Petra Gottlöber scite author profile

Identification of dermatophytes is usually based on morphological characteristics determined by time-consuming microscopic and cultural examinations. An effective PCR-ELISA method has been developed for rapid detection of dermatophyte species directly from clinical specimens within 24 h. Isolated genomic DNA of skin scrapings and nail samples from patients with suspected dermatophyte infections is amplified with species-specific digoxigenin-labelled primers targeting the topoisomerase II gene. The subsequent ELISA procedure with biotin-labelled probes allows a sensitive and specific identification of the five common dermatophytes -Trichophyton rubrum, T. interdigitale, T. violaceum, Microsporum canis and Epidermophyton floccosum. PCR-ELISA, based on the new polyphasic species concept, was assessed using 204 microscopy-positive samples in two university mycological laboratories in Munich and Tübingen, and 316 consecutive specimens - regardless of mycological findings - in a dermatological practice laboratory in Neu-Ulm. One of the five dermatophytes was confirmed by PCR-ELISA in 163 of 204 (79.9%) of the clinical samples from the university hospitals found positive using microscopy. Culture was positive for dermatophytes in 59.8% of the same cases. A significant difference between these two methods could be demonstrated using the McNemar test (P < 0.005). Analysis of specimens from Neu-Ulm confirmed the results in a dermatological practice laboratory as 25.0% of the specimens had positive PCR results, whereas only 7.3% were positive according to culture. Direct DNA isolation from clinical specimens and the PCR-ELISA method employed in this study provide a rapid, reproducible and sensitive tool for detection and discrimination of five major dermatophytes at species level, independent of morphological and biochemical characteristics.

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Delayed effects of accidental cutaneous radiation exposure: fifteen years of follow-up after the chernobyl accident

Steinert

Weiß

Gottlöber³

et al. 2003

Journal of the American Academy of Dermatology

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Dermatoscopy and High Frequency Sonography: Two Useful Non‐Invasive Methods to Increase Preoperative Diagnostic Accuracy in Pigmented Skin Lesions

Krähn

Gottlöber

Sander

et al. 1998

Pigment Cell Research

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Dermatoscopy and high frequency sonography have recently been combined to increase diagnostic preoperative accuracy in the treatment of pigmented skin lesions. In this monocentric study 80 patients with pigmented skin lesions were evaluated clinically, by dermatoscopy, and 20 MHz-sonography followed by dermatohistopathological evaluation; 39 malignant melanomas, 37 common nevi, 3 dysplastic nevi, and 1 nevus Spitz were diagnosed histologically. In 72 of the 80 cases (91.3%) dermatoscopical diagnoses were confirmed by histopathology, compared to only 79% correct clinical diagnoses. For the mere clinical diagnosis of melanoma sensitivity was 79%, specificity was 78% and diagnostic accuracy was 65%. All diagnostic values increased by dermatoscopy: sensitivity reached 90%, specificity was 93%, and diagnostic accuracy was 83%. In order to determine tumor thickness preoperatively tumor thickness was measured by 20 MHz sonography. The correlation of tumor thickness between histometric and sonographic results was determined for nevi (r = 0.93) and melanoma (r = 0.95); 74.3% of melanomas were diagnosed correctly within an 0.2 mm range. Regarding the clinical important limit of 1 mm tumor thickness, 87.2% were diagnosed in accordance with histometric evaluation. An increase of 18% in diagnostic accuracy by dermatoscopy and 87.2% of correctly diagnosed cases of tumor thickness of malignant melanoma by high frequency sonography clearly demonstrate that these methods should be considered standard procedures in the diagnosis of pigmented skin lesions and will facilitate the decision on necessary surgical treatment.

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Chronic sclerodermic graft-versus-host disease refractory to immunosuppressive treatment responds to UVA1 phototherapy

Grundmann-Kollmann¹,

Behrens²,

Gruss³

et al. 2000

Journal of the American Academy of Dermatology

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