Reproducibility of peripapillary retinal nerve fiber layer thickness and optic nerve head parameters measured with cirrus HD-OCT in glaucomatous eyes
about
Influence of clinically invisible, but optical coherence tomography detected, optic disc margin anatomy on neuroretinal rim evaluation.Relationship between spectral-domain optical coherence tomography and standard automated perimetry in healthy and glaucoma patients.Clinical use of OCT in assessing glaucoma progression.Astigmatism and optical coherence tomography measurements.Comparison of measurement error of Cirrus HD-OCT and Heidelberg Retina Tomograph 3 in patients with early glaucomatous visual field defect.Age-associated changes in the retinal nerve fiber layer and optic nerve headDetermination of axial length requiring adjustment of measured circumpapillary retinal nerve fiber layer thickness for ocular magnification.Comparison of optic nerve head parameters using Heidelberg Retina Tomograph 3 and spectral-domain optical coherence tomography.The relationship between retinal nerve fiber layer thickness and optic nerve head neuroretinal rim tissue in glaucomaTest-retest variability in structural parameters measured with glaucoma imaging devices.Enhanced detection of open-angle glaucoma with an anatomically accurate optical coherence tomography-derived neuroretinal rim parameter.Comparison of retinal nerve fiber layer thickness in vivo and axonal transport after chronic intraocular pressure elevation in young versus older rats.Variation of laminar depth in normal eyes with age and race.Tracking changes over time in retinal nerve fiber layer and ganglion cell-inner plexiform layer thickness in multiple sclerosis.One-year follow-up of macular ganglion cell layer and peripapillary retinal nerve fibre layer thickness changes after panretinal photocoagulation.Optic nerve head assessment: comparison of Cirrus optic coherence tomography and Heidelberg Retinal Tomograph 3.Glaucoma research community and FDA look to the future, II: NEI/FDA Glaucoma Clinical Trial Design and Endpoints Symposium: measures of structural change and visual function.Reproducibility of peripapillary retinal nerve fiber layer thickness measurements with cirrus HD-OCT in glaucomatous eyesRetinal nerve fibre layer thickness floor and corresponding functional loss in glaucomaReproducibility of retinal nerve fiber layer thickness measures using eye tracking in children with nonglaucomatous optic neuropathyThe Use of Spectral-Domain Optical Coherence Tomography to Detect Glaucoma Progression.Reproducibility of retinal nerve fiber layer measurements across the glaucoma spectrum using optical coherence tomography.Agreement between retinal nerve fiber layer measures from Spectralis and Cirrus spectral domain OCT.MicroPulse Laser Trabeculoplasty for the Treatment of Open-Angle GlaucomaDifferences of Intrasession Reproducibility of Circumpapillary Total Retinal Thickness and Circumpapillary Retinal Nerve Fiber Layer Thickness Measurements Made with the RS-3000 Optical Coherence Tomograph.Clinical application of ocular imagingVariance components in confocal scanning laser tomography measurements of neuro-retinal rim area and the effect of repeated measurements on the power to detect loss over time.Correlation in retinal nerve fibre layer thickness in uveitis and healthy eyes using scanning laser polarimetry and optical coherence tomography.OCT-Based Quantification and Classification of Optic Disc Structure in Glaucoma PatientsOptical coherence tomography for the evaluation of retinal and optic nerve morphology in animal subjects: practical considerations.A formula to predict spectral domain optical coherence tomography (OCT) retinal nerve fiber layer measurements based on time domain OCT measurementsOptimizing the information yield of 3-D OCT in glaucoma.Combining information from 3 anatomic regions in the diagnosis of glaucoma with time-domain optical coherence tomography.Does the Location of Bruch's Membrane Opening Change Over Time? Longitudinal Analysis Using San Diego Automated Layer Segmentation Algorithm (SALSA).Changes in Retinal Nerve Fiber Layer Reflectance Intensity as a Predictor of Functional Progression in GlaucomaEvaluating glaucoma damage: emerging imaging technologiesAdjustment of the retinal angle in SD-OCT of glaucomatous eyes provides better intervisit reproducibility of peripapillary RNFL thickness.From clinical examination of the optic disc to clinical assessment of the optic nerve head: a paradigm change.Effect of head tilt on repeatability of optic nerve head parameters using cirrus spectral-domain optical coherence tomographyClinical Utility of Optical Coherence Tomography in Glaucoma.
P2860
Q30576737-49C222BE-C3BD-4020-A617-4715A9541897Q33852898-68BD7891-5541-40D5-8547-6B39C1AE363EQ33971701-5D524812-6C6C-439A-8501-373C7E4F6653Q34000946-308642DA-A196-4778-B8EE-26370433C067Q34007023-5BA39DFC-1C1C-423D-A166-7F1B55CDF122Q34064090-3F9C100F-B799-4A66-BB5B-29D2CC26173BQ34172784-253F2590-4BF4-473C-A696-E37BFBF7796EQ34186370-AACD7880-F03E-4637-81A6-FC9FFA1D8E90Q34426325-8382A5A8-6718-4E90-9D0D-6A4A048BD0E0Q34471403-D66172B5-04AD-4F39-BF6B-DD48F897231FQ34522438-B4AC3320-FE1A-4E46-B632-E0CCD7170935Q34682128-C636F8AD-48A7-47CC-A35A-02B5B1D3987AQ34699995-81916533-6490-4890-8ABD-BCE4CC7CB8C9Q35013317-4DF63817-711B-40FE-A8E3-ED1A2A7DB767Q35047832-03D2A0A8-7F97-455E-9732-786DDDB23F86Q35143464-FD9ADF75-DCA9-4780-81F6-31AA561E4550Q35520003-91EAC75D-CED4-4CAB-8D24-7E321134329DQ35566734-B01DAD90-380B-4BA8-8788-81F77F71FE8AQ35638836-E781B1F3-0DD4-4B9F-A6BD-048CBC7F556FQ35681599-35FDDA4E-B9B6-43FC-AA9B-9147E63413D5Q35697729-17AB1391-1913-4D6E-BA28-10DA3F8DD410Q35722463-CBFDA8FF-0E56-4098-958D-B9686416B009Q35823118-B4A5B94C-DCCC-4C12-A823-ACFCA2CAA340Q35866081-0A1E3A4E-233D-4BAA-9922-73164F4CA890Q35866573-258D304D-05B2-4122-8A50-C07987132063Q35947194-1E0AAD4A-7FA3-44CC-AC67-3F0BA9FD13DDQ36032701-951BEA5C-F3A0-49F8-B74C-63DA512E2D2CQ36056046-9E22724C-A73E-4F9D-A693-795E08E9A2F7Q36111604-BE7C0352-ED36-4764-AD68-4E49EE4A675AQ36282626-9ED9C676-B2D1-496C-86EC-5F4C9EDDDCEAQ36297607-16F4EB08-37F2-474D-BE23-FB08649F63F1Q36467214-18F4CBD9-DBDA-4A6A-B6AA-8E3BA3B49430Q36504155-7BAAE4D9-2707-4063-90EF-4E55E1290EEEQ36630896-9005D921-4BEC-48A9-876A-0A77367BCFA5Q36692453-11D3AA30-B84B-4947-B1B4-C5CB4401EA55Q36795027-38198EA5-F1E9-48BE-B9E9-4FDD321FA1B7Q37037754-2B48F133-87F5-4495-92BB-FDCA1A1DB96FQ37038587-8432406A-C772-4B61-AF23-3F1833B66F79Q37188124-C44B13DC-D638-40BE-9871-2F5521852902Q37189230-92C38189-B4FE-4BDE-A9D4-17E27809B3AA
P2860
Reproducibility of peripapillary retinal nerve fiber layer thickness and optic nerve head parameters measured with cirrus HD-OCT in glaucomatous eyes
description
2010 nî lūn-bûn
@nan
2010 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Reproducibility of peripapilla ...... us HD-OCT in glaucomatous eyes
@ast
Reproducibility of peripapilla ...... us HD-OCT in glaucomatous eyes
@en
Reproducibility of peripapilla ...... us HD-OCT in glaucomatous eyes
@nl
type
label
Reproducibility of peripapilla ...... us HD-OCT in glaucomatous eyes
@ast
Reproducibility of peripapilla ...... us HD-OCT in glaucomatous eyes
@en
Reproducibility of peripapilla ...... us HD-OCT in glaucomatous eyes
@nl
prefLabel
Reproducibility of peripapilla ...... us HD-OCT in glaucomatous eyes
@ast
Reproducibility of peripapilla ...... us HD-OCT in glaucomatous eyes
@en
Reproducibility of peripapilla ...... us HD-OCT in glaucomatous eyes
@nl
P2093
P2860
P356
P1476
Reproducibility of peripapilla ...... us HD-OCT in glaucomatous eyes
@en
P2093
Donald L Budenz
Jean-Claude Mwanza
Mary K Durbin
Mohamed G Gendy
Robert T Chang
William J Feuer
P2860
P304
P356
10.1167/IOVS.10-5222
P407
P577
2010-06-23T00:00:00Z