about
Regulation of gap junction coupling in bovine ciliary epitheliumNoninvasive intraocular pressure measurements in mice by pneumotonometryBarrier qualities of the mouse eye to topically applied drugs.Electron probe X-ray microanalysis of intact pathway for human aqueous humor outflowSpecies variation in biology and physiology of the ciliary epithelium: similarities and differences.Nucleoside-derived antagonists to A3 adenosine receptors lower mouse intraocular pressure and act across species.Potential therapeutic effects of baicalein, baicalin, and wogonin in ocular disorders.Childhood exposure to constricted living space: a possible environmental threat for myopia development.Glutathione attenuates nitric oxide-induced retinal lipid and protein changes.Prevalence of visual impairment and refractive errors among different ethnic groups in schoolchildren in Turpan, China.Inhibition of swelling-activated Cl- currents by functional anti-ClC-3 antibody in native bovine non-pigmented ciliary epithelial cells.Glutamate-induced retinal lipid and protein damage: the protective effects of catechin.New Insight of Common Regulatory Pathways in Human Trabecular Meshwork Cells in Response to Dexamethasone and Prednisolone Using an Integrated Quantitative Proteomics: SWATH and MRM-HR Mass Spectrometry.cAMP Stimulates Transepithelial Short-Circuit Current and Fluid Transport Across Porcine Ciliary Epithelium.Characterisation of Cl⁻ transporter and channels in experimentally induced myopic chick eyes.Methods to Induce Chronic Ocular Hypertension: Reliable Rodent Models as a Platform for Cell Transplantation and Other Therapies.Characterization and Regulation of Gap Junctions in Porcine Ciliary EpitheliumCyclic Adenosine Monophosphate Activates Retinal Apolipoprotein A1 Expression and Inhibits Myopic Eye GrowthSwelling-Activated Cl−Channels Support Cl−Secretion by Bovine Ciliary EpitheliumChloride and sodium transport across bovine ciliary body/epithelium (CBE)Could a cycloplegic agent be replaced by a fogging or a corrective lens in the biometric measurement of the crystalline lens?Quantitative profiling of regional protein expression in rat retina after partial optic nerve transection using fluorescence difference two‑dimensional gel electrophoresisPsychometric Properties and Demographic Correlates of the Smartphone Addiction Scale-Short Version Among Chinese Children and Adolescents in Hong KongThe diversified defocus profile of the near-work environment and myopia development
P50
Q33783512-2D5D96A7-C5D9-429D-90F6-32B2C1744B1EQ34312622-9E7683BD-5EF7-4579-83C9-86F90C4497EEQ36296623-50CF4B5F-C558-49EF-8F12-76813873AE08Q36977675-4F50292C-23F7-470E-9692-2910C8626767Q37341222-A16B67C9-C774-444C-A6D3-4B8CEA977520Q37461055-BB255BA6-5276-4655-8EB0-7918FCBD692FQ38256452-A64077DE-8275-41AE-9B7B-3FC03325850DQ40148461-05022738-C590-45B8-8E1F-35EEC5906756Q41243838-8D6D314C-C395-4A93-9391-54B79A515576Q44344789-A4BF1398-01BD-411E-AA3C-A29B9ADC8692Q45280875-623B6825-1924-439C-BF94-AEB3EE8F756AQ46772466-6F07F516-9BAA-4A8B-AA80-71A8997C3A0CQ47664959-E8F15BF7-21E1-4F40-A812-6D891A970A37Q51244649-908B957C-122E-4827-B028-505E08581FE4Q51854994-E327EC7B-B28C-4DE1-8E5A-2877139677C8Q52594562-029891AB-FE2A-4109-AEE3-C7E74D32568BQ57977946-4D3592A0-5AEF-462A-A0DB-A45D8F4109BCQ57977960-518A6300-9619-4D4E-BCC6-EF3112D7196FQ57977975-18D7BEA2-9DA5-4988-A384-DE30F7A8100DQ57977990-671869BF-3A5F-44B5-ABEF-D7C14C88B608Q57977992-6E287BC2-5950-43B5-8E6F-2C9CA1B6CA0EQ90119612-C29D8181-1DAF-43F3-B303-E8F652E02A37Q90765181-3E411764-49A9-4EFD-B2AB-E4D4DA1C94E7Q96233541-C0B3DBD0-62AB-409D-BF43-B05AD5262D4D
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Chi W. Do
@ast
Chi W. Do
@en
Chi W. Do
@es
Chi W. Do
@nl
Chi W. Do
@sl
type
label
Chi W. Do
@ast
Chi W. Do
@en
Chi W. Do
@es
Chi W. Do
@nl
Chi W. Do
@sl
prefLabel
Chi W. Do
@ast
Chi W. Do
@en
Chi W. Do
@es
Chi W. Do
@nl
Chi W. Do
@sl
P1053
M-4250-2017
P106
P1153
57193197541
P31
P3829
P496
0000-0002-7720-7507