BACKGROUND: Blue-gray ovoids (B-GOs), a critical dermoscopic structure for basal cell carcinoma (BCC), offer an opportunity for automatic detection of BCC. Due to variation in size and color, B-GOs can be easily mistaken for similar structures in benign lesions. Analysis of these structures could afford accurate characterization and automatic recognition of B-GOs, furthering the goal of automatic BCC detection. This study utilizes a novel segmentation method to discriminate B-GOs from their benign mimics. METHODS: Contact dermoscopy images of 68 confirmed BCCs with B-GOs were obtained. Another set of 131 contact dermoscopic images of benign lesions possessing B-GO mimics provided a benign competitive set. A total of 22 B-GO features were analyzed for all structures: 21 color features and one size feature. Regarding segmentation, this study utilized a novel sector-based, non-recursive segmentation method to expand the masks applied to the B-GOs and mimicking structures. RESULTS: Logistic regression analysis determined that blue chromaticity was the best feature for discriminating true B-GOs in BCC from benign, mimicking structures. Discrimination of malignant structures was optimal when the final B-GO border was approximated by a best-fit ellipse. Using this optimal configuration, logistic regression analysis discriminated the expanded and fitted malignant structures from similar benign structures with a classification rate as high as 96.5%. CONCLUSIONS: Experimental results show that color features allow accurate expansion and localization of structures from seed areas. Modeling these structures as ellipses allows high discrimination of B-GOs in BCCs from similar structures in benign images.
BACKGROUND: Blue-gray ovoids (B-GOs), a critical dermoscopic structure for basal cell carcinoma (BCC), offer an opportunity for automatic detection of BCC. Due to variation in size and color, B-GOs can be easily mistaken for similar structures in benign lesions. Analysis of these structures could afford accurate characterization and automatic recognition of B-GOs, furthering the goal of automatic BCC detection. This study utilizes a novel segmentation method to discriminate B-GOs from their benign mimics. METHODS: Contact dermoscopy images of 68 confirmed BCCs with B-GOs were obtained. Another set of 131 contact dermoscopic images of benign lesions possessing B-GO mimics provided a benign competitive set. A total of 22 B-GO features were analyzed for all structures: 21 color features and one size feature. Regarding segmentation, this study utilized a novel sector-based, non-recursive segmentation method to expand the masks applied to the B-GOs and mimicking structures. RESULTS: Logistic regression analysis determined that blue chromaticity was the best feature for discriminating true B-GOs in BCC from benign, mimicking structures. Discrimination of malignant structures was optimal when the final B-GO border was approximated by a best-fit ellipse. Using this optimal configuration, logistic regression analysis discriminated the expanded and fitted malignant structures from similar benign structures with a classification rate as high as 96.5%. CONCLUSIONS: Experimental results show that color features allow accurate expansion and localization of structures from seed areas. Modeling these structures as ellipses allows high discrimination of B-GOs in BCCs from similar structures in benign images.
Authors: M Emre Celebi; Hitoshi Iyatomi; William V Stoecker; Randy H Moss; Harold S Rabinovitz; Giuseppe Argenziano; H Peter Soyer Journal: Comput Med Imaging Graph Date: 2008-09-19 Impact factor: 4.790
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
Authors: Yue Cheng; Ragavendar Swamisai; Scott E Umbaugh; Randy H Moss; William V Stoecker; Saritha Teegala; Subhashini K Srinivasan Journal: Skin Res Technol Date: 2008-02 Impact factor: 2.365
Authors: Anna Liza Chan Agero; Klaus J Busam; Cristiane Benvenuto-Andrade; Alon Scope; Melissa Gill; Ashfaq A Marghoob; Salvador González; Allan C Halpern Journal: J Am Acad Dermatol Date: 2006-04 Impact factor: 11.527
Authors: Davide Altamura; Scott W Menzies; Giuseppe Argenziano; Iris Zalaudek; H Peter Soyer; Francesco Sera; Michelle Avramidis; Kathryn DeAmbrosis; Maria Concetta Fargnoli; Ketty Peris Journal: J Am Acad Dermatol Date: 2009-10-13 Impact factor: 11.527