Concentration protocol of rhenium-188 perrhenate eluted from tungsten-188/rhenium-188 generator for the preparation of high-yield rhenium-188-labelled radiopharmaceuticals

Re-188-tricarbonyl tamoxifen as a theranostic radiopharmaceutical for estrogen receptor expressing breast cancers: radiolabeling, characterization and in-vitro cytotoxic assessment

PURPOSE

Development of a novel theranostic radiopharmaceutical for estrogen receptor, expressing unresectable primary and metastatic breast cancers.

METHODS

Tamoxifen was radiolabeled with Rhenium-188 (Re-188) through tricarbonyl core. Radiolabeled complex was characterized by 1proton nuclear magnetic resonance spectroscopy and Matrix-assisted laser desorption ionization-time of flight (MALDI-TOF). Various quality control tests such as sterility, apyrogenicity, and radiochemical purity (RCP) were performed to assess the suitability of the radiopharmaceutical for intravenous administration. In-vitro cell culture studies were performed for cytotoxic assessment. In addition to this, exposure due to different doses of Re-188-tricarbonyl tamoxifen was also calculated.

RESULTS

Re-188-tricarbonyl and Re-188-tricarbonyl tamoxifen showed more than 99% RCP. Sample was found to be sterile and pyrogens levels were within the permissible limit. Re-188-tricarbonyl tamoxifen was successfully characterized by MALDI-TOF and 1H-NMR spectroscopy. Re-188 (1.480 MBq) and tamoxifen (0.027 or 0.054 µM) individually showed 36 and 70% cell death, respectively. However, radiolabeled complex (Re-188-tricarbonyl tamoxifen) with the same amount of radioactivity (1.480 MBq) increased the cell death to more than 90% with one-fifth to one-tenth molar concentration of tamoxifen (0.0054 μM).

CONCLUSION

Re-188-tricarbonyl tamoxifen can be synthesized in-house in radiopharmacy lab. Radionuclide therapy with Re-188-tricarbonyl tamoxifen can be given using 10 times less amount of tamoxifen as compared to cold tamoxifen.

Rhenium-188 Labeled Radiopharmaceuticals: Current Clinical Applications in Oncology and Promising Perspectives

Rhenium-188 (¹⁸⁸Re) is a high energy beta-emitting radioisotope with a short 16.9 h physical half-life, which has been shown to be a very attractive candidate for use in therapeutic nuclear medicine. The high beta emission has an average energy of 784 keV and a maximum energy of 2.12 MeV, sufficient to penetrate and destroy targeted abnormal tissues. In addition, the low-abundant gamma emission of 155 keV (15%) is efficient for imaging and for dosimetric calculations. These key characteristics identify ¹⁸⁸Re as an important therapeutic radioisotope for routine clinical use. Moreover, the highly reproducible on-demand availability of ¹⁸⁸Re from the ¹⁸⁸W/¹⁸⁸Re generator system is an important feature and permits installation in hospital-based or central radiopharmacies for cost-effective availability of no-carrier-added (NCA) ¹⁸⁸Re. Rhenium-188 and technetium-99 m exhibit similar chemical properties and represent a “theranostic pair.” Thus, preparation and targeting of ¹⁸⁸Re agents for therapy is similar to imaging agents prepared with ^99mTc, the most commonly used diagnostic radionuclide. Over the last three decades, radiopharmaceuticals based on ¹⁸⁸Re-labeled small molecules, including peptides, antibodies, Lipiodol and particulates have been reported. The successful application of these ¹⁸⁸Re-labeled therapeutic radiopharmaceuticals has been reported in multiple early phase clinical trials for the management of various primary tumors, bone metastasis, rheumatoid arthritis, and endocoronary interventions. This article reviews the use of ¹⁸⁸Re-radiopharmaceuticals which have been investigated in patients for cancer treatment, demonstrating that ¹⁸⁸Re represents a cost effective alternative for routine clinical use in comparison to more expensive and/or less readily available therapeutic radioisotopes.