Exhibiting the diagnostic face of selenium nanoparticles as a radio-platform for tumor imaging.

Abstract

Selenium nanoparticles (SeNPs) have become one of the most prospective and promising tools in the course of cancer diagnosis and therapy. Here we describe the synthesis of a novel radioactive platform for tumor imaging using selenium nanoparticles. SeNPs were synthetized using dithionite and glutathione as reducing and capping agent respectively with 5mmol/L sodium selenite as a precursor and then SeNPs radiolabeled with technetium-99m, the most common and famous radioactive isotope used for imaging purposes. A characteristic profile for the synthesized SeNPs was performed including size analysis, zeta potential, antioxidant activity, radiochemical yield and in-vivo biodistribution in normal and solid tumor bearing mice. Size analysis showed amorphous SeNP cores of a mean diameter of 21±5nm with a hydrodynamic size of 43±8nm and -28mV zeta potential. The particles also showed a superior antioxidant activity of radical scavenging activity 55.6% according to DPPH assay, in addition, satisfying radiochemical yield up to 97±1.5 was achieved. In vivo studies were applied on male Swiss albino mice that demonstrated a good biodistribution pattern in normal mice with a moderate accumulation in liver at 30min post injection. Excellent T/NT ratios were obtained in solid tumor bearing mice throughout the experimental time points. The as-synthetized selenium nanoparticles demonstrated surprising and satisfying features which make them promising enough for tumor theranosis.