4.7 Article

Noninvasive detection of the endogenous free radical melanin in human skin melanomas using electron paramagnetic resonance (EPR)

Journal

FREE RADICAL BIOLOGY AND MEDICINE
Volume 190, Issue -, Pages 226-233

Publisher

ELSEVIER SCIENCE INC
DOI: 10.1016/j.freeradbiomed.2022.08.020

Keywords

Electron Paramagnetic Resonance (EPR); Melanoma; Nevi; Diagnostic; Melanin

Funding

  1. Belgian National Fund for Scientific Research (FNRS)
  2. Foundation against Cancer [2020-105]
  3. Fonds speciaux de recherches (FSR, UCLouvain)
  4. Fonds Speciaux de Recherches (UCLouvain)
  5. FNRS

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This study explored the capability of low-frequency Electron Paramagnetic Resonance (EPR) to detect melanin in the human skin. The results showed that EPR could differentiate the EPR signal of melanin between melanoma and benign nevi, providing a new method for the diagnosis of pigmented skin lesions.
We explored the capability of low-frequency Electron Paramagnetic Resonance (EPR) to noninvasively detect melanin (a stable semiquinone free radical) in the human skin. As previous in vitro studies on biopsies suggested that the EPR signal from melanin was different when measured in skin melanomas or benign nevi, we conducted a prospective first-in-man clinical EPR study in patients with skin lesions suspicious of melanoma. EPR spectra were obtained using a spectrometer operating at 1 GHz, with a surface coil placed over the area of interest. Two clinical studies were carried out: 1) healthy volunteers (n = 45) presenting different skin phototypes; 2) patients (n = 88) with skin lesions suspicious of melanoma (n = 100) requiring surgical resection. EPR data obtained before surgery were compared with histopathology results. The method was not sensitive enough to measure differences in melanin content due to changes in skin pigmentation. In patients, 92% of the spectra were analyzable. The EPR signal of melanin was significantly higher (p < 0.0001) in melanoma lesions (n = 26) than that in benign atypical nevi (n = 62). A trend toward a higher signal intensity (though not significant) was observed in high Breslow depth melanomas (a marker of skin invasion) than in low Breslow lesions. To date, no naturally occurring free radicals have been detected by low-frequency EPR systems adapted for clinical studies. Here, we demonstrated for the first time the ability of this technology to detect an endogenous free radical, opening new avenues for evaluating clinical EPR as a potential aid in the diagnosis of pigmented skin lesions.

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