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Adaptive optics scanning laser ophthalmoscopy and optical coherence tomography (AO-SLO-OCT) system for in vivo mouse retina imaging

Pengfei Zhang, Daniel J. Wahl, Jacopo Mocci, Eric B. Miller, Stefano Bonora, Marinko V. Šarunic, Robert J. Zawadzki

2022Biomedical Optics Express21 citationsDOIOpen Access PDF

Abstract

retinal diagnostics and are now commonly used in ophthalmology clinics as well as in vision science research. Adaptive optics (AO) technology enables high-fidelity correction of ocular aberrations, resulting in improved resolution and sensitivity for both SLO and OCT systems. The potential of gathering multi-modal cellular-resolution information in a single instrument is of great interest to the ophthalmic imaging community. Although similar instruments have been developed for imaging the human retina, developing such a system for mice will benefit basic science research and should help with further dissemination of AO technology. Here, we present our work integrating OCT into an existing mouse retinal AO-SLO system, resulting in a multi-modal AO-enhanced imaging system of the living mouse eye. The new system allows either independent or simultaneous data acquisition of AO-SLO and AO-OCT, depending on the requirements of specific scientific experiments. The system allows a data acquisition speed of 200 kHz A-scans/pixel rate for OCT and SLO, respectively. It offers ∼6 µm axial resolution for AO-OCT and a ∼1 µm lateral resolution for AO-SLO-OCT imaging.

Topics & Concepts

Optical coherence tomographyScanning laser ophthalmoscopyAdaptive opticsRetinaOpticsPreclinical imagingOphthalmoscopyIn vivoTomographyLaserCoherence (philosophical gambling strategy)OphthalmologyMedicinePhysicsBiologyBiotechnologyQuantum mechanicsOptical Coherence Tomography ApplicationsGlaucoma and retinal disordersRetinal Diseases and Treatments
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