Photoreceptor layer thinning over drusen in eyes with age-related macular degeneration imaged in vivo with spectral-domain optical coherence tomography
about
Real-Time Automatic Segmentation of Optical Coherence Tomography Volume Data of the Macular RegionA view of the current and future role of optical coherence tomography in the management of age-related macular degeneration.An Automatic Algorithm for Segmentation of the Boundaries of Corneal Layers in Optical Coherence Tomography Images using Gaussian Mixture Model.Cone structure imaged with adaptive optics scanning laser ophthalmoscopy in eyes with nonneovascular age-related macular degeneration.Assessing the photoreceptor mosaic over drusen using adaptive optics and SD-OCT.Evaluation of intraretinal migration of retinal pigment epithelial cells in age-related macular degeneration using polarimetric imaging.Optimizing hand-held spectral domain optical coherence tomography imaging for neonates, infants, and children.Quantitative comparison of drusen segmented on SD-OCT versus drusen delineated on color fundus photographsThree dimensional optical coherence tomography imaging: advantages and advances.Documentation of intraretinal retinal pigment epithelium migration via high-speed ultrahigh-resolution optical coherence tomographyRevealing Henle's fiber layer using spectral domain optical coherence tomography.Assessing the cone photoreceptor mosaic in eyes with pseudodrusen and soft Drusen in vivo using adaptive optics imaging.Association of OCT derived drusen measurements with AMD associated-genotypic SNPs in Amish populationInner Segment Remodeling and Mitochondrial Translocation in Cone Photoreceptors in Age-Related Macular Degeneration With Outer Retinal Tubulation.In-vivo mapping of drusen by fundus autofluorescence and spectral-domain optical coherence tomography imaging.Drusen and photoreceptor abnormalities in African-Americans with intermediate non-neovascular age-related macular degenerationFlecks in Recessive Stargardt Disease: Short-Wavelength Autofluorescence, Near-Infrared Autofluorescence, and Optical Coherence TomographyClinical application of ocular imagingAutomated Retinal Image Analysis for Evaluation of Focal Hyperpigmentary Changes in Intermediate Age-Related Macular Degeneration.Serum levels of lipid metabolites in age-related macular degeneration.Fundus autofluorescence and spectral-domain optical coherence tomography findings suggesting tissue remodelling in retinal pigment epithelium tear.Recent advances in the management of dry age-related macular degeneration: A review.Relationship between retinal layer thickness and the visual field in early age-related macular degeneration.Spectral-domain optical coherence tomography characteristics of intermediate age-related macular degeneration.Comparison of drusen area detected by spectral domain optical coherence tomography and color fundus imagingEn face spectral-domain optical coherence tomography outer retinal analysis and relation to visual acuity.Imaging drusens using Spectral Domain Optical Coherence Tomography.Dry age-related macular degeneration: mechanisms, therapeutic targets, and imaging.Association between retinal thickness measured by spectral-domain optical coherence tomography (OCT) and rod-mediated dark adaptation in non-exudative age-related maculopathy.Quantitative classification of eyes with and without intermediate age-related macular degeneration using optical coherence tomography.Wide-field retinal optical coherence tomography with wavefront sensorless adaptive optics for enhanced imaging of targeted regions.Optical coherence tomography-based correlation between choroidal thickness and drusen load in dry age-related macular degeneration.Retinal pigment epithelial detachments in age-related macular degeneration: classification and therapeutic options.Predicting visual outcomes for macular disease using optical coherence tomography.Structural changes in individual retinal layers in diabetic macular edemaOptical Coherence Tomography Predictors of Risk for Progression to Non-Neovascular Atrophic Age-Related Macular Degeneration.Activated Retinal Pigment Epithelium, an Optical Coherence Tomography Biomarker for Progression in Age-Related Macular Degeneration.Algorithms for the Automated Analysis of Age-Related Macular Degeneration Biomarkers on Optical Coherence Tomography: A Systematic Review.Cell-based therapeutic strategies for replacement and preservation in retinal degenerative diseases.Optical Coherence Tomography Angiography of Dry Age-Related Macular Degeneration.
P2860
Q27301907-C68F0A93-F1A8-465C-A35E-548F7EDF2488Q30240689-118AA0E0-3CBE-47E6-BE6D-739330475EA1Q30428928-3AB826B2-E25D-47B4-A9FA-FEC57E108912Q30557413-19255B28-6042-4302-9B88-7AAC53248CB4Q33758580-166B75F1-2A47-4CA5-8B4E-AA8031A3400AQ33784551-26D1ED95-8353-4BA7-A41A-7FCCA9E04406Q33845530-3B1D5AC7-2DA4-48E5-BB4A-2024F41D7F70Q34127143-93F8474F-F660-477C-95FC-D27E028C3416Q34233357-9A5E8665-7F5D-4C75-85F2-126E3139E14DQ34762448-BA947FF7-48E5-4D14-AC60-0163438A7586Q35005846-A039D3FB-2E00-4B54-BA4D-228F90B74538Q35030732-3BC06C16-3306-4C89-B5F9-D5BE10F4BC5EQ35429130-77BE04B6-9636-417B-8584-764610C4F24FQ35521509-764A0B8C-CF7C-4CB2-BE58-CA65EF0AD62EQ35612233-EC15BDE2-4BB6-4146-98BC-CBFC0C6786A4Q35809866-68A435B3-C556-4F32-9BD7-E338607D57B7Q35918487-58933BFC-8513-42CA-AD73-A1F56029336BQ35947194-C6D2C5A5-FA58-4C4F-AF03-1CDA769250C7Q35953591-E5BB6106-0B8E-4BC0-80C8-D374ACCD45B4Q36171270-F7F28284-AD46-4E54-B0B3-5C1E0D85E49BQ36204338-047A9BEA-97CA-45F1-AC88-FD71C34CC6C3Q36377333-6341E12F-09C1-4F97-94EF-B5307B7C7AF9Q36391547-405D23EC-8294-450B-A0E0-866645C22672Q36508205-7A8CC40B-8D3A-4DCB-A1C1-7B3EC9695DD2Q36758308-1F83B829-FC86-40C2-9656-09C69FEDC13DQ36999875-05AA8FC2-3FC9-44DB-BAAB-6FE5650D8D84Q37004821-4DC6186E-D18D-4923-8489-9A6FF83E4FB7Q37395303-EDC0B694-3783-4158-B186-0C996C9AEC22Q37438802-7B876CEA-DF0F-44BE-B620-192DEBAFBDCAQ37513827-DDF3FDD5-7AA4-4437-A736-BB0AB12795C3Q37583066-AE8CFF77-0691-4A43-B909-8369F8D0F8E3Q37626354-67F3620B-DED4-4D7B-8F73-9A6C6A014931Q37879178-62A0F532-F867-4810-A87B-13F43F0F6492Q38130239-436869AF-87EF-4B64-AD37-AB1EC488BB91Q38145185-075A9E4D-0D98-4DBA-9586-C76EAB5894D2Q38605292-E8A9C381-07B8-4573-A915-E9C0B97F0CCCQ38635651-B2B81ABC-EF4A-4627-B9D5-D03E3486866EQ38668952-692DB602-E5E6-4C2A-A84E-E5E733739699Q38767261-F21356F6-E6B9-4171-8263-A111C36D668DQ38792215-E5B50A50-2798-4507-AC02-74522BB6A266
P2860
Photoreceptor layer thinning over drusen in eyes with age-related macular degeneration imaged in vivo with spectral-domain optical coherence tomography
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 22 January 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Photoreceptor layer thinning o ...... n optical coherence tomography
@en
Photoreceptor layer thinning o ...... optical coherence tomography.
@nl
type
label
Photoreceptor layer thinning o ...... n optical coherence tomography
@en
Photoreceptor layer thinning o ...... optical coherence tomography.
@nl
prefLabel
Photoreceptor layer thinning o ...... n optical coherence tomography
@en
Photoreceptor layer thinning o ...... optical coherence tomography.
@nl
P2093
P2860
P1433
P1476
Photoreceptor layer thinning o ...... n optical coherence tomography
@en
P2093
Anjum F Koreishi
Cynthia A Toth
Joseph A Izatt
Sin-ho Jung
Stefanie G Schuman
P2860
P304
488-496.e2
P356
10.1016/J.OPHTHA.2008.10.006
P50
P577
2009-01-22T00:00:00Z