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Perfluorinated Iridium Catalyst for Signal Amplification by Reversible Exchange Provides Metal-Free Aqueous Hyperpolarized [1-13C]-Pyruvate

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posted on 2024-08-26, 13:36 authored by Jess BenjaminiJess Benjamini, Burchelle BlackmanBurchelle Blackman, Natarajan Raju, Samuel A. Kotler, Eduard ChekmenevEduard Chekmenev, Boyd M. Goodson, Hellmut Merkle, Christopher A. LeClair, C. Murali Krishna, Rolf Swenson

Abstract: Hyperpolarized (HP) carbon-13 [13C] enables the specific investigation of dynamic metabolic and physiologic processes via in vivo MRI-based molecular imaging. As the leading HP metabolic agent, [1-13C]pyruvate plays a pivotal role due to its rapid tissue uptake and central role in cellular energetics. Dissolution Dynamic Nuclear Polarization (d-DNP) is considered the gold standard method for the production of HP metabolic probes; however, development of a faster, less-expensive technique could accelerate translation of metabolic imaging via HP MRI to routine clinical use. SABRE-SHEATH (Signal Amplification By Reversible Exchange in SHield Enabled Alignment Transfer) achieve rapid hyperpolarization by using parahydrogen (p-H2) as the source of nuclear spin order. Currently, SABRE is clinically limited due to the toxicity of the Iridium catalyst crucial to the SABRE process. To mitigate Ir contamination, we introduce a novel iteration of the SABRE catalyst, incorporating bis(polyfluoroalkylated) imidazolium salts. This novel perfluorinated SABRE catalyst retained polarization properties while exhibiting enhanced hydrophobicity. This modification allows the easy removal of the perfluorinated SABRE catalyst from HP [1-13C]-pyruvate after polarization in an aqueous solution, using the ReD-SABRE protocol. The residual Ir content after removal was measured via ICP-MS at 177 ppb, which is the lowest reported to date for pyruvate and sufficiently safe use in clinical investigations. Further improvement is anticipated once automated processes for delivery and recovery are initiated. SABRE-SHEATH using the perfluorinated SABRE catalyst can become an attractive low-cost alternative to d-DNP to prepare biocompatible HP [1-13C]-pyruvate formulations for in vivo applications in next-generation molecular imaging modalities.

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Chemistry and Synthesis Center (formerly IPDC)

National Heart Lung and Blood Institute

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