Clinical application of optical coherence tomography for the imaging of non–melanocytic cutaneous tumors: a pilot multi–modal study

Context: Optical coherence tomography (OCT) is an emergent imaging technique, based on the interference of infrared radiation and living tissues, that allows the in vivo visualisation of the skin structures, at high resolution and up to 1.6 mm depth. As such, there is mounting evidence that OCT may be an interesting technique for the diagnossis of skin diseases, including the non–invasive early detection of cutaneous tumors. Objective: We aimed to investigate the utility of OCT for the diagnosis of non–melanocytic, non–pigmented cutaneous tumors. Methods: Preliminary results are presented from an initiated study. Fifteen consecutive patients with clinical suspicion of epithelial cancers and precancers registered over one week in an university dermatologic department were included. As control were selected 7 patients with inflammatory skin diseases (psoriasis, lichen planus, cutaneous lupus erythematosus). In all study and control patients the lesions and samples of normal, perilesional skin were documented by clinical digital photography, contact dermoscopy with digital image capture and OCT with central wavelength of 930 nm. Final diagnosis was certified by histopathological analysis. Results: We could identify morphological features in OCT examination that distinguished between normal and lesional skin, and between neoplastic vs. inflamatory lesions. In the same time, combining OCT and dermatoscopical evaluation of a lesion improved the performance of diagnosis when compared to clinical diagnosis alone and with either OCT or dermoscopy imaging used alone. Conclusions: OCT appears as a promising method of in vivo diagnosis of early neoplastic cutaneous lesions with equivocal clinical and/or dermoscopic aspect. Continuation of our study as well as other larger investigation will be able to contribute with new insights in the role of OCT in the non–invasive diagnosis of skin disease.

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