Measurement of the magnitude and axis of corneal polarization with scanning laser polarimetry.
about
Comparison between fixed-angle and customised corneal-polarisation compensation methods in scanning laser polarimetric measurement of the retinal nerve fibre layer in glaucoma.Inter-device reproducibility of the scanning laser polarimeter with variable cornea compensation.Assessment of the retinal nerve fiber layer of the normal and glaucomatous monkey with scanning laser polarimetry.Comparison of algorithms for detection of localised nerve fibre layer defects using scanning laser polarimetry.Scanning laser polarimetry with variable corneal compensation and detection of glaucomatous optic neuropathy.Influence of LASIK on scanning laser polarimetric measurement of the retinal nerve fibre layer with fixed angle and customised corneal polarisation compensationEffect of cataract extraction and intraocular lens implantation on nerve fibre layer thickness measurements by scanning laser polarimeter (GDx) in glaucoma patients.Influence of subfoveal choroidal neovascularisation on macular imaging with scanning laser polarimetry of the retinal nerve fibre layer.Image analysis of optic nerve disease.Relevance vector machine and support vector machine classifier analysis of scanning laser polarimetry retinal nerve fiber layer measurements.[Correlation between glaucomatous hemifield scotomas and measurements of nerve fiber layer thickness using scanning laser polarimetry].Atypical pattern of retardation on GDx-VCC and its effect on retinal nerve fibre layer evaluation in glaucomatous eyes.Comparison of retinal nerve fibre layer thickness and visual field loss between different glaucoma groups.GDx-VCC performance in discriminating normal from glaucomatous eyes with early visual field loss.Accuracy of GDx variable corneal compensation polarization measurements in normal human eyes: effect of accommodation, cycloplegia, focus, pupil size, and eye selection on reproducibility.Relationship between foveal birefringence and visual acuity in neovascular age-related macular degeneration.Retinal nerve fibre layer thickness measurements in patients using chloroquine.The effect of ageing on retinal nerve fibre layer thickness: an evaluation by scanning laser polarimetry with variable corneal compensation.Comparison of retinal nerve fiber layer measurements between NTG and HTG using GDx-vCC.Discrimination between glaucomatous and nonglaucomatous eyes using quantitative imaging devices and subjective optic nerve head assessment.Performance of GDx VCC in eyes with peripapillary atrophy: comparison of three circle sizes.Is there still a clinical use for scanning laser polarimetry with fixed corneal compensator?Effect of glaucomatous damage on repeatability of confocal scanning laser ophthalmoscope, scanning laser polarimetry, and optical coherence tomography.Clinical characteristics of eyes demonstrating atypical patterns in scanning laser polarimetry.The influence of posterior capsular opacification removal on anterior segment birefringence parameters as measured by scanning laser polarimetry.Bioinformatic and statistical analysis of the optic nerve head in a primate model of ocular hypertension.Mueller matrix retinal imager with optimized polarization conditions.Scanning laser polarimetry - a review.The Relationship between intraocular pressure and progressive retinal nerve fiber layer loss in glaucoma.Dual electro-optical modulator polarimeter based on adaptive optics scanning laser ophthalmoscopeThe impact of retardance pattern variability on nerve fiber layer measurements over time using GDx with variable and enhanced corneal compensation.Correlation between scanning laser polarimetry with and without enhanced corneal compensation and high-definition optical coherence tomography in normal and glaucomatous eyes.Foveal localization in non-exudative AMD using scanning laser polarimetryA Mueller matrix model of Haidinger's brushes.Henle fiber layer phase retardation changes associated with age-related macular degeneration.Assessment of peripapillary retinal nerve fiber layer thickness using scanning laser polarimetry (GDx VCC) in normal Indian children.Interference figures of polarimetric interferometry analysis of the human corneal stroma.Machine learning classifiers detect subtle field defects in eyes of HIV individuals.The theory and implications of the biaxial model of corneal birefringence.Modeling and minimizing interference from corneal birefringence in retinal birefringence scanning for foveal fixation detection.
P2860
Q31074715-4E8D6911-F80C-48FF-A5BE-61E3227BF9CFQ31103322-CDFF41D8-86C0-4F47-AEA4-382F58C2653DQ31126863-DA4B8D04-F3AE-4070-B1AD-700D58722256Q31135415-9DFEC96C-ECC0-4735-A932-C0F42CFE36C4Q31152315-D97956C4-1151-4440-9FFD-ECF2C22F466BQ33193300-4D6BD22E-3950-4758-ADD8-D7459BAA7BFCQ33197470-A208B1CD-3C7A-4D60-ADA6-3324DE270542Q33203557-0B341559-B027-443F-93F0-E614C6907AEAQ33208815-475BD800-4DFC-4E12-A8E5-AD55E2965F4BQ33213229-4ABAB61C-E330-445D-ABA7-E937A2A44315Q33214697-8CF7ED56-CAFA-4002-9B30-88D5F24B0D23Q33219577-F79EAA36-C85F-4A91-A7E9-0142A310F47CQ33219712-FB66A9AB-2199-4205-BA63-558B8A5C7AADQ33227354-864CBB31-7F1F-4381-8DB5-266A6E9A1BECQ33229067-28A9B851-6DA6-4D1A-89A4-CFE9D958CC06Q33231055-8B566D82-6010-47EC-9203-FA3843EFC881Q33240454-35CE9645-E9BE-40C8-B0B5-F08B2735FD49Q33243628-D9124BE8-B3CD-4FD8-BACB-D167D88F313DQ33246469-212357B7-6B84-4882-8CBF-4560ED68F952Q33252254-DAE5BC13-29C3-47E9-8910-E451137CBD80Q33252820-834C090F-80C0-43BE-996F-F13476E64D4AQ33256461-A68BA245-3D02-4AAB-8092-EEA9AF81AB49Q33275694-4B5EFFF1-5707-4880-B0F0-745A122D9204Q33290678-DCE5CD52-4F6A-45C3-92DD-7DA4E34C5948Q33291661-029C5509-D215-432C-8208-CEAE7BC4E41DQ33372453-FC18BE30-4D0B-4924-B52D-EDD928525BC3Q33395278-6178AF40-B843-4199-BE00-F3EB14F83B84Q33399250-73888861-B61F-4DA0-8DC7-3851098571A4Q33431720-BA323802-DC97-474D-AAFC-4E6435E5591FQ33716595-8662B75A-8A79-4E24-9BBE-F6B4BE138D5EQ33812582-8AA3532B-8F79-4635-81BF-09D7C93C3917Q33887461-272E98BD-3413-4392-9B24-C90D607186E1Q34215917-4641E76E-5C97-47BA-9072-A1F2D3A9C401Q34227040-7B200D27-8EF0-4FA1-BDF7-EFB53FBA0293Q34956119-9A382FCF-E0F4-4A2D-A4C9-F7277FF9C3CAQ35037926-9922D03F-A823-4566-A082-34EEC55A2C4BQ36389459-F2EC9BC2-3F42-4FA8-87DF-49AF98B8937DQ36481848-749708DC-BC47-4CD2-9395-EA24808C6537Q37825985-E0B681F0-8305-475A-949B-D543F3BF4700Q42020007-F3A1FB0A-3495-4BCB-A148-4E3DFEC152F4
P2860
Measurement of the magnitude and axis of corneal polarization with scanning laser polarimetry.
description
2002 nî lūn-bûn
@nan
2002 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Measurement of the magnitude a ...... th scanning laser polarimetry.
@ast
Measurement of the magnitude a ...... th scanning laser polarimetry.
@en
type
label
Measurement of the magnitude a ...... th scanning laser polarimetry.
@ast
Measurement of the magnitude a ...... th scanning laser polarimetry.
@en
prefLabel
Measurement of the magnitude a ...... th scanning laser polarimetry.
@ast
Measurement of the magnitude a ...... th scanning laser polarimetry.
@en
P1433
P1476
Measurement of the magnitude a ...... th scanning laser polarimetry.
@en
P2093
Christopher Bowd
David S Greenfield
P304
P356
10.1001/ARCHOPHT.120.7.901
P407
P577
2002-07-01T00:00:00Z