This thesis focuses on the segmentation of Optical Coherence Tomography (OCT) images are used to assist in the diagnosis and treatment of several retinal diseases, such as age-related macular degeneration (AMD) and vitreomacular interface disorders (VID). The study uses the U-Net architecture for AMD to perform multiclass segmentation of biomarkers, specifically drusen, scars, and fluids. The performance of the standard U-Net is compared with various advanced U-Net architectures to determine the most effective model. Similarly, for VID, the segmentation task focuses on identifying macular holes, and the results from the U-Net model are compared with those from more sophisticated U-Net variants. Through extensive experimentation and analysis, this research aims to enhance the accuracy and reliability of OCT image segmentation, contributing to better diagnostic tools for these vision-threatening conditions.
Segmentation of OCT Biomarkers in Retinal Diseases using Deep Learning methods
Type: MA thesis
Status: running
Date: June 17, 2024 - December 17, 2024
Supervisors: Mikhail Kulyabin, Andreas Maier