Optical coherence tomography angiography in eyes with retinal vein occlusion

Optical coherence angiography (OCTA) is a noninvasive technique that has been introduced in recent years to detect ophthalmological pathology. The growing usage of OCTA to detect retinal abnormalities can be attributed to its advantages over the reference-standard fluorescein angiography (FA), altho...

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Vydané v:	Journal of ophthalmic & vision research Ročník 13; číslo 3; s. 315 - 332
Hlavní autori:	Tsai, Grace, Banaee, Touka, Conti, Felipe, Singh, Rishi
Médium:	Journal Article
Jazyk:	English
Vydavateľské údaje:	United Arab Emirates Wolters Kluwer India Pvt. Ltd 01.07.2018 Medknow Publications and Media Pvt. Ltd Medknow Publications & Media Pvt. Ltd Medknow Publications & Media Pvt Ltd Knowledge E
Predmet:	Algorithms Angiography Automation Diabetic retinopathy Macular degeneration Macular Edema; Macular Ischemia; Optical Coherence Tomography Angiography; Retina; Retinal Vascular Disease; Retinal Vein Occlusion Medical imaging Retina Review Tomography Veins & arteries United States > US Japan Macular Ischemia Retinal Vascular Disease Macular Edema Retina Retinal Vein Occlusion Optical Coherence Tomography Angiography
ISSN:	2008-322X, 2008-2010, 2008-322X
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Abstract	Optical coherence angiography (OCTA) is a noninvasive technique that has been introduced in recent years to detect ophthalmological pathology. The growing usage of OCTA to detect retinal abnormalities can be attributed to its advantages over the reference-standard fluorescein angiography (FA), although both of these techniques can be used in association. OCTA's advantages include its dye independency, its ability to produce depth-resolved images of retinal and choroidal vessels that yield images of different vascular layers of the retina, and the better delineation of the foveal avascular zone. OCTA's disadvantages include the lack of normalized patient data, artefactual projection issues, and its inability to detect low-flow lesions or pathologic conditions. Different OCTA platforms use unique algorithms to detect microvasculature, which are implemented in both spectral-domain (SD) and swept-source (SS) OCT machines. Microvascular changes in retinal vein occlusions (RVOs) are visible in both the superficial and deep capillary networks of the retina in OCTA. These visualizations include a decrease in foveal and parafoveal vascular densities, non-perfusion areas, capillary engorgement and telangiectasias, vascular tortuosity, microaneurysms, disruption of the foveal perivascular plexus, and formation of collateral vessels. The restricted field of view and inability to show leakage are important limitations associated with the use of OCTA in RVO cases. In this article, we present a brief overview of OCTA and a review of the changes detectable in different slabs by OCTA in RVO cases published in PubMed and Embase.
AbstractList	Optical coherence angiography (OCTA) is a noninvasive technique that has been introduced in recent years to detect ophthalmological pathology. The growing usage of OCTA to detect retinal abnormalities can be attributed to its advantages over the reference-standard fluorescein angiography (FA), although both of these techniques can be used in association. OCTA's advantages include its dye independency, its ability to produce depth-resolved images of retinal and choroidal vessels that yield images of different vascular layers of the retina, and the better delineation of the foveal avascular zone. OCTA's disadvantages include the lack of normalized patient data, artefactual projection issues, and its inability to detect low-flow lesions or pathologic conditions. Different OCTA platforms use unique algorithms to detect microvasculature, which are implemented in both spectral-domain (SD) and swept-source (SS) OCT machines. Microvascular changes in retinal vein occlusions (RVOs) are visible in both the superficial and deep capillary networks of the retina in OCTA. These visualizations include a decrease in foveal and parafoveal vascular densities, non-perfusion areas, capillary engorgement and telangiectasias, vascular tortuosity, microaneurysms, disruption of the foveal perivascular plexus, and formation of collateral vessels. The restricted field of view and inability to show leakage are important limitations associated with the use of OCTA in RVO cases. In this article, we present a brief overview of OCTA and a review of the changes detectable in different slabs by OCTA in RVO cases published in PubMed and Embase. Optical coherence angiography (OCTA) is a noninvasive technique that has been introduced in recent years to detect ophthalmological pathology. The growing usage of OCTA to detect retinal abnormalities can be attributed to its advantages over the reference-standard fluorescein angiography (FA), although both of these techniques can be used in association. OCTA's advantages include its dye independency, its ability to produce depth-resolved images of retinal and choroidal vessels that yield images of different vascular layers of the retina, and the better delineation of the foveal avascular zone. OCTA's disadvantages include the lack of normalized patient data, artefactual projection issues, and its inability to detect low-flow lesions or pathologic conditions. Different OCTA platforms use unique algorithms to detect microvasculature, which are implemented in both spectral-domain (SD) and swept-source (SS) OCT machines. Microvascular changes in retinal vein occlusions (RVOs) are visible in both the superficial and deep capillary networks of the retina in OCTA. These visualizations include a decrease in foveal and parafoveal vascular densities, non-perfusion areas, capillary engorgement and telangiectasias, vascular tortuosity, microaneurysms, disruption of the foveal perivascular plexus, and formation of collateral vessels. The restricted field of view and inability to show leakage are important limitations associated with the use of OCTA in RVO cases. In this article, we present a brief overview of OCTA and a review of the changes detectable in different slabs by OCTA in RVO cases published in PubMed and Embase.Optical coherence angiography (OCTA) is a noninvasive technique that has been introduced in recent years to detect ophthalmological pathology. The growing usage of OCTA to detect retinal abnormalities can be attributed to its advantages over the reference-standard fluorescein angiography (FA), although both of these techniques can be used in association. OCTA's advantages include its dye independency, its ability to produce depth-resolved images of retinal and choroidal vessels that yield images of different vascular layers of the retina, and the better delineation of the foveal avascular zone. OCTA's disadvantages include the lack of normalized patient data, artefactual projection issues, and its inability to detect low-flow lesions or pathologic conditions. Different OCTA platforms use unique algorithms to detect microvasculature, which are implemented in both spectral-domain (SD) and swept-source (SS) OCT machines. Microvascular changes in retinal vein occlusions (RVOs) are visible in both the superficial and deep capillary networks of the retina in OCTA. These visualizations include a decrease in foveal and parafoveal vascular densities, non-perfusion areas, capillary engorgement and telangiectasias, vascular tortuosity, microaneurysms, disruption of the foveal perivascular plexus, and formation of collateral vessels. The restricted field of view and inability to show leakage are important limitations associated with the use of OCTA in RVO cases. In this article, we present a brief overview of OCTA and a review of the changes detectable in different slabs by OCTA in RVO cases published in PubMed and Embase.
Audience	Academic
Author	Tsai, Grace Singh, Rishi Conti, Felipe Banaee, Touka
AuthorAffiliation	4 Cleveland Clinic, Lerner College of Medicine, Case Western Reserve University, Cleveland, USA 2 School of Medicine, Royal College of Surgeons in Ireland, Ireland 1 Cole Eye Institute, Cleveland Clinic, Cleveland, Ohio, USA 3 Department of Ophthalmology, Faculty of Medicine, Mashhad University of Medical Sciences, Mashhad, Iran
AuthorAffiliation_xml	– name: 2 School of Medicine, Royal College of Surgeons in Ireland, Ireland – name: 3 Department of Ophthalmology, Faculty of Medicine, Mashhad University of Medical Sciences, Mashhad, Iran – name: 4 Cleveland Clinic, Lerner College of Medicine, Case Western Reserve University, Cleveland, USA – name: 1 Cole Eye Institute, Cleveland Clinic, Cleveland, Ohio, USA
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/30090189$$D View this record in MEDLINE/PubMed
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Cites_doi	10.1159/isbn.978-3-318-05830-7 10.1097/IAE.0000000000001541 10.1007/s10792-017-0570-y 10.1097/IAE.0000000000001737
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Keywords	Macular Ischemia Retinal Vascular Disease Macular Edema Retina Retinal Vein Occlusion Optical Coherence Tomography Angiography
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Snippet	Optical coherence angiography (OCTA) is a noninvasive technique that has been introduced in recent years to detect ophthalmological pathology. The growing...
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SubjectTerms	Algorithms Angiography Automation Diabetic retinopathy Macular degeneration Macular Edema; Macular Ischemia; Optical Coherence Tomography Angiography; Retina; Retinal Vascular Disease; Retinal Vein Occlusion Medical imaging Retina Review Tomography Veins & arteries
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Title	Optical coherence tomography angiography in eyes with retinal vein occlusion
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