non-invasive visual evoked potentials to assess optic nerve involvement in the dark agouti rat model of experimental autoimmune encephalomyelitis induced by myelin oligodendrocyte glycoprotein.
    Castoldi V, Marenna S, d'Isa R, Huang SC, De Battista D, Chirizzi C, Chaabane L, Kumar D, Boschert U, Comi G, Leocani L.
    Brain Pathol; 2020 Jan 01; 30(1):137-150. PubMed ID: 31267597
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  • 19. Astrocytic YAP protects the optic nerve and retina in an experimental autoimmune encephalomyelitis model through TGF-β signaling.
    Wu Q, Miao X, Zhang J, Xiang L, Li X, Bao X, Du S, Wang M, Miao S, Fan Y, Wang W, Xu X, Shen X, Yang D, Wang X, Fang Y, Hu L, Pan X, Dong H, Wang H, Wang Y, Li J, Huang Z.
    Theranostics; 2021 Jan 01; 11(17):8480-8499. PubMed ID: 34373754
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