Distribution of axonal transport blockade by acute intraocular pressure elevation in the primate optic nerve head.
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Optic nerve axons and acquired alterations in the appearance of the optic discIntegrins in the optic nerve head: potential roles in glaucomatous optic neuropathy (an American Ophthalmological Society thesis)Modeling glaucoma in rats by sclerosing aqueous outflow pathways to elevate intraocular pressureFunctional and morphological effects of laser-induced ocular hypertension in retinas of adult albino Swiss mice.Reversibility of optic nerve damage in primate eyes subjected to intraocular pressure above systolic blood pressure.Morphology of axonal transport abnormalities in primate eyes.Early immune responses are independent of RGC dysfunction in glaucoma with complement component C3 being protective.Deformation of the normal monkey optic nerve head connective tissue after acute IOP elevation within 3-D histomorphometric reconstructionsReproducibility of measuring lamina cribrosa pore geometry in human and nonhuman primates with in vivo adaptive optics imaging.Immediate effect of intravitreal injection of bevacizumab on intraocular pressure.Quantitative analysis of retinal ganglion cell survival with Rbpms immunolabeling in animal models of optic neuropathies.IOP induces upregulation of GFAP and MHC-II and microglia reactivity in mice retina contralateral to experimental glaucomaImaging axonal transport in the rat visual pathway.Comparison of retinal nerve fiber layer thickness in vivo and axonal transport after chronic intraocular pressure elevation in young versus older rats.The optic nerve head is the site of axonal transport disruption, axonal cytoskeleton damage and putative axonal regeneration failure in a rat model of glaucomaEvaluation of retinal nerve fiber layer thickness and axonal transport 1 and 2 weeks after 8 hours of acute intraocular pressure elevation in rats.Dynamic testing of regional viscoelastic behavior of canine sclera.Effect of dorzolamide-timolol fixed combination prophylaxis on intraocular pressure spikes after intravitreal bevacizumab injection.In Vivo Changes in Lamina Cribrosa Microarchitecture and Optic Nerve Head Structure in Early Experimental Glaucoma.Damage patterns of retinal nerve fiber layer in acute and chronic intraocular pressure elevation in primary angle closure glaucoma.Short-term changes of intraocular pressure and ocular perfusion pressure after intravitreal injection of bevacizumab or ranibizumabBiomechanical assessment in models of glaucomatous optic neuropathy.The non-human primate experimental glaucoma model.The pressure-induced deformation response of the human lamina cribrosa: Analysis of regional variations.Factors Associated with the Retinal Nerve Fiber Layer Loss after Acute Primary Angle Closure: A Prospective EDI-OCT Study.Mechanosensitivity and the eye: cells coping with the pressureAxons of retinal ganglion cells are insulted in the optic nerve early in DBA/2J glaucoma.Optic nerve head blood flow using a laser Doppler velocimeter and haemorheology in primary open angle glaucoma and normal pressure glaucomaComparison of visual field progression between temporally tilted disc and nontilted disc, in patients with normal tension glaucomaEffect of prophylactic timolol 0.1% gel on intraocular pressure after an intravitreal injection of ranibizumab: a randomized studyMechanical environment of the optic nerve head in glaucomaExperimental Glaucoma Causes Optic Nerve Head Neural Rim Tissue Compression: A Potentially Important Mechanism of Axon Injury.Short-term intraocular pressure changes after intravitreal injection of bevacizumab in diabetic retinopathy patients.Intrinsic axonal degeneration pathways are critical for glaucomatous damage.Imaging of the lamina cribrosa in glaucoma: perspectives of pathogenesis and clinical applications.Optic nerve head biomechanics in aging and diseaseRNA binding protein with multiple splicing: a new marker for retinal ganglion cells.Investigations into Hypoxia and Oxidative Stress at the Optic Nerve Head in a Rat Model of GlaucomaTogether JUN and DDIT3 (CHOP) control retinal ganglion cell death after axonal injury.Characterization of Retinal Ganglion Cell and Optic Nerve Phenotypes Caused by Sustained Intracranial Pressure Elevation in Mice.
P2860
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P2860
Distribution of axonal transport blockade by acute intraocular pressure elevation in the primate optic nerve head.
description
1977 nî lūn-bûn
@nan
1977年の論文
@ja
1977年学术文章
@wuu
1977年学术文章
@zh-cn
1977年学术文章
@zh-hans
1977年学术文章
@zh-my
1977年学术文章
@zh-sg
1977年學術文章
@yue
1977年學術文章
@zh
1977年學術文章
@zh-hant
name
Distribution of axonal transpo ...... the primate optic nerve head.
@en
Distribution of axonal transpo ...... the primate optic nerve head.
@nl
type
label
Distribution of axonal transpo ...... the primate optic nerve head.
@en
Distribution of axonal transpo ...... the primate optic nerve head.
@nl
prefLabel
Distribution of axonal transpo ...... the primate optic nerve head.
@en
Distribution of axonal transpo ...... the primate optic nerve head.
@nl
P1476
Distribution of axonal transpo ...... the primate optic nerve head.
@en
P2093
Anderson DR
Quigley HA
P304
P407
P577
1977-07-01T00:00:00Z