Sonja Dillenberger scite author profile

Hyperpolarization (HP) techniques are increasingly important in magnetic resonance imaging (MRI) and spectroscopy (MRS). HP methods have the potential to overcome the fundamentally low sensitivity of magnetic resonance (MR). A breakthrough of HP-MR in life sciences and medical applications is still limited by the small number of accessible, physiologically relevant substrates. Our study presents a new approach to extend PHIP to substrates that primarily cannot be hyperpolarized due to a steady intramolecular re-arrangement, the so-called keto-enol tautomerism. To overcome this obstacle we exploited the fact that instead of the instable enol form the corresponding stable ester can be used as a precursor molecule. This strategy now enables the hydrogenation which is required to apply the standard PHIP procedure. As the final step a hydrolysis is necessary to release the hyperpolarized target molecule. Using this new approach ethanol was successfully hyperpolarized for the first time. It may therefore be assumed that the outlined multi-step procedure can be used for other keto-enol tautomerized substances thereby opening the application of PHIP to a multitude of molecules relevant to analyzing metabolic pathways.

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Parahydrogen‐Induced Polarization Transfer to ¹⁹F in Perfluorocarbons for ¹⁹F NMR Spectroscopy and MRI

Plaumann

Bommerich

Trantzschel

et al. 2013

Chemistry A European J

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Fluorinated substances are important in chemistry, industry, and the life sciences. In a new approach, parahydrogen-induced polarization (PHIP) is applied to enhance (19)F MR signals of (perfluoro-n-hexyl)ethene and (perfluoro-n-hexyl)ethane. Unexpectedly, the end-standing CF3 group exhibits the highest amount of polarization despite the negligible coupling to the added protons. To clarify this non-intuitive distribution of polarization, signal enhancements in deuterated chloroform and acetone were compared and (19)F-(19)F NOESY spectra, as well as (19)F T1 values were measured by NMR spectroscopy. By using the well separated and enhanced signal of the CF3 group, first (19)F MR images of hyperpolarized linear semifluorinated alkenes were recorded.

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Application of Parahydrogen-Induced Polarization to Unprotected Dehydroamino Carboxylic Acids

et al. 2012

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Understanding the leaching properties of heterogenized catalysts: A combined solid-state and PHIP NMR study

Gutmann

Ratajczyk

et al. 2010

Solid State Nuclear Magnetic Resonance

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Time domain para hydrogen induced polarization

Ratajczyk

Gutmann

Dillenberger

et al. 2012

Solid State Nuclear Magnetic Resonance

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