Background In vivo confocal laser scanning microscopy (CLSM) represents a novel imaging tool that allows the noninvasive examination of skin cancer morphology in real time at a 'quasi‐histopathological' resolution viewing microanatomical structures and individual cells. Objectives To validate diagnostic confocal examination of melanocytic skin tumours using unselected tumour images. Methods In the present study, we used a total of 3709 unselected CLSM tumour images obtained from 20 malignant melanomas and 50 benign naevi. The entire set of images derived from each tumour was evaluated by independent observers. Classification tree analysis based on a subsample of 857 tumour images was performed to develop a diagnostic algorithm. Results Overall, sensitivity and specificity of 97·5% and 99% could be achieved by the independent observers (positive predictive value 97·5%, negative predictive value 99%). Classification tree analysis yielded a three‐step algorithm based on only three morphological CLSM features, facilitating a correct classification in 92·4% of the benign naevus images and 97·6% of melanoma images. Conclusions In vivo CLSM augurs a sea change in the way we will view skin tumour processes clinically at the bedside and merits application for use as a screening tool in skin oncology.
The clinical and histopathologic features of specific skin infiltrates in patients with B-cell chronic lymphocytic leukemia (B-CLL) have rarely been reported in detail. In this study we analyzed the clinical, histopathologic, immunophenotypic, and molecular features of 84 skin lesions from 42 patients (M:F = 1.3:1; mean age, 66.0 years; range, 42-83 years) with specific cutaneous manifestations of B-CLL. The duration of B-CLL before skin manifestations varied from 0 to 142 months (mean, 39 months). In seven patients (16.7%), skin lesions represented the first sign of disease. Clinical presentations included localized or generalized erythematous papules, plaques, nodules, and large tumors. Ulceration was uncommon. In six patients lesions were confined at the sites of scars from previous herpes zoster (four patients) or herpes simplex (two patients) eruptions. Histologically, three main patterns were recognized: (a) patchy perivascular and periadnexal, (b) nodular-diffuse, and (c) band-like. Cytomorphologically, small monomorphous lymphocytes predominated. Proliferation centers were observed in only four specimens. In two patients presenting with tumors, a high content of large cells with feature of centroblasts and immunoblasts was found (Richter's syndrome). Immunohistologic analyses were performed on paraffin-embedded specimens in 40 biopsies from 20 patients and on cryostat sections in 17 biopsies from 11 patients. Neoplastic B lymphocytes in all cases showed an aberrant phenotype (paraffin sections: CD20+/CD5+/CD43+; cryostat sections: CD19+/CD5+; immunoglobulin light-chain restriction). Proliferation markers (Ki67, PCNA, MIB1) stained 5 to 80% of cells (mean, 25%; median, 20%). Polymerase chain reaction performed in nine cases on paraffin-embedded tissues using consensus primers for immunoglobulin heavy-chain genes showed a monoclonal population of B lymphocytes in all cases. Several discrete bands in addition to the prominent ones were noted in five cases, indicating the additional presence of B lymphocytes whose immunoglobulin genes were not monoclonally but oligoclonally rearranged. Follow-up data could be obtained from 31 patients. The two patients with Richter's syndrome died after 5 and 8 months, respectively. The 5-year survival of patients with small-cell cutaneous B-CLL was 66.6%. Our study indicates that cutaneous specific manifestations of B-CLL present with characteristic histologic, immunophenotypic, and molecular patterns. Prognosis in these patients is probably not affected by skin involvement.
The microtubulus system as a part of the cellular cytoskeleton contributes to cell movement. Microtubulus assembly and disassembly is considered to be essential for tumor invasion and serves as a target for tumor chemotherapy. Using immunohistochemical methods, we investigated the distribution of tubulin in normal skin and 34 melanocytic skin tumors. In normal skin, tubulin was strongly expressed in dermal nerves, melanocytes, fibroblasts within the papillary dermis and in myoepithelial cells. In melanocytic skin tumors, nevus cells and melanoma cells stained positive, particularly at the periphery of the lesions, where there were single cells and small nests. The main difference between benign and malignant melanocytic tumors was found in the stromal cells: In melanocytic nevi, the stromal fibroblasts were entirely tubulin negative; whereas, adjacent to the invasive edge in primary and metastatic malignant melanoma, the stroma fibroblasts were strongly positive. Our results show that tubulin is regularly expressed in melanocytic skin tumors and may serve as a prerequisite for cell movement. The pronounced expression of tubulin in fibroblasts surrounding malignant melanocytic skin lesions reflects a stromal alteration that might contribute to tumor invasion.
Background: Teledermoscopy uses telecommunication technologies to transfer images of pigmented skin lesions, including clinical and anamnestic data, via email to specialized centers for teleconsultation.Design: Sixty-six pigmented skin lesions examined on a face-to-face basis in a skin lesion clinic in L'Aquila, Italy, were sent via e-mail on a standard-resolution color monitor for consultation at a university dermatology department in Graz, Austria.Intervention: Digital photographs of the clinical and dermoscopic images of all pigmented tumors were taken with a stereomicroscope connected to a high-resolution video camera in Truevision advanced graphic array (Targa) format file and converted successively into a Joint Photographic Expert Group (JPEG) format file.All lesions were excised surgically and diagnosed histopathologically.Main Outcome Measure: Diagnostic concordance between face-to-face diagnosis and telediagnosis.Results: The diagnostic concordance was 60 (91%) of 66 cases.The number of correct telediagnoses was lower, but the difference was not statistically significant (Wilcoxon test, P = .10).The accuracy of the telediagnoses was not related to the quality of the images, but highly depended on the level of diagnostic difficulty of a given pigmented skin tumor (Spearman correlation, P = .01). Conclusion:Teleconsultation of clinical and dermoscopic images of skin tumors via e-mail provides a similar degree of diagnostic accuracy as face-to-face diagnosis.
