Optimized Methods for the Production of High-Purity<sup>203</sup>Pb Using Electroplated Thallium Targets
Shefali Saini, Jennifer L. Bartels, Jean-Pierre Appiah, Jason H. Rider, Nicholas J. Baumhover, Michael K. Schultz, Suzanne E. Lapi
Abstract
<sup>203</sup>Pb is a surrogate imaging match for <sup>212</sup>Pb. This elementally matched pair is emerging as a suitable pair for imaging and targeted radionuclide therapy in cancer care. Because of the half-life (51.9 h) and low-energy γ-rays emitted, <sup>203</sup>Pb is suitable for the development of diagnostic radiopharmaceuticals. The aim of this work was to optimize the production and separation of high-specific-activity <sup>203</sup>Pb using electroplated thallium targets. We further investigated the radiochemistry optimization using a suitable chelator, tetraazacyclododecane-1,4,7-triacetic acid (DO3A), and targeting vector, VMT-α-NET (lead-specific chelator conjugated to tyr3-octreotide via a polyethylene glycol linker). <b>Methods:</b> Targets were prepared by electroplating of natural or enriched (<sup>205</sup>Tl) thallium metal. Scanning electron microscopy was performed to determine the structure and elemental composition of electroplated targets. Targets were irradiated with 24-MeV protons with varying current and beam time to investigate target durability. <sup>203</sup>Pb was purified from the thallium target material using an extraction resin (lead resin) column followed by a second column using a weak cation-exchange resin to elute the lead isotope as [<sup>203</sup>Pb]PbCl<sub>2</sub>. Inductively coupled plasma mass spectrometry studies were used to further characterize the separation for trace metal contaminants. Radiolabeling efficiency was also investigated for DO3A chelator and VMT-α-NET (a peptide-based targeting conjugate). <b>Results:</b> Electroplated targets were prepared at a high plating density of 76–114 mg/cm<sup>2</sup> using a plating time of 5 h. A reproducible separation method was established with a final elution in HCl (400 μL, 1 M) suitable for radiolabeling. Greater than 90% recovery yields were achieved, with an average specific activity of 37.7 ± 5.4 GBq/μmol (1.1 ± 0.1 Ci/μmol). <b>Conclusion:</b> An efficient electroplating method was developed to prepare thallium targets suitable for cyclotron irradiation. A simple and fast separation method was developed for routine <sup>203</sup>Pb production with high recovery yields and purity.