BACKGROUND: Basal cell carcinoma (BCC) is the most common cancer in the US. Dermatoscopes are devices used by physicians to facilitate the early detection of these cancers based on the identification of skin lesion structures often specific to BCCs. One new lesion structure, referred to as dirt trails, has the appearance of dark gray, brown or black dots and clods of varying sizes distributed in elongated clusters with indistinct borders, often appearing as curvilinear trails. METHODS: In this research, we explore a dirt trail detection and analysis algorithm for extracting, measuring, and characterizing dirt trails based on size, distribution, and color in dermoscopic skin lesion images. These dirt trails are then used to automatically discriminate BCC from benign skin lesions. RESULTS: For an experimental data set of 35 BCC images with dirt trails and 79 benign lesion images, a neural network-based classifier achieved a 0.902 are under a receiver operating characteristic curve using a leave-one-out approach. CONCLUSION: Results obtained from this study show that automatic detection of dirt trails in dermoscopic images of BCC is feasible. This is important because of the large number of these skin cancers seen every year and the challenge of discovering these earlier with instrumentation.
BACKGROUND:Basal cell carcinoma (BCC) is the most common cancer in the US. Dermatoscopes are devices used by physicians to facilitate the early detection of these cancers based on the identification of skin lesion structures often specific to BCCs. One new lesion structure, referred to as dirt trails, has the appearance of dark gray, brown or black dots and clods of varying sizes distributed in elongated clusters with indistinct borders, often appearing as curvilinear trails. METHODS: In this research, we explore a dirt trail detection and analysis algorithm for extracting, measuring, and characterizing dirt trails based on size, distribution, and color in dermoscopic skin lesion images. These dirt trails are then used to automatically discriminate BCC from benign skin lesions. RESULTS: For an experimental data set of 35 BCC images with dirt trails and 79 benign lesion images, a neural network-based classifier achieved a 0.902 are under a receiver operating characteristic curve using a leave-one-out approach. CONCLUSION: Results obtained from this study show that automatic detection of dirt trails in dermoscopic images of BCC is feasible. This is important because of the large number of these skin cancers seen every year and the challenge of discovering these earlier with instrumentation.
Authors: Ankur Dalal; Randy H Moss; R Joe Stanley; William V Stoecker; Kapil Gupta; David A Calcara; Jin Xu; Bijaya Shrestha; Rhett Drugge; Joseph M Malters; Lindall A Perry Journal: Comput Med Imaging Graph Date: 2010-11-12 Impact factor: 4.790
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Authors: Howard W Rogers; Martin A Weinstock; Ashlynne R Harris; Michael R Hinckley; Steven R Feldman; Alan B Fleischer; Brett M Coldiron Journal: Arch Dermatol Date: 2010-03
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Authors: Jin Xu; Kapil Gupta; William V Stoecker; Yamini Krishnamurthy; Harold S Rabinovitz; Austin Bangert; David Calcara; Margaret Oliviero; Joseph M Malters; Rhett Drugge; R Joe Stanley; Randy H Moss; M Emre Celebi Journal: Arch Dermatol Date: 2009-11
Authors: Beibei Cheng; R Joe Stanley; William V Stoecker; Sherea M Stricklin; Kristen A Hinton; Thanh K Nguyen; Ryan K Rader; Harold S Rabinovitz; Margaret Oliviero; Randy H Moss Journal: Skin Res Technol Date: 2012-06-22 Impact factor: 2.365
Authors: Harald Kittler; Ashfaq A Marghoob; Giuseppe Argenziano; Cristina Carrera; Clara Curiel-Lewandrowski; Rainer Hofmann-Wellenhof; Josep Malvehy; Scott Menzies; Susana Puig; Harold Rabinovitz; Wilhelm Stolz; Toshiaki Saida; H Peter Soyer; Eliot Siegel; William V Stoecker; Alon Scope; Masaru Tanaka; Luc Thomas; Philipp Tschandl; Iris Zalaudek; Allan Halpern Journal: J Am Acad Dermatol Date: 2016-02-17 Impact factor: 11.527