Parahydrogen‐Polarized [1‐13C]Pyruvate for Reliable and Fast Preclinical Metabolic Magnetic Resonance Imaging

Luca Nagel; Martin Gierse; Wolfgang Gottwald; Zumrud Ahmadova; Martin Grashei; Pascal Wolff; Felix Josten; Senay Karaali; Christoph A. Müller; Sebastian Lucas; Jochen Scheuer; Christoph Müller; John Blanchard; Geoffrey J. Topping; Andre Wendlinger; Nadine Setzer; Sandra Sühnel; Jonas Handwerker; Christophoros Vassiliou; Frits H.A. vanHeijster; Stephan Knecht; Michael Keim; Franz Schilling; Ilai Schwartz

doi:10.1002/advs.202303441

Advanced Science (Oct 2023)

Parahydrogen‐Polarized [1‐13C]Pyruvate for Reliable and Fast Preclinical Metabolic Magnetic Resonance Imaging

Luca Nagel,
Martin Gierse,
Wolfgang Gottwald,
Zumrud Ahmadova,
Martin Grashei,
Pascal Wolff,
Felix Josten,
Senay Karaali,
Christoph A. Müller,
Sebastian Lucas,
Jochen Scheuer,
Christoph Müller,
John Blanchard,
Geoffrey J. Topping,
Andre Wendlinger,
Nadine Setzer,
Sandra Sühnel,
Jonas Handwerker,
Christophoros Vassiliou,
Frits H.A. vanHeijster,
Stephan Knecht,
Michael Keim,
Franz Schilling,
Ilai Schwartz

Affiliations

Luca Nagel: Department of Nuclear Medicine, TUM School of Medicine Klinikum rechts der Isar of Technical University of Munich 81675 Munich Germany
Martin Gierse: NVision Imaging Technologies GmbH 89081 Ulm Germany
Wolfgang Gottwald: Department of Nuclear Medicine, TUM School of Medicine Klinikum rechts der Isar of Technical University of Munich 81675 Munich Germany
Zumrud Ahmadova: NVision Imaging Technologies GmbH 89081 Ulm Germany
Martin Grashei: Department of Nuclear Medicine, TUM School of Medicine Klinikum rechts der Isar of Technical University of Munich 81675 Munich Germany
Pascal Wolff: NVision Imaging Technologies GmbH 89081 Ulm Germany
Felix Josten: NVision Imaging Technologies GmbH 89081 Ulm Germany
Senay Karaali: NVision Imaging Technologies GmbH 89081 Ulm Germany
Christoph A. Müller: NVision Imaging Technologies GmbH 89081 Ulm Germany
Sebastian Lucas: NVision Imaging Technologies GmbH 89081 Ulm Germany
Jochen Scheuer: NVision Imaging Technologies GmbH 89081 Ulm Germany
Christoph Müller: NVision Imaging Technologies GmbH 89081 Ulm Germany
John Blanchard: NVision Imaging Technologies GmbH 89081 Ulm Germany
Geoffrey J. Topping: Department of Nuclear Medicine, TUM School of Medicine Klinikum rechts der Isar of Technical University of Munich 81675 Munich Germany
Andre Wendlinger: Department of Nuclear Medicine, TUM School of Medicine Klinikum rechts der Isar of Technical University of Munich 81675 Munich Germany
Nadine Setzer: Department of Nuclear Medicine, TUM School of Medicine Klinikum rechts der Isar of Technical University of Munich 81675 Munich Germany
Sandra Sühnel: Department of Nuclear Medicine, TUM School of Medicine Klinikum rechts der Isar of Technical University of Munich 81675 Munich Germany
Jonas Handwerker: NVision Imaging Technologies GmbH 89081 Ulm Germany
Christophoros Vassiliou: NVision Imaging Technologies GmbH 89081 Ulm Germany
Frits H.A. vanHeijster: Department of Nuclear Medicine, TUM School of Medicine Klinikum rechts der Isar of Technical University of Munich 81675 Munich Germany
Stephan Knecht: NVision Imaging Technologies GmbH 89081 Ulm Germany
Michael Keim: NVision Imaging Technologies GmbH 89081 Ulm Germany
Franz Schilling: Department of Nuclear Medicine, TUM School of Medicine Klinikum rechts der Isar of Technical University of Munich 81675 Munich Germany
Ilai Schwartz: NVision Imaging Technologies GmbH 89081 Ulm Germany

DOI: https://doi.org/10.1002/advs.202303441
Journal volume & issue: Vol. 10, no. 30
pp. n/a – n/a

Abstract

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Abstract Hyperpolarization techniques increase nuclear spin polarization by more than four orders of magnitude, enabling metabolic MRI. Even though hyperpolarization has shown clear value in clinical studies, the complexity, cost and slowness of current equipment limits its widespread use. Here, a polarization procedure of [1‐13C]pyruvate based on parahydrogen‐induced polarization by side‐arm hydrogenation (PHIP‐SAH) in an automated polarizer is demonstrated. It is benchmarked in a study with 48 animals against a commercial dissolution dynamic nuclear polarization (d‐DNP) device. Purified, concentrated (≈70–160 mM) and highly hyperpolarized (≈18%) solutions of pyruvate are obtained at physiological pH for volumes up to 2 mL within 85 s in an automated process. The safety profile, image quality, as well as the quantitative perfusion and lactate‐to‐pyruvate ratios, are equivalent for PHIP and d‐DNP, rendering PHIP a viable alternative to established hyperpolarization techniques.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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