Joonsoo Park1, In Soo Chae1, Dong Rak Kwon2. 1. Departments of Dermatology (J.P., I.S.C.) and Rehabilitation Medicine (D.R.K.), Catholic University of Daegu, School of Medicine, Daegu, Korea. 2. Departments of Dermatology (J.P., I.S.C.) and Rehabilitation Medicine (D.R.K.), Catholic University of Daegu, School of Medicine, Daegu, Korea. coolkwon@cu.ac.kr dongrakkwon@hotmail.com.
Abstract
OBJECTIVES: This study aimed to evaluate the correlation of sonoelastographic features between ruptured and unruptured epidermal cysts. METHODS: We performed a prospective survey of 27 patients with clinically suspected epidermal cysts diagnosed by excisional biopsy with prebiopsy sonography and real-time sonoelastography. We statistically evaluated the correlation between elastographic and histopathologic features. To measure the relative hardness on elastography, the Rinside/Routside ratio was used to show the ratio of the elasticity inside and outside the cyst, where the random value R was defined as the median red pixel intensity/(median red pixel intensity + median green pixel intensity + median blue pixel intensity). RESULTS: Only 24 of the 27 patients were enrolled. Among the 24 diagnosed epidermal cysts, 13 were unruptured cysts, and 11 were ruptured cysts based on histopathologic examination. There was no correlation between sonographically and histopathologically measured cyst diameters. The Rinside/Routside ratio was significantly higher in unruptured cysts than ruptured cysts (mean ± SD, 1.16 ± 0.15 versus 1.04 ± 0.13; P = .047). All values below the cutoff point were considered to indicate ruptured cysts, and the cutoff value was set to 1.0919, which afforded sensitivity of 83.3% and specificity of 66.7%. CONCLUSIONS: Real-time sonoelastography is able to detect differences in tissue elasticity between ruptured and unruptured epidermal cysts. This study shows the utility of real-time sonoelastography, which has important implications for treatment planning.
OBJECTIVES: This study aimed to evaluate the correlation of sonoelastographic features between ruptured and unruptured epidermal cysts. METHODS: We performed a prospective survey of 27 patients with clinically suspected epidermal cysts diagnosed by excisional biopsy with prebiopsy sonography and real-time sonoelastography. We statistically evaluated the correlation between elastographic and histopathologic features. To measure the relative hardness on elastography, the Rinside/Routside ratio was used to show the ratio of the elasticity inside and outside the cyst, where the random value R was defined as the median red pixel intensity/(median red pixel intensity + median green pixel intensity + median blue pixel intensity). RESULTS: Only 24 of the 27 patients were enrolled. Among the 24 diagnosed epidermal cysts, 13 were unruptured cysts, and 11 were ruptured cysts based on histopathologic examination. There was no correlation between sonographically and histopathologically measured cyst diameters. The Rinside/Routside ratio was significantly higher in unruptured cysts than ruptured cysts (mean ± SD, 1.16 ± 0.15 versus 1.04 ± 0.13; P = .047). All values below the cutoff point were considered to indicate ruptured cysts, and the cutoff value was set to 1.0919, which afforded sensitivity of 83.3% and specificity of 66.7%. CONCLUSIONS: Real-time sonoelastography is able to detect differences in tissue elasticity between ruptured and unruptured epidermal cysts. This study shows the utility of real-time sonoelastography, which has important implications for treatment planning.