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Melanopsin-expressing retinal ganglion cells are more injury-resistant in a chronic ocular hypertension model.Effect of lycium barbarum (wolfberry) polysaccharides on preserving retinal function after partial optic nerve transection.Pilot study of the multifocal electroretinogram in ocular hypertension.Human electroretinal responses to grating patterns and defocus changes by global flash multifocal electroretinogram.The Multifocal On- and Off-Responses in the Human Diabetic Retina.Multifocal electroretinogram in rhodopsin P347L transgenic pigsApplications of the multifocal electroretinogram in the detection of glaucoma.Effects of luminance combinations on the characteristics of the global flash multifocal electroretinogram (mfERG).Childhood exposure to constricted living space: a possible environmental threat for myopia development.Variation of multifocal electroretinogram with axial length.The detection of small simulated field defects using multifocal VEPs.The characteristics of multifocal electroretinogram in isolated perfused porcine eye: cellular contributions to the in vitro porcine mfERG.Glaucoma detection is facilitated by luminance modulation of the global flash multifocal electroretinogram.Effect of inner retinal dysfunction on slow double-stimulation multifocal electroretinogram.Pharmacologically defined components of the normal porcine multifocal ERG.A novel missense mutation in the NYX gene associated with high myopia.Comparing the multifocal electroretinogram topography before and after cataract surgery.Subclinical Decrease in Central Inner Retinal Activity Is Associated With Myopia Development in Children.The effects of forward light scattering on the multifocal electroretinogram.Effects of different degrees of cataract on the multifocal electroretinogramInvestigation of retinitis pigmentosa using the multifocal electroretinogramLuminance-modulated adaptation of global flash mfERG: fellow eye losses in asymmetric glaucomaClinical application of mfERG/VEP in assessing superior altitudinal hemifield lossDetection of glaucomatous damage using multifocal ERGImpairment of retinal adaptive circuitry in the myopic eyeEffects of unsteady fixation on multifocal electroretinogram (mfERG)Detection of early functional changes in diabetic retina using slow double-stimulation mfERG paradigmTemporal interactive response is resistant to cloudy ocular media in the slow double-stimulation multifocal electroretinogramEarly local functional changes in the human diabetic retina: a global flash multifocal electroretinogram studyForward and backward adaptive effects in global flash multifocal electroretinogram stimulationRetinal function and morphology of severe non-proliferative diabetic retinopathy before and after retinal photocoagulationMyopic children have central reduction in high contrast multifocal ERG response, while adults have paracentral reduction in low contrast responseIs the peripheral retina an important site for myopic development? [Liu Y, Wildsoet C (2011) The effectof two-zone concentric bifocal spectacle lenses on refractive error development and eye growth in young chicks. Invest Ophthalmol Vis Sci 52(2):10Myopia progression in children is linked with reduced foveal mfERG responseGlobal flash multifocal electroretinogram: early detection of local functional changes and its correlations with optical coherence tomography and visual field tests in diabetic eyesAnti-inflammatory effects of lutein in retinal ischemic/hypoxic injury: in vivo and in vitro studiesLuminance-modulated adaptation in the global flash mfERG: a preliminary study of early retinal functional changes in high-risk glaucoma patientsStatin Use and Open-Angle Glaucoma: Evidence From Observational StudiesDelay of cone degeneration in retinitis pigmentosa using a 12-month treatment with Lycium barbarum supplementThe diversified defocus profile of the near-work environment and myopia development
P50
Q30818410-86F01152-FAD0-4A05-9346-FB6AB7E1C5D1Q35067469-DC6060CE-1592-425F-A5B0-5286DCB97AB6Q35312216-C537A878-9BAB-4E5C-87D6-9F55EFF16C63Q35601451-644E45F0-895B-43DC-AC88-84A5F03845B3Q36019875-DB194D21-1969-4FA1-B3B5-F6EC7F73C4EDQ36951932-CB44F233-E09B-4AB8-B3AE-2B20373D219FQ37842668-02C93984-AFBF-4557-B437-9D2321D6BE03Q39889966-CE9792A9-CEA4-4236-9C78-E5CECE52A597Q40148461-29A102E7-451A-47E6-9C3E-FFFE70943451Q44365071-87E166DA-5121-4306-BCB0-0937C4B90C44Q44445276-FA1AF434-16DF-4184-AA6D-273F4F4B37A1Q46666530-7114B95B-7236-4246-A3D8-7478641D00FAQ46966260-0CB74F9E-BE0D-4FFF-8EDE-EF032D35EF38Q48237935-D61A5F6A-5060-4001-B259-62C6DC142570Q48569812-C9BCC37A-3EFE-4ABF-867E-B65E57DF3E5CQ51273909-32E4FC53-8F27-4A65-BBB0-C6B73CE274DFQ51401662-F571CA32-14E5-4A10-A270-5FBACAB505A5Q53108994-B36FF522-E949-4D17-8237-C1BD9E23FE27Q54198070-825CA2D0-4A7D-43C6-BA1A-972BF95657EBQ76321144-5BD182E5-5CD2-4D38-9753-AE9C978B0891Q77601457-4069760F-A799-467E-8816-236EEC620E37Q80381856-0E589E10-97B2-4B00-B536-281095EC02C4Q81013219-CDD4C923-22D9-4E5E-A327-3CE3DD7A7B69Q81577851-0F77CD11-83F6-41DA-8AF8-61CC8781A760Q82827905-93EAA0EE-6CD4-4938-A502-0E17207600BAQ82895221-309560C5-3C79-4FE4-81B0-08218773A15EQ83402598-9C5D0168-B7B0-4B20-84B8-5DBE819F9FBDQ83467231-26688D22-9177-44EA-8455-A96E3E4E61AAQ83970808-47BA497B-F737-465B-9738-D92DC53B48F5Q84013565-7CEE5D72-42C6-4CD0-A3D9-1B9231D67550Q84013568-8AAB9324-DC3D-4A23-BDB5-0C8CDD7C06C4Q84092099-55052A5E-9FF5-4C73-897D-A10A576D9350Q84280737-C8A37B02-5728-42B2-A28F-F75280883ACEQ84518395-6019806B-A068-448A-BE50-B65305E577CBQ84614264-0D43A86B-5CD4-4D32-8258-AC2805BE2405Q84748765-C4461CE7-53CD-4FF7-A2DB-7E97ED7D416EQ84865766-85420AD7-34AE-4A9F-A468-B2DA9647E219Q89945204-673C34A0-B123-44E8-A8B7-2123815E75C8Q92401819-F3E1B8CD-9B3B-4224-9734-65AE894F9325Q96233541-FABE8E4A-F1D7-4FBA-91C8-EDA12CB957AD
P50
description
researcher
@en
name
H H Chan
@en
H H Chan
@nl
type
label
H H Chan
@en
H H Chan
@nl
prefLabel
H H Chan
@en
H H Chan
@nl
P106
P31
P496
0000-0002-8516-4711