Real-time, non-contact, cellular imaging and angiography of human cornea and limbus with common-path Full-field/SDOCT

• Published in: arXiv.org
• Main Authors: Mazlin, Viacheslav, Xiao, Peng, Scholler, Jules, Irsch, Kristina, Grieve, Kate, Fink, Mathias, Boccara, A Claude
• Format: Paper Journal Article
• Language: English
• Published: Ithaca Cornell University Library, arXiv.org 22.01.2020
• Subjects: Angiography; Blood flow; Blood vessels; Contrast agents; Cornea; Defocusing; Field of view; Flow velocity; Fluorescein; Imaging; Nerves; Physics - Medical Physics; Real time; Ultrasonic testing
• ISSN: 2331-8422
• DOI: 10.48550/arxiv.2001.08213

In today's clinics, a cellular-resolution view of the cornea can be achieved only with an in vivo confocal microscope (IVCM) in contact with the eye. Here, we present a common-path Full-field/Spectral-domain OCT microscope (FF/SD OCT), which, for the first time, enables cell-detail imaging of the entire ocular surface (central and peripheral cornea, limbus, sclera, tear film) without contact and in real time. The device, which has been successfully tested in human subjects, is now ready for direct implementation in clinical research. Real-time performance is achieved through rapid axial eye tracking and simultaneous defocusing correction. Images, extracted from real-time videos, contain cells and nerves, which can be quantified over a millimetric field-of-view, beyond the capability of IVCM and conventional OCT. In the limbus, Palisades of Vogt, vessels and blood flow can be resolved with high contrast without contrast agent injection. The fast imaging speed of 275 frames/s (0.6 billion pixels/s) allowed direct monitoring of blood flow dynamics, enabling creation of high-resolution velocity maps for the first time. Tear flow velocity and evaporation time could be measured without fluorescein administration.