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Imaging retinal structures at cellular-level resolution by visible-light optical coherence tomography

Shaohua Pi, Tristan T. Hormel, Xiang Wei, William O. Cepurna, John C. Morrison, Yali Jia

2020Optics Letters37 citationsDOIOpen Access PDF

Abstract

In vivo high-resolution images are the most direct way to understand retinal function and diseases. Here we report the use of visible-light optical coherence tomography with volumetric registration and averaging to achieve cellular-level retinal structural imaging in a rat eye, covering the entire depth of the retina. Vitreous fibers, nerve fiber bundles, and vasculature were clearly revealed, as well as at least three laminar sublayers in the inner plexiform layer. We also successfully visualized ganglion cell somas in the ganglion cell layer, cells in the inner nuclear layer, and photoreceptors in the outer nuclear layer and ellipsoid zone. This technique provides, to the best of our knowledge, a new means to visualize the retina in vivo at a cellular resolution and may enable detection or discovery of cellular neuronal biomarkers to help better diagnose ocular disease.

Topics & Concepts

Optical coherence tomographyRetinaRetinalInner plexiform layerGanglion cell layerNerve fiber layerOpticsInner nuclear layerPreclinical imagingMaterials scienceIn vivoPhysicsBiologyOphthalmologyMedicineBiotechnologyOptical Coherence Tomography ApplicationsGlaucoma and retinal disordersRetinal Development and Disorders