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11 March 2008 Automated retinal layer segmentation in OCT images using spatially variant filtering
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We have developed a new method to segment and analyze retinal layers in optical coherence tomography (OCT) images with the intent of monitoring changes in thickness of retinal layers due to disease. OCT is an imaging modality that obtains cross-sectional images of the retina, which makes it possible to measure thickness of individual layers. In this paper we present a method that identifies six key layers in OCT images. OCT images present challenges to conventional edge detection algorithms, including that due to the presence of speckle noise which affects the sharpness of inter-layer boundaries significantly. We use a directional filter bank, which has a wedge shaped passband that helps reduce noise while maintaining edge sharpness, in contrast to previous methods that use Gaussian filter or median filter variants that reduce the edge sharpness resulting in poor edge-detection performance. This filter is utilized in a spatially variant setting which uses additional information from the intersecting scans. The validity of extracted edge cues is determined according to the amount of gray-level transition across the edge, strength, continuity, relative location and polarity. These cues are processed according to the retinal model that we have developed and the processing yields edge contours.
© (2008) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Ahmet M. Bagci, Rashid Ansari, and Mahnaz Shahidi "Automated retinal layer segmentation in OCT images using spatially variant filtering", Proc. SPIE 6914, Medical Imaging 2008: Image Processing, 691440 (11 March 2008);


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