Symmetry Constraints on Spin Order Transfer in Parahydrogen-Induced Polarization (PHIP)

Pravdivtsev, Andrey N.; Barskiy, Danila A.; Hövener, Jan‐Bernd; Koptyug, Igor V.

doi:10.3390/sym14030530

Cited by 7 publications

(7 citation statements)

References 62 publications

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“…For the efficient spin-order transfer (SOT) from pH 2 to a nucleus of choice, various approaches are available. ,, The highest polarization so far was achieved using fully deuterated precursors at high magnetic fields for the PHIP-SAH. , The reason is that the symmetry of interactions in the ethyl groups restricts the polarization transfer to 13 C at high fields to 50% and to about 35% at low fields . Up to now, it was not shown that deuteration of the precursor can improve (even theoretically) the polarization transfer in PHIP-SAH at low fields; the opposite was demonstrated .…”

Section: Resultsmentioning

confidence: 99%

Exceptionally Mild and High-Yielding Synthesis of Vinyl Esters of Alpha-Ketocarboxylic Acids, Including Vinyl Pyruvate, for Parahydrogen-Enhanced Metabolic Spectroscopy and Imaging

Brahms,

Pravdivtsev,

Thorns

et al. 2023

J. Org. Chem.

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Metabolic changes often occur long before pathologies manifest and treatment becomes challenging. As key elements of energy metabolism, α-ketocarboxylic acids (α-KCA) are particularly interesting, e.g., as the upregulation of pyruvate to lactate conversion is a hallmark of cancer (Warburg effect). Magnetic resonance imaging with hyperpolarized metabolites has enabled imaging of this effect non-invasively and in vivo, allowing the early detection of cancerous tissue and its treatment. Hyperpolarization by means of dynamic nuclear polarization, however, is complex, slow, and expensive, while available precursors often limit parahydrogen-based alternatives. Here, we report the synthesis for novel 13C, deuterated ketocarboxylic acids, and a much-improved synthesis of 1-13C-vinyl pruvate-d6, arguably the most promising tracer for hyperpolarizing pyruvate using parahydrogen-induced hyperpolarization by side arm hydrogenation. The new synthesis is scalable and provides a high yield of 52%. We elucidated the mechanism of our Pd-catalyzed trans-vinylation reaction. Hydrogenation with parahydrogen allowed us to monitor the addition, which was found to depend on the electron demand of the vinyl ester. Electron-poor α-keto vinyl esters react slower than “normal” alkyl vinyl esters. This synthesis of 13C, deuterated α-ketocarboxylic acids opens up an entirely new class of biomolecules for fast and cost-efficient hyperpolarization with parahydrogen and their use for metabolic imaging.

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Section: Resultsmentioning

confidence: 99%

Exceptionally Mild and High-Yielding Synthesis of Vinyl Esters of Alpha-Ketocarboxylic Acids, Including Vinyl Pyruvate, for Parahydrogen-Enhanced Metabolic Spectroscopy and Imaging

Brahms,

Pravdivtsev,

Thorns

et al. 2023

J. Org. Chem.

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“…RF-SOT at higher magnetic fields appears to be better way to transfer polarization in certain cases because: Heteronuclei are weakly coupled with hydrogens, so there is no efficient spontaneous polarization transfer to 2 H, 13 C and other heteronuclei; The effective spin system can be reduced to two protons and one (third) nucleus of choice, e.g., 13 C using selective deuteration 31 , 32 or selective excitation 50 , 51 . Note that because of the symmetry constraints 45 , 46 , a 100% polarization using only selective excitations in systems like ethyl pyruvate (A 3 B 2 X) is also not possible. …”

Section: Resultsmentioning

confidence: 99%

“…It is important to note that the low efficiency is not a problem with the particular MFC or molecule. Instead, it is a fundamental property that is bound to the symmetry of the spin system 45,46 . Experimentally, no more than 5% 13 C polarization was achieved with MFC for 40 mM pyruvate in an aqueous solution 35 .…”

Section: Limitations Of Current State Magnetic Field Cycling (Mfc)mentioning

confidence: 99%

Parahydrogen-induced polarization and spin order transfer in ethyl pyruvate at high magnetic fields

Pravdivtsev

Brahms

Ellermann

et al. 2022

Sci Rep

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Nuclear magnetic resonance has experienced great advances in developing and translating hyperpolarization methods into procedures for fundamental and clinical studies. Here, we propose the use of a wide-bore NMR for large-scale (volume- and concentration-wise) production of hyperpolarized media using parahydrogen-induced polarization. We discuss the benefits of radio frequency-induced parahydrogen spin order transfer, we show that 100% polarization is theoretically expected for homogeneous B0 and B1 magnetic fields for a three-spin system. Moreover, we estimated that the efficiency of spin order transfer is not significantly reduced when the B1 inhomogeneity is below ± 5%; recommendations for the sample size and RF coils are also given. With the latest breakthrough in the high-yield synthesis of 1-13C-vinyl pyruvate and its deuterated isotopologues, the high-field PHIP-SAH will gain increased attention. Some remaining challenges will be addressed shortly.

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“…limit the efficiency of SOT 46 , 47 . As a result, often, 100% polarization can not be achieved (even theoretically) with MFC 40 , 48 , 49 . Pulse sequences and irradiation-based SOTs are more flexible in this regard 50 – 52 , offering higher polarizations but higher hardware demands, too.…”

Section: Introductionmentioning

confidence: 99%

Spying on parahydrogen-induced polarization transfer using a half-tesla benchtop MRI and hyperpolarized imaging enabled by automation

Ellermann,

Sirbu,

Brahms

et al. 2023

Nat Commun

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Nuclear spin hyperpolarization is a quantum effect that enhances the nuclear magnetic resonance signal by several orders of magnitude and has enabled real-time metabolic imaging in humans. However, the translation of hyperpolarization technology into routine use in laboratories and medical centers is hampered by the lack of portable, cost-effective polarizers that are not commercially available. Here, we present a portable, automated polarizer based on parahydrogen-induced hyperpolarization (PHIP) at an intermediate magnetic field of 0.5 T (achieved by permanent magnets). With a footprint of 1 m2, we demonstrate semi-continuous, fully automated 1H hyperpolarization of ethyl acetate-d6 and ethyl pyruvate-d6 to P = 14.4% and 16.2%, respectively, and a 13C polarization of 1-13C-ethyl pyruvate-d6 of P = 7%. The duty cycle for preparing a dose is no more than 1 min. To reveal the full potential of 1H hyperpolarization in an inhomogeneous magnetic field, we convert the anti-phase PHIP signals into in-phase peaks, thereby increasing the SNR by a factor of 5. Using a spin-echo approach allowed us to observe the evolution of spin order distribution in real time while conserving the expensive reagents for reaction monitoring, imaging and potential in vivo usage. This compact polarizer will allow us to pursue the translation of hyperpolarized MRI towards in vivo applications further.

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Symmetry Constraints on Spin Order Transfer in Parahydrogen-Induced Polarization (PHIP)

Cited by 7 publications

References 62 publications

Exceptionally Mild and High-Yielding Synthesis of Vinyl Esters of Alpha-Ketocarboxylic Acids, Including Vinyl Pyruvate, for Parahydrogen-Enhanced Metabolic Spectroscopy and Imaging

Exceptionally Mild and High-Yielding Synthesis of Vinyl Esters of Alpha-Ketocarboxylic Acids, Including Vinyl Pyruvate, for Parahydrogen-Enhanced Metabolic Spectroscopy and Imaging

Parahydrogen-induced polarization and spin order transfer in ethyl pyruvate at high magnetic fields

Spying on parahydrogen-induced polarization transfer using a half-tesla benchtop MRI and hyperpolarized imaging enabled by automation

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