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5.1 Rodent (166)
Showing records 1 to 25
Display all abstracts in classification 5.1 Rodent
Search within classification 5.1 Rodent72800 Restoration of Aqueous Humor Outflow Following Transplantation of iPSC-Derived Trabecular Meshwork Cells in a Transgenic Mouse Model of Glaucoma
Zhu W
Investigative Ophthalmology and Visual Science 2017; 58: 2054-2062
73163 Topical Coenzyme Q10 demonstrates mitochondrial-mediated neuroprotection in a rodent model of ocular hypertension
Davis BM
Mitochondrion 2017; 36: 114-123
72863 A mouse ocular explant model that enables the study of living optic nerve head events after acute and chronic intraocular pressure elevation: Focusing on retinal ganglion cell axons and mitochondria
Kimball EC
Experimental Eye Research 2017; 160: 106-115
72945 Early immune responses are independent of RGC dysfunction in glaucoma with complement component C3 being protective
Harder JM
Proceedings of the National Academy of Sciences of the United States of America 2017; 114: E3839-E3848
72679 Toll-like receptor 4 inhibitor protects against retinal ganglion cell damage induced by optic nerve crush in mice
Nakano Y
Journal of Pharmacological Sciences 2017; 133: 176-183
73053 Alpha7 nicotinic acetylcholine receptor agonist promotes retinal ganglion cell function via modulating GABAergic presynaptic activity in a chronic glaucomatous model
Zhou X
Scientific reports 2017; 7: 1734
72994 Elevated Intraocular Pressure Induces Cellular Responses in the Retinal Capillaries
Brockhaus K
Klinische Monatsblätter für Augenheilkunde 2017; 234: 1266-1275
72791 Quantification of the efficacy of collagen cross-linking agents to induce stiffening of rat sclera
Campbell IC
Journal of the Royal Society, Interface / the Royal Society 2017; 14:
72593 Glioprotection of Retinal Astrocytes After Intravitreal Administration of Memantine in the Mouse Optic Nerve Crush Model
Maciulaitiene R
Medical Science Monitor 2017; 23: 1173-1179
73013 Spatially and Temporally Regulated NRF2 Gene Therapy Using Mcp-1 Promoter in Retinal Ganglion Cell Injury
Fujita K
Molecular therapy. Methods & clinical development 2017; 5: 130-141
73583 Elevated IOP alters the space-time profiles in the center and surround of both ON and OFF RGCs in mouse
Sabharwal J
Proceedings of the National Academy of Sciences of the United States of America 2017; 114: 8859-8864
72868 Optic nerve astrocyte reactivity protects function in experimental glaucoma and other nerve injuries
Sun D
Journal of Experimental Medicine 2017; 214: 1411-1430
73574 A short term high-fat high-sucrose diet in mice impairs optic nerve recovery after injury and this is not reversed by exercise
Chrysostomou V
Experimental Eye Research 2017; 162: 104-109
72797 Intravitreal injection of β-crystallin B2 improves retinal ganglion cell survival in an experimental animal model of glaucoma
Anders F
PLoS ONE 2017; 12: e0175451
73040 Shared and Differential Retinal Responses against Optic Nerve Injury and Ocular Hypertension
Vidal-Sanz M
Frontiers in neuroscience 2017; 11: 235
72820 Reflectance Spectrum and Birefringence of the Retinal Nerve Fiber Layer With Hypertensive Damage of Axonal Cytoskeleton
Huang XR
Investigative Ophthalmology and Visual Science 2017; 58: 2118-2129
72990 GDF15 is elevated in mice following retinal ganglion cell death and in glaucoma patients
Ban N
JCI insight 2017; 2:
72852 Novel Regulatory Mechanisms for the SoxC Transcriptional Network Required for Visual Pathway Development
Chang KC
Journal of Neuroscience 2017; 37: 4967-4981
73035 Nicotinamide and WLD(S) Act Together to Prevent Neurodegeneration in Glaucoma
Williams PA
Frontiers in neuroscience 2017; 11: 232
72807 Annexin A1 nuclear translocation induces retinal ganglion cell apoptosis after ischemia-reperfusion injury through the p65/IL-1β pathway
Zhao Y
Biochimica et Biophysica Acta 2017; 1863: 1350-1358
73057 Involvement of microglia in early axoglial alterations of the optic nerve induced by experimental glaucoma
Bordone MP
Journal of Neurochemistry 2017; 142: 323-337
72944 GlyCAM1 negatively regulates monocyte entry into the optic nerve head and contributes to radiation-based protection in glaucoma
Williams PA
Journal of Neuroinflammation 2017; 14: 93
72994 Elevated Intraocular Pressure Induces Cellular Responses in the Retinal Capillaries
Melkonyan H
Klinische Monatsblätter für Augenheilkunde 2017; 234: 1266-1275
72863 A mouse ocular explant model that enables the study of living optic nerve head events after acute and chronic intraocular pressure elevation: Focusing on retinal ganglion cell axons and mitochondria
Pease ME
Experimental Eye Research 2017; 160: 106-115
72593 Glioprotection of Retinal Astrocytes After Intravitreal Administration of Memantine in the Mouse Optic Nerve Crush Model
Pakuliene G
Medical Science Monitor 2017; 23: 1173-1179
