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Over 20% Carbon-13 Polarization of Perdeuterated Pyruvate Using Reversible Exchange with Parahydrogen and Spin-Lock Induced Crossing at 50 μT

Andreas B. Schmidt, James Eills, Laurynas Dagys, Martin Gierse, Michael Keim, Sebastian Lucas, Michael Bock, Ilai Schwartz, Maxim Zaitsev, Eduard Y. Chekmenev, Stephan Knecht

2023The Journal of Physical Chemistry Letters42 citationsDOI

Abstract

Carbon-13 hyperpolarized pyruvate is about to become the next-generation contrast agent for molecular magnetic resonance imaging of cancer and other diseases. Here, efficient and rapid pyruvate hyperpolarization is achieved via signal amplification by reversible exchange (SABRE) with parahydrogen through synergistic use of substrate deuteration, alternating, and static microtesla magnetic fields. Up to 22 and 6% long-lasting 13 C polarization ( T 1 = 3.7 ± 0.25 and 1.7 ± 0.1 min) is demonstrated for the C1 and C2 nuclear sites, respectively. The remarkable polarization levels become possible as a result of favorable relaxation dynamics at the microtesla fields. The ultralong polarization lifetimes will be conducive to yielding high polarization after purification, quality assurance, and injection of the hyperpolarized molecular imaging probes. These results pave the way to future in vivo translation of carbon-13 hyperpolarized molecular imaging probes prepared by this approach.

Topics & Concepts

Spin isomers of hydrogenHyperpolarization (physics)Polarization (electrochemistry)Nuclear magnetic resonanceInduced polarizationChemistryMaterials scienceNuclear magnetic resonance spectroscopyPhysicsHydrogenPhysical chemistryElectrical resistivity and conductivityQuantum mechanicsOrganic chemistryAdvanced NMR Techniques and ApplicationsSolid-state spectroscopy and crystallographyAtomic and Subatomic Physics Research
Over 20% Carbon-13 Polarization of Perdeuterated Pyruvate Using Reversible Exchange with Parahydrogen and Spin-Lock Induced Crossing at 50 μT | Litcius