Objective: Early diagnosis of malignant tumors is essential to successfully plan a radical and curative approach. In this study we describe the direct radiolabeling of doxorubicin (DOX) at physiological pH to identify murine breast tumor (4T1 cells)-bearing BALB/c mice.
Materials and methods: Technetium-99m (99mTc) DOX was prepared by adding 99mTc-pertechnetate to a PBS (pH 7.4) solution containing DOX in the presence of stannous chloride. Radiochemical purity and in-vitro stability were determined. The circulation time of 99mTc-DOX was determined by measuring blood radioactivity in healthy animals. Scintigraphic images and biodistribution studies were carried out in tumor-bearing mice at 1, 4, and 8 h after injection.
Results: The 99mTc-DOX complex showed high radiochemical purity (99.27 ± 0.34%) and in-vitro stability until 8 h. Tc-DOX levels in blood declined in a biphasic manner, with an α half-life of 4.5 min and a β half-life of 277.2 min. High uptake was achieved in kidneys, liver, and spleen, because of the drug elimination routes. Moreover, tumor uptake was higher than that of control tissue, resulting in high tumor-to-muscle ratios.
Conclusion: DOX was successfully labeled with 99mTc-pertechnetate and showed high stability. Biodistribution and scintigraphic studies indicated high tumor-to-muscle ratios in breast tumor-bearing BALB/c mice. These results suggested the feasibility of 99mTc-DOX as a functional agent in tumor diagnosis.