about
REPEATABILITY AND LONGITUDINAL ASSESSMENT OF FOVEAL CONE STRUCTURE IN CNGB3-ASSOCIATED ACHROMATOPSIA.Imaging Foveal Microvasculature: Optical Coherence Tomography Angiography Versus Adaptive Optics Scanning Light Ophthalmoscope Fluorescein AngiographyAn Automated Reference Frame Selection (ARFS) Algorithm for Cone Imaging with Adaptive Optics Scanning Light Ophthalmoscopy.In vivo imaging of the fine structure of rhodamine-labeled macaque retinal ganglion cells.In vivo imaging of microscopic structures in the rat retinaFirst-order design of off-axis reflective ophthalmic adaptive optics systems using afocal telescopes.Selective cone photoreceptor injury in acute macular neuroretinopathyUnsupervised identification of cone photoreceptors in non-confocal adaptive optics scanning light ophthalmoscope images.Microscopic inner retinal hyper-reflective phenotypes in retinal and neurologic disease.In vivo imaging of human cone photoreceptor inner segments.Progression of Local Glaucomatous Damage Near Fixation as Seen with Adaptive Optics Imaging.Relationship between foveal cone specialization and pit morphology in albinismThe reliability of parafoveal cone density measurements.A prospective longitudinal study of retinal structure and function in achromatopsia.Outer retinal structure after closed-globe blunt ocular trauma.Adaptive optics retinal imaging in the living mouse eyeHuman cone visual pigment deletions spare sufficient photoreceptors to warrant gene therapyNon-common path aberration correction in an adaptive optics scanning ophthalmoscopeGenotype-dependent variability in residual cone structure in achromatopsia: toward developing metrics for assessing cone healthRace- and sex-related differences in retinal thickness and foveal pit morphology.Assessment of perfused foveal microvascular density and identification of nonperfused capillaries in healthy and vasculopathic eyesAdaptive optics imaging of healthy and abnormal regions of retinal nerve fiber bundles of patients with glaucoma.Reflective afocal broadband adaptive optics scanning ophthalmoscope.Photoreceptor structure and function in patients with congenital achromatopsia.Confocal Adaptive Optics Imaging of Peripapillary Nerve Fiber Bundles: Implications for Glaucomatous Damage Seen on Circumpapillary OCT Scans.Visualization of retinal vascular structure and perfusion with a nonconfocal adaptive optics scanning light ophthalmoscope.Subclinical photoreceptor disruption in response to severe head traumaAssessing photoreceptor structure after macular hole closure.Multimodal Imaging of Photoreceptor Structure in Choroideremia.Retinal Architecture in RGS9- and R9AP-Associated Retinal Dysfunction (Bradyopsia).Author response: relationship between foveal cone specialization and pit morphology in albinismAssessing retinal structure in complete congenital stationary night blindness and Oguchi diseaseDetails of Glaucomatous Damage Are Better Seen on OCT En Face Images Than on OCT Retinal Nerve Fiber Layer Thickness Maps.Correlating Photoreceptor Mosaic Structure to Clinical Findings in Stargardt Disease.Noninvasive imaging of the thirteen-lined ground squirrel photoreceptor mosaic.FELLOW EYE CHANGES IN PATIENTS WITH NONISCHEMIC CENTRAL RETINAL VEIN OCCLUSION: Assessment of Perfused Foveal Microvascular Density and Identification of Nonperfused Capillaries.ASSESSING PHOTORECEPTOR STRUCTURE ASSOCIATED WITH ELLIPSOID ZONE DISRUPTIONS VISUALIZED WITH OPTICAL COHERENCE TOMOGRAPHY.Longitudinal imaging of microvascular remodelling in proliferative diabetic retinopathy using adaptive optics scanning light ophthalmoscopy.Automatic detection of cone photoreceptors in split detector adaptive optics scanning light ophthalmoscope images.Cone Photoreceptor Structure in Patients With X-Linked Cone Dysfunction and Red-Green Color Vision Deficiency.
P50
Q30490821-CD66BEA8-38FB-4857-8D0F-A8603D7AE5B6Q30792885-CE52BC31-2FBD-488C-99B4-0BC3299FC9DCQ30844195-37281405-8D95-4E03-ABC4-52D4C0813E6CQ33313071-5AA0E457-796A-45A5-9E53-59A7B09F3BA9Q33478311-8F3C362B-6857-4F74-B0BA-536C119EEF30Q33550328-CA5E3FAD-BECA-4C76-9B81-78B64A68E355Q33787103-F7EA6BBB-2148-41B3-9BA0-8A254ED98D0FQ33824512-90FFC10A-1434-4C67-B556-7660A6182AD4Q33835668-AD2FD634-F8E1-4C19-B687-8237B6111B4CQ33892926-384F86FC-3F25-45BE-9423-7844FCD3D71AQ33900773-3BCE71D9-AB91-4640-BFE4-99A5A0CE6B41Q33901490-C1B87ED6-F7D6-4627-A6F7-ECDC81DAF9C8Q33956362-6E4BFB67-7B88-4DDB-9101-0906278FB6F1Q34166706-6C4088FF-D0D0-4D5B-9342-F933E1B1841AQ34243600-9A7E1C44-EB56-4C3F-91EB-3A0255CBAD4CQ34264986-630800D7-4B8A-4B1F-831D-2951E6D7813BQ34373332-524761F4-67D3-46F8-9E43-75D89E66D609Q34505383-800C1B31-DA1B-49EF-86E2-BBFBBD7AD5DFQ34531205-D2120B00-E70F-4680-AF10-29EF6EA5E397Q34646882-4A3920DF-B5ED-443E-88C3-1545A1CEB232Q34699948-13C6B0F9-50AF-4266-B6ED-35D2687A38A8Q35031208-2C1BD69F-0FD5-4670-B4B9-C47196500AAFQ35042964-43ABBA43-8271-422B-BE53-000A8B9F1771Q35247580-6AD18B17-A24D-4C70-AA35-B92F99175B82Q35508047-6836E24D-F518-48FE-AA49-661DC6118628Q35736336-62830F0E-1037-4A0A-8827-ABC6BC16E143Q35896354-584C74C4-968B-4B9D-A9EC-06654004F8D5Q36011204-F0C626E2-90CD-42F9-9257-7031C724931CQ36218035-C4EDF65D-E3BA-45E8-864C-FA4A9B41B659Q36300101-5875F92D-80E9-4169-A9B3-E485C93A0712Q36394961-2C7EFA19-AB90-40A2-8F8A-995D5D77A017Q36400102-5D3DF328-09E8-4838-A7B1-051C641EE23EQ36436673-BB24C9D3-C80C-4F26-88C8-25A9D593F7E0Q36683791-E46B5A15-F92D-4F2F-B488-4EF2219B013CQ36692104-9E1FC023-4FEC-45C0-8A04-A6943EBC5096Q36753457-E070CD12-998A-4228-8A96-91408A893FD8Q36830639-BDBB9140-C4E0-4812-BBBB-EF7C3FA54CC4Q36839968-A25DE8F0-0BF5-4004-A867-3690EE94EA0FQ36912091-FD5D377C-756B-4A5C-8DCA-338A821A6CCDQ37142003-F1C67F7F-BB0E-4071-AC67-68BCB38D4D58
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Alfredo Dubra
@ast
Alfredo Dubra
@en
Alfredo Dubra
@es
Alfredo Dubra
@nl
type
label
Alfredo Dubra
@ast
Alfredo Dubra
@en
Alfredo Dubra
@es
Alfredo Dubra
@nl
prefLabel
Alfredo Dubra
@ast
Alfredo Dubra
@en
Alfredo Dubra
@es
Alfredo Dubra
@nl
P106
P21
P31
P496
0000-0002-6506-9020