Structural and Functional Imaging of the Retina in Central Retinal Artery Occlusion - Current Approaches and Future Directions.

TitleStructural and Functional Imaging of the Retina in Central Retinal Artery Occlusion - Current Approaches and Future Directions.
Publication TypeJournal Article
Year of Publication2021
AuthorsMac B Grory, M Schrag, S Poli, CJ Boisvert, MS Spitzer, M Schultheiss, M Nedelmann, S Yaghi, M Guhwe, EE Moore, HR Hewitt, KM Barter, T Kim, M Chen, L Humayun, C Peng, PY Chhatbar, P Lavin, X Zhang, X Jiang, E Raz, S Saidha, J Yao, V Biousse, and W Feng
JournalJ Stroke Cerebrovasc Dis
Volume30
Start Page105828
Issue7
Date Published07/2021
Abstract

Central retinal artery occlusion (CRAO) is a form of acute ischemic stroke which affects the retina. Intravenous thrombolysis is emerging as a compelling therapeutic approach. However, it is not known which patients may benefit from this therapy because there are no imaging modalities that adequately distinguish viable retina from irreversibly infarcted retina. The inner retina receives arterial supply from the central retinal artery and there is robust collateralization between this circulation and the outer retinal circulation, provided by the posterior ciliary circulation. Fundus photography can show canonical changes associated with CRAO including a cherry-red spot, arteriolar boxcarring and retinal pallor. Fluorescein angiography provides 2-dimensional imaging of the retinal circulation and can distinguish a complete from a partial CRAO as well as central versus peripheral retinal non-perfusion. Transorbital ultrasonography may assay flow through the central retinal artery and is useful in the exclusion of other orbital pathology that can mimic CRAO. Optical coherence tomography provides structural information on the different layers of the retina and exploratory work has described its utility in determining the time since onset of ischemia. Two experimental techniques are discussed. 1) Retinal functional imaging permits generation of capillary perfusion maps and can assay retinal oxygenation and blood flow velocity. 2) Photoacoustic imaging combines the principles of optical excitation and ultrasonic detection and - in animal studies - has been used to determine the retinal oxygen metabolic rate. Future techniques to determine retinal viability in clinical practice will require rapid, easily used, and reproducible methods that can be deployed in the emergency setting.

DOI10.1016/j.jstrokecerebrovasdis.2021.105828
Short TitleJ Stroke Cerebrovasc Dis