BACKGROUND: A number of studies have been performed for accurate evaluation of chromophores in skin lesions. Qualitative methods are subjective and cause user-dependent error in evaluation. Quantitative methods have limitations for widely distributed skin lesions due to poor spatial resolution, potential skin blanching, and difficulty in relocating identical sites for subsequent measurements and analysis. OBJECTIVE: The objective was to develop a new imaging modality that provides both qualitative and quantitative methods to evaluate widely distributed skin lesions. METHODS: We have developed a prototype polarization color imaging system named "DermaVision," which provides quantitative on-line image analysis of polarization color images. Herein, we describe the hardware and software of DermaVision in terms of its performance and usefulness for dermatologic applications. RESULTS: Polarization color images were successfully acquired from patients with vascular or pigmented skin lesions. The erythema and melanin index images were successfully computed and quantitatively confirmed the degree of erythema and pigmentation in the skin lesions. CONCLUSION: We believe that DermaVision can be a useful auxiliary tool in dermatology because it simultaneously provides both qualitative and quantitative images of skin lesions.
BACKGROUND: A number of studies have been performed for accurate evaluation of chromophores in skin lesions. Qualitative methods are subjective and cause user-dependent error in evaluation. Quantitative methods have limitations for widely distributed skin lesions due to poor spatial resolution, potential skin blanching, and difficulty in relocating identical sites for subsequent measurements and analysis. OBJECTIVE: The objective was to develop a new imaging modality that provides both qualitative and quantitative methods to evaluate widely distributed skin lesions. METHODS: We have developed a prototype polarization color imaging system named "DermaVision," which provides quantitative on-line image analysis of polarization color images. Herein, we describe the hardware and software of DermaVision in terms of its performance and usefulness for dermatologic applications. RESULTS: Polarization color images were successfully acquired from patients with vascular or pigmented skin lesions. The erythema and melanin index images were successfully computed and quantitatively confirmed the degree of erythema and pigmentation in the skin lesions. CONCLUSION: We believe that DermaVision can be a useful auxiliary tool in dermatology because it simultaneously provides both qualitative and quantitative images of skin lesions.
Authors: Ryan OʼSullivan; Lisa M Tom; Vatinee Y Bunya; William C Nyberg; Mina Massaro-Giordano; Ebenezer Daniel; Eli Smith; David H Brainard; James Gee; Maureen G Maguire; Richard A Stone Journal: Cornea Date: 2017-05 Impact factor: 2.651
Authors: Jin Hyong Cho; Ho Jin Lee; Kyu Jin Chung; Byung Chun Park; Mun Seog Chang; Seong Kyu Park Journal: Evid Based Complement Alternat Med Date: 2015-05-04 Impact factor: 2.629