Optical coherence tomography (OCT) has wide application in medicine, particularly ophthalmology. In the anterior chamber of the eye, OCT can potentially image blood cells to monitor cellular response to injury or inflammation. However, low volumetric refresh rates limit OCT in applications that require the tracking of individual, moving cells. Therefore, we propose an efficient 3D cell tracking using adaptive scanning OCT. Adaptive scanning prioritizes capturing regions of interest that change from volume to volume. Using depth information from OCT A-scans, our cell tracking method successfully localized simulated cells across multiple OCT volumes.
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