BACKGROUND AND DESIGN: Previous studies have referred to the value of epiluminescence microscopy in the differential diagnosis of pigmented skin lesions and to the possibility of preoperative tumor thickness measurement in malignant melanoma by high-frequency ultrasound. Both noninvasive methods have been combined in this study. The question of improved diagnostic accuracy was discussed. Previously proposed epiluminescence microscopic characteristics of 508 melanocytic lesions and sonographic characteristics of 792 skin tumors were investigated for their sensitivity and specificity. The tumor thickness of 108 malignant melanomas was measured sonographically. RESULTS: Black dots, irregular pigment network, and grayish-blue areas have been shown to be the most sensitive characteristics, whereas pseudopods, grayish-blue areas, and a whitish veil have been shown to be the most specific epiluminescence microscopic features for malignant melanoma. Sonography alone cannot reliably distinguish between different skin tumors. Preoperatively, the tumor thickness of 85% of the melanomas was assessed correctly concerning the pT stage. CONCLUSIONS: A 20-MHz ultrasound, in addition to epiluminescence microscopy, may improve the diagnostic accuracy by delivering information about depth and topographic location of skin tumors, but cannot give highly specific information about tissue dignity. It is a reliable tool for tumor thickness measurement for surgical planning.
BACKGROUND AND DESIGN: Previous studies have referred to the value of epiluminescence microscopy in the differential diagnosis of pigmented skin lesions and to the possibility of preoperative tumor thickness measurement in malignant melanoma by high-frequency ultrasound. Both noninvasive methods have been combined in this study. The question of improved diagnostic accuracy was discussed. Previously proposed epiluminescence microscopic characteristics of 508 melanocytic lesions and sonographic characteristics of 792 skin tumors were investigated for their sensitivity and specificity. The tumor thickness of 108 malignant melanomas was measured sonographically. RESULTS: Black dots, irregular pigment network, and grayish-blue areas have been shown to be the most sensitive characteristics, whereas pseudopods, grayish-blue areas, and a whitish veil have been shown to be the most specific epiluminescence microscopic features for malignant melanoma. Sonography alone cannot reliably distinguish between different skin tumors. Preoperatively, the tumor thickness of 85% of the melanomas was assessed correctly concerning the pT stage. CONCLUSIONS: A 20-MHz ultrasound, in addition to epiluminescence microscopy, may improve the diagnostic accuracy by delivering information about depth and topographic location of skin tumors, but cannot give highly specific information about tissue dignity. It is a reliable tool for tumor thickness measurement for surgical planning.
Authors: Jacqueline Dinnes; Jonathan J Deeks; Naomi Chuchu; Rubeta N Matin; Kai Yuen Wong; Roger Benjamin Aldridge; Alana Durack; Abha Gulati; Sue Ann Chan; Louise Johnston; Susan E Bayliss; Jo Leonardi-Bee; Yemisi Takwoingi; Clare Davenport; Colette O'Sullivan; Hamid Tehrani; Hywel C Williams Journal: Cochrane Database Syst Rev Date: 2018-12-04
Authors: Jacqueline Dinnes; Jonathan J Deeks; Naomi Chuchu; Lavinia Ferrante di Ruffano; Rubeta N Matin; David R Thomson; Kai Yuen Wong; Roger Benjamin Aldridge; Rachel Abbott; Monica Fawzy; Susan E Bayliss; Matthew J Grainge; Yemisi Takwoingi; Clare Davenport; Kathie Godfrey; Fiona M Walter; Hywel C Williams Journal: Cochrane Database Syst Rev Date: 2018-12-04