about
Three-dimensional optic nerve head images using optical coherence tomography with a broad bandwidth, femtosecond, and mode-locked laser.Diabetes-associated retinal nerve fiber damage evaluated with scanning laser polarimetry.Prospective evaluation of factors associated with post-LASIK corneal birefringence with scanning laser polarimetry.Ocular localization and transduction by adenoviral vectors are serotype-dependent and can be modified by inclusion of RGD fiber modificationsCorrelation between lamina cribrosa tilt angles, myopia and glaucoma using OCT with a wide bandwidth femtosecond mode-locked laserVertical asymmetry of lamina cribrosa tilt angles using wide bandwidth, femtosecond mode-locked laser OCT; effect of myopia and glaucomaGlaucomatous changes in lamina pores shape within the lamina cribrosa using wide bandwidth, femtosecond mode-locked laser OCT.Serum low-density lipoprotein cholesterol level is strong risk factor for acquired color vision impairment in young to middle-aged Japanese men: the Okubo Color Study Report 2.Are middle-age blood pressure levels related to color vision impairment? The Okubo Color Study.Risk factors for uncontrolled intraocular pressure after phacoviscocanalostomy.Impact of high myopia on the performance of SD-OCT parameters to detect glaucoma.Do type 2 diabetes patients without diabetic retinopathy or subjects with impaired fasting glucose have impaired colour vision? The Okubo Color Study Report.Assessment of glaucomatous changes in subjects with high myopia using spectral domain optical coherence tomography.Optic disc vessel density in nonglaucomatous and glaucomatous eyes: an enhanced-depth imaging optical coherence tomography angiography study.Evaluation of microvascular changes in the macular area of eyes with rhegmatogenous retinal detachment without macular involvement using swept-source optical coherence tomography angiographyOptic disc microvasculature dropout in primary open-angle glaucoma measured with optical coherence tomography angiographyMacular and Optic Nerve Head Vessel Density and Progressive Retinal Nerve Fiber Layer Loss in GlaucomaReproducibility of Macular Vessel Density Calculations Via Imaging With Two Different Swept-Source Optical Coherence Tomography Angiography SystemsAssociation of Macular and Circumpapillary Microvasculature with Visual Field Sensitivity in Advanced GlaucomaAutomated Measurement of the Foveal Avascular Zone in Swept-Source Optical Coherence Tomography Angiography Images.Phacoviscocanalostomy versus cataract surgery only in patients with coexisting normal-tension glaucoma: midterm outcomesReference intervals and discrimination values of the Lanthony desaturated D-15 panel test in young to middle-aged Japanese army officials: the Okubo Color Study Report 1Modified deep sclerectomy (D-lectomy MMC) for primary open-angle glaucoma: preliminary resultsHypotensive effect of latanoprost/timolol versus travoprost/timolol fixed combinations in NTG patients: a randomized, multicenter, crossover clinical trialOptical Coherence Tomography Angiography Macular Vascular Density Measurements and the Central 10-2 Visual Field in GlaucomaIn vivo crystalline lens measurements with novel swept-source optical coherent tomography: an investigation on variability of measurementAuthor Correction: Electroretinographic recordings with skin electrodes to assess effects of vitrectomy with gas tamponade on eyes with rhegmatogenous retinal detachmentComparison of central visual sensitivity between monocular and binocular testing in advanced glaucoma patients using imo perimetryBacterial Detection Rate and Surgical Outcome in Povidone-Iodine Irrigation After Nasolacrimal Duct IntubationDevelopment and spontaneous closure of a secondary macular hole associated with submacular hemorrhage due to polypoidal choroidal vasculopathy: a case reportCorrelation between Lamina Cribrosa Tilt, Myopia and Glaucoma Using Optical Coherence Tomography with a Wide Band Femtosecond Mode-locked LaserEfficacy of Strip Meniscometry for Detecting Lacrimal Obstructive Diseases Among Patients With EpiphoraAssociation between axial length and in vivo human crystalline lens biometry during accommodation: a swept-source optical coherence tomography studyElectroretinographic recordings with skin electrodes to assess effects of vitrectomy with gas tamponade on eyes with rhegmatogenous retinal detachmentHeads-Up 3D Surgery under Low Light Intensity Conditions: New High-Sensitivity HD Camera for Ophthalmological MicroscopesElectroretinograms recorded with skin electrodes in silicone oil-filled eyesA case with acquired lacrimal fistula due to Sjögren's syndromeDiagnostic Ability of Optical Coherence Tomography Angiography Macula Vessel Density for the Diagnosis of Glaucoma Using Difference Scan SizesGlaucomatous vertical vessel density asymmetry of the temporal raphe detected with optical coherence tomography angiographyMacula Vessel Density and Thickness in Early Primary Open-Angle Glaucoma
P50
Q30619377-E2800BE2-21D3-4481-8996-58D341E66710Q33248576-EE2D8A2C-F926-4633-846F-E07C7548D6F9Q33269298-A01F5A50-1C2F-45BD-AC26-3A38BE930AB8Q34215308-05826979-AF50-44E8-8A78-9F47DFCB86CAQ34796234-E38760B5-5F13-4A4F-BCAD-DDD9E535B6A2Q36178170-30AD7369-3694-4969-BA8E-8E7D1A5ED9D8Q42337039-917E6002-1AD7-4B4F-90D9-A9460D320CF3Q43209718-5832472C-553C-4DF2-9E1A-16E6C40AAF62Q45267515-EE211934-D0CB-4107-ACC1-1E4AB7B7AF6EQ47345884-2BF7074F-A6B9-4667-8874-E3D32694AECBQ51371975-7EE82DF2-E8CE-414D-ACBE-31F00214CC61Q51376703-714239DC-974E-4153-9024-6E2A44ED426BQ51640492-E0E93176-95DD-4D72-A4D5-0D52694926DCQ55341996-9B4BFA69-993A-4581-B01D-3C7F1CAFD36EQ58561625-4FEA9B25-6980-4CFB-802C-DECD701B46B0Q58797952-1427BF38-82EF-4C71-84A2-3470BA4CC8A0Q59709788-4AC0ECE2-D6C0-451A-B332-8CD82B87E375Q60941925-4C8111B6-E7E1-4FD5-8384-EEC6EE42288AQ62658582-3669E09D-C8C3-4E6C-A3B9-98B5B61164CDQ64923751-9E6B6333-C4C3-4FEC-8A0B-74F1757A1335Q80515338-12A1260B-1C16-4D9C-821B-934734F8C94FQ82212257-0B815518-DEAA-4DA0-8CC3-14EE4FFD895CQ83369451-4BC3BF59-33B2-4359-A084-2372FE10D841Q87262755-4D50D834-D694-4172-A406-F0E0216241C9Q88386121-C9DE646A-3853-4462-AC72-91C1A8B8DF42Q89928647-3B52CC01-03AF-4E11-B4F5-0ABB00C08399Q90091599-A953A103-8F9A-4CF6-B314-089D2C57AFADQ90167948-FA3CE8C4-5172-4A72-9E71-8C51E83BD42CQ90216326-19380E79-4665-4557-8D9F-DCCC667B0DCDQ90402809-2CFBBE9C-9272-4B7C-AAED-6F4919169192Q90737723-99E050BF-5702-479A-8832-3BD5B8970599Q91318729-CD4B9D42-61D1-4D5B-AFBD-04CEBD4D922FQ91417149-4D2B1836-5FD1-439C-A48E-8280D3C74EE5Q92287780-E31C36AC-B689-41B6-8BE2-CC86731DB3DAQ92310327-583750FF-8159-4BFA-9C02-F23F2857B1C8Q92440600-889FB138-183D-42CD-B620-9F3EE02DCA73Q92463952-73A55075-EECF-4E41-9C4E-40013784C601Q92911715-DB30A6D8-2B18-48DC-87BE-B1FA5C41CC68Q93163698-78454E00-5431-4DC0-B803-330E39B038ADQ93368734-2A3617E3-1067-47FD-9B8C-6EBE8420079C
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Takuhei Shoji
@ast
Takuhei Shoji
@en
Takuhei Shoji
@es
Takuhei Shoji
@nl
Takuhei Shoji
@sl
type
label
Takuhei Shoji
@ast
Takuhei Shoji
@en
Takuhei Shoji
@es
Takuhei Shoji
@nl
Takuhei Shoji
@sl
prefLabel
Takuhei Shoji
@ast
Takuhei Shoji
@en
Takuhei Shoji
@es
Takuhei Shoji
@nl
Takuhei Shoji
@sl
P106
P1153
12804759900
P31
P496
0000-0002-5464-2573