The increasing incidence of melanoma and a lack of effective therapy have stimulated a search for new methods of early detection and treatment of the disease. Melanin synthesized in melanoma cells presents a unique target to which the treatment can be selectively addressed, provided the pigment is recognized by a suitable drug. Methylene blue possesses a high affinity for melanin and, therefore, accumulates preferentially in melanoma cells. Since not directly toxic to the tumor, methylene blue serves as a carrier for radioisotopes and, once taken up by melanoma cells, acts as a selectively localized source of radiation. Hence, radioderivatives of the compound can be used for diagnosis and therapy of disseminated melanoma. 131I-methylene blue in conjunction with gamma camera imaging has already proved in clinical studies to be a useful tool for the detection of early melanoma dissemination. 211At-methylene blue exceptional efficacy in treating melanoma and preventing its metastatic spread without damaging normal structures when administered systemically to human melanoma-bearing mice led to the approval of this alpha-particle emitting methylene blue derivative for the Phase I clinical trial.