Epivascular microstructures investigated by pyramid wavefront sensor-based AO-OCT

Elisabeth Brunner; Laura Kunze; Victoria Hutterer; Daniel Jodlbauer; Wolfgang Drexler; Ronny Ramlau; Andreas Pollreisz; Michael Pircher

doi:10.1117/12.3005620

13 March 2024 Epivascular microstructures investigated by pyramid wavefront sensor-based AO-OCT

Elisabeth Brunner, Laura Kunze, Victoria Hutterer, Daniel Jodlbauer, Wolfgang Drexler, Ronny Ramlau, Andreas Pollreisz, Michael Pircher

Author Affiliations +

Proceedings Volume PC12824, Ophthalmic Technologies XXXIV; PC1282405 (2024) https://doi.org/10.1117/12.3005620
Event: SPIE BiOS, 2024, San Francisco, California, United States

Abstract

Epivascular microstructures, a potential biomarker for retinal diseases, are investigated in the living human retina using adaptive optics optical coherence tomography (AO-OCT). The AO correction is driven by a four-sided pyramid wavefront sensor with a loop bandwidth of 30 Hz. In order to achieve a stable placement of the focus of the imaging beam in the desired retinal layer, a new concept for focus shifting is introduced which uses an in vivo calibration routine that is performed pre-imaging in each subject. The capability of the instrument is demonstrated by visualizing hyporeflective microstructures situated along the retinal vasculature with single volume AO-OCT images recorded at an extended 4° x 4° field of view.

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Elisabeth Brunner, Laura Kunze, Victoria Hutterer, Daniel Jodlbauer, Wolfgang Drexler, Ronny Ramlau, Andreas Pollreisz, and Michael Pircher "Epivascular microstructures investigated by pyramid wavefront sensor-based AO-OCT", Proc. SPIE PC12824, Ophthalmic Technologies XXXIV, PC1282405 (13 March 2024); https://doi.org/10.1117/12.3005620

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KEYWORDS

Adaptive optics optical coherence tomography

Wavefront sensors

Adaptive optics

Retina

Visualization

Reflection

Retinal scanning

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