DFO-Km: A Modular Chelator as a New Chemical Tool for the Construction of Zirconium-89-Based Radiopharmaceuticals.

Zirconium-89-labeled monoclonal antibodies and other large macromolecules such as nanoparticles hold great promise as positron emission tomography imaging agents. In general, zirconium-89 is an ideal radionuclide for long-circulating vectors such as antibodies or nanoparticles. It is also a promising radionuclide for theranostic radiopharmaceuticals due to its suitable match in half-life with actinium-225, thorium-227, lutetium-177, and others.

Design, Synthesis, and Evaluation of DFO-Em: A Modular Chelator with Octadentate Chelation for Optimal Zirconium-89 Radiochemistry.

Zirconium-89 has quickly become a favorite radionuclide among academics and clinicians for nuclear imaging. This radiometal has a relatively long half-life, which matches the biological half-life of most antibodies, suitable decay properties for positron emission tomography (PET), and efficient and affordable cyclotron production and purification. The "gold standard" chelator for [Zr]Zr is desferrioxamine B (DFO), and although it has been used both preclinically and clinically for immunoPET with great success, it has revealed its suboptimal stability DFO can only bind to [Zr]Zr through its six available coordination sites made up by three hydroxamic acid (HA) moieties, which is not sufficient to saturate the coordination sphere (CN 7-8).