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New technique to hyperpolarize and purify fumarate for MRI

New technique to hyperpolarize and purify fumarate for MRI A promising new concept published by an interdisciplinary research team in Proceedings of the National Academy of Sciences (PNAS) paves the way for major advances in the field of magnetic resonance imaging (MRI). Their new technique could significantly simplify hyperpolarized MRI, which developed around 20 years ago for observing metabolic processes in the body. The proposal involves the hyperpolarization of the metabolic product fumarate using parahydrogen and the subsequent purification of the metabolite. This technique would not only be simpler, but also much cheaper than the previous procedure, said leader of the project Dr. James Eills, a member of the research team of Professor Dmitry Budker at Johannes Gutenberg University Mainz (JGU) and the Helmholtz Institute Mainz (HIM).

United statesStephan knechtEleonora cavallariJames eillsEmily hendersonUniversity of southamptonHelmholtz institute mainzUniversity of turinDepartment of molecular biotechnologyUniversity of california berkeleyProceedings of the national academy sciencesHealth sciencesNational academyProfessor dmitry budkerJohannes gutenberg university mainzCalifornia berkeley

Metabolite fumarate can reveal cell damage: New method to generate fumarate for MRI

A promising new concept presented by an interdisciplinary research team paves the way for major advances in the field of magnetic resonance imaging (MRI). Their new technique could significantly simplify hyperpolarized MRI. The proposal involves the hyperpolarization of the metabolic product fumarate using parahydrogen and the subsequent purification of the metabolite.

United statesStephan knechtEleonora cavallariJames eillsUniversity of southamptonHelmholtz institute mainzUniversity of turinDepartment of molecular biotechnologyUniversity of california berkeleyProceedings of the national academy sciencesHealth sciences in turinNational academyProfessor dmitry budkerJohannes gutenberg university mainzCalifornia berkeleyMolecular biotechnology

Hyperpolarized proton MRI used to observe metabolic processes in real time

E-Mail IMAGE: The phantom used for hyperpolarized imaging, with an illustration of imaging slices acquired using the new technique. view more Credit: photo/©: Laurynas Dagys, University of Southampton Magnetic resonance imaging (MRI) is already widely used in medicine for diagnostic purposes. Hyperpolarized MRI is a more recent development and its research and application potential has yet to be fully explored. Researchers at Johannes Gutenberg University Mainz (JGU) and the Helmholtz Institute Mainz (HIM) have now unveiled a new technique for observing metabolic processes in the body. Their singlet-contrast MRI method employs easily-produced parahydrogen to track biochemical processes in real time. The results of their work have been published in

Novosibirskaya oblastUnited kingdomDmitry budkerGerd buntkowskyJames eillsResearchers at johannes gutenberg university mainzBudker labUniversity of southamptonAngewandte chemie international editionHelmholtz institute mainzInnovative training networkJohannes gutenberg university mainzProfessor dmitry budkerParahydrogen induced polarizationProfessor gerd buntkowskyPhysical chemistry

Researchers unveil new technique for observing metabolic processes in real time

Researchers unveil new technique for observing metabolic processes in real time
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Novosibirskaya oblastUnited kingdomDmitry budkerGerd buntkowskyJames eillsEmily hendersonResearchers at johannes gutenberg university mainzUniversity of southamptonAngewandte chemie international editionHelmholtz institute mainzJohannes gutenberg university mainzProfessor dmitry budkerStudy first authorParahydrogen induced polarizationProfessor gerd buntkowskyPhysical chemistry