about
Carteolol hydrochloride protects human corneal epithelial cells from UVB-induced damage in vitroScleral indentation optimizes visualization of anterior chamber angle during goniosynechialysis.Correlation between intraocular pressure level and optic disc changes in high-tension glaucoma suspects.Status of systemic oxidative stresses in patients with primary open-angle glaucoma and pseudoexfoliation syndromeA case report of progressive obstruction of Ex-PRESS miniature glaucoma shunt after transient flat anterior chamber and treatment using Nd:YAG laser.Correlation between Systemic Oxidative Stress and Intraocular Pressure LevelAssessment of Filtration Bleb and Endplate Positioning Using Magnetic Resonance Imaging in Eyes Implanted with Long-Tube Glaucoma Drainage Devices.Association between systemic oxidative stress and visual field damage in open-angle glaucomaMacular pigment changes in pseudophakic eyes quantified with resonance Raman spectroscopy.Retinal risks of high-dose ornithine supplements: a review.Traditional Japanese herbal (kampo) medicines and treatment of ocular diseases: a review.Peter's anomaly in an infant with a mild degree of Axenfeld's anomaly.Cytoprotective effects of geranylgeranylacetone against retinal photooxidative damage.Axonal protection by thioredoxin-1 with inhibition of interleukin-1β in TNF-induced optic nerve degeneration.Retinal ischemia and cell proliferation in the rat: the role of soluble mitogens.Transmission spectrums and retinal blue-light irradiance values of untinted and yellow-tinted intraocular lenses.Attenuation of retinal photooxidative damage in thioredoxin transgenic mice.Retinal vascular obstruction and asymptomatic cerebral infarction.Correlations among various ocular parameters in clinically unilateral pseudoexfoliation syndrome.Glutathione peroxidase induced in rat retinas to counteract photic injury.Estimation of the melatonin suppression index through clear and yellow-tinted intraocular lenses.Bilateral retinal macroaneurysms with neurofibromatosis type 1.Cytoprotective effects of rebamipide and carteolol hydrochloride against ultraviolet B-induced corneal damage in mice.Reduction of posterior pole retinal thickness in glaucoma detected using the Retinal Thickness Analyzer.Distribution of tocopherols and tocotrienols to rat ocular tissues after topical ophthalmic administration.Sulforaphane induces thioredoxin through the antioxidant-responsive element and attenuates retinal light damage in mice.Decompression retinopathy and serous retinal detachment after trabeculotomy in a patient with systemic amyloidosis.Topography of retinal damage in light-exposed albino rats.Immunohistochemical analysis of aldehyde-modified proteins in drusen in cynomolgus monkeys (Macaca fascicularis).Detection of lipid peroxidation in light-exposed mouse retina assessed by oxidative stress markers, total hydroxyoctadecadienoic acid and 8-iso-prostaglandin F2alpha.Hemianopic inner retinal thinning after stroke.Recovery of vision after chiasmal optic neuritis.Case series of pseudoexfoliation material on intra-ocular lenses.Possible bidirectional flow of aqueous fluid after Baerveldt glaucoma implant surgery.Lack of association of LOXL1 gene variants in Japanese patients with central retinal vein occlusion without clinically detectable pseudoexfoliation material deposits.Egress route of emulsified 20 centistokes silicone oil from anterior chamber of rabbit.Intraobserver and interobserver agreement of computer software-assisted optic nerve head photoplanimetry.Anterior chamber parameters measured using the Pentacam Scheimpflug imaging device before and after cataract surgery in eyes with primary angle closure.A case of chorioretinal atrophy due to sclerochoroidal calcification.Topical dexamethasone γ-cyclodextrin nanoparticle eye drops increase visual acuity and decrease macular thickness in diabetic macular oedema.
P50
Q28236379-6CD552C2-ADAD-499E-BE00-13DF75955962Q30786822-CD7B0504-F704-4919-B561-D2DA833C2FBCQ31142208-43CB0B35-357F-41F0-BF27-97819253FEF3Q34493810-3DFAF327-346E-4D77-9652-4EA0217D79E7Q34950900-5944D2DC-E828-45C8-A5BA-0B70D8DB54B0Q35695066-3F90ABAE-F474-40B8-B0E2-07A3C4CBBE44Q35862162-501690C0-9726-4D0C-8BB8-903B13866296Q36889979-228FDA76-1C01-40C2-B61A-7B503F343C55Q37884869-AB01DEA6-4046-4DB1-AF63-4A8F68722864Q37902264-2B73D6FA-DB4E-4F22-AC39-A4F77C123984Q38038685-8CDC3BF0-D0E7-4E2A-A7EB-80A4991C09F2Q39712508-A514A01E-AA80-46A0-B82F-4126C15FAFB7Q40451095-10812B0E-4A4E-47F4-8F73-3C3E8B1ED8C5Q40528668-A66BC8F1-4814-45B2-8DB5-EEEB0A183996Q41229746-0D8446DD-BE2B-4358-80D1-FB25BB966EBDQ43163620-8DD1F105-2F43-4898-88AF-28CB0F482B22Q44023000-CF45DF19-3322-49E4-98F2-B7D426D6D995Q44025833-2F6ED19B-DFEF-4E88-914E-6F2E83A8C7CAQ44073586-73F2CDF4-B2C0-4756-B0A4-EF2EB58EDF30Q44324762-7144EDEB-B766-4CFD-9928-C10B44510F24Q44357793-2279F0D9-309C-411A-B215-3970051583B6Q44444253-45D0A7C2-8B99-4DA5-B47B-443F5E577C72Q44489803-CED727A6-3F60-463B-BAF1-6812BA868984Q44798806-8E2AA78C-8E09-4647-9DF1-BE8740989863Q45125526-02F2037A-2AF9-46DA-9792-DA82CA65FF35Q45280886-15C372AE-B738-40D7-8836-8FB680173C66Q46138122-1A31C739-6FBD-4330-B773-C3C7E55E2F4FQ46513805-26EFB888-780A-4A81-ADAE-5BC3A99EF355Q46690626-D8F52324-885C-413D-9AE0-52C11231E704Q46915674-B2F9B8CA-745F-4DFA-AF82-7202B96C5DEBQ48173976-719364B3-C1DF-4D32-8601-27FDF254334AQ48367318-0BA446FF-5411-4133-B3CA-ED10D532BE9BQ50450813-E83783DF-661E-4294-8BAC-B24901C7BB57Q50458234-12D76CEE-F0F3-4630-8239-4C3BA7E45EE7Q50462460-28A2D040-27D4-4497-94C7-48E6C6F69FA2Q50771395-2878612C-CADF-4297-9F00-1EF28C555FCCQ53127560-D3A43BF6-F73F-4EEB-B278-D938394106EBQ53144183-3192669D-EB05-4DC2-9CE0-2BDC77C1512CQ53157156-E14262CC-359D-4229-B1BB-4734BC1BFA38Q53412660-4A0FB669-38CA-4324-86E2-222656939AA3
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Akihiro Ohira
@ast
Akihiro Ohira
@en
Akihiro Ohira
@es
Akihiro Ohira
@nl
type
label
Akihiro Ohira
@ast
Akihiro Ohira
@en
Akihiro Ohira
@es
Akihiro Ohira
@nl
prefLabel
Akihiro Ohira
@ast
Akihiro Ohira
@en
Akihiro Ohira
@es
Akihiro Ohira
@nl
P106
P108
P31
P496
0000-0002-1307-5592