Abstract
Automatic skin layer segmentation in optical coherence tomography (OCT) images is important for a topographic assessment of skin or skin disease detection. However, existing methods cannot deal with the problem of shadowing in OCT images due to the presence of hair, scales, etc. In this work, we propose a method to segment the topmost layer of the skin (or the skin surface) using 3D graphs with a novel cost function to deal with shadowing in OCT images. 3D graph cuts use context information across B-scans when segmenting the skin surface, which improves the segmentation as compared to segmenting each B-scan separately. The proposed method reduces the segmentation error by more than 20% as compared to the best performing related work. The method has been applied to roughness estimation and shows a high correlation with a manual assessment. Promising results demonstrate the usefulness of the proposed method for skin layer segmentation and roughness estimation in both normal OCT images and OCT images with shadowing.
Highlights
Skin is the outer covering of the body and is composed of two major layers, namely the epidermis and the dermis
Our contribution In this paper, we propose a 3D graph-based method for skin surface segmentation in high definition (HD)-optical coherence tomography (OCT) images
To deal with shadowing in OCT images and to use the existing graph-based methods for skin layer segmentation, we propose a novel cost function to be used with the segmentation algorithm
Summary
Skin is the outer covering of the body and is composed of two major layers, namely the epidermis and the dermis. Diagnosis of many skin diseases can be performed by detecting abnormalities in these two layers. The gold standard for detecting abnormalities has been a histological analysis which involves biopsy [1]. Due to the invasive nature of biopsy, researchers are looking into non-invasive methods for skin analysis. A suitable non-invasive method relies on an imaging modality with the optimum resolution and penetration depth. Ultrasound is an imaging modality which has a high penetration depth of approximately 15mm but a resolution of only around
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