Increase in signal-to-noise ratio of &gt; 10,000 times in liquid-state NMR

Ardenkjær-Larsen, Jan Henrik; Fridlund, Björn; Gram, Andreas; Hansson, Georg; Hansson, Lennart; Lerche, Mathilde Hauge; Servin, Rolf; Thaning, Mikkel; Golman, Klaes

doi:10.1073/pnas.1733835100

Cited by 2,575 publications

(3,617 citation statements)

References 13 publications

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“…A second layer of [1‐ 13 C]pyruvic acid (14 M neat with 15 mM OX063 trityl radical and 0.8 mM Gd‐DOTA) was added on top to prevent mixing. Polarization was performed using a prototype dynamic nuclear polarization hyperpolarizer at 93.979 GHz and 100 mW for 120 min 4. The microwave frequency was chosen to maximize the [1‐ 13 C]pyruvate polarization build‐up in order to maximize the signal‐to‐noise ratio of the downstream metabolites of [1‐ 13 C]pyruvate, which are expected to have the lowest signal.…”

Section: Methodsmentioning

confidence: 99%

Simultaneous assessment of cardiac metabolism and perfusion using copolarized [1‐¹³C]pyruvate and ¹³C‐urea

Lau

Miller

Robson

et al. 2016

Magnetic Resonance in Med

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PurposeTo demonstrate the feasibility of imaging a bolus of co‐polarized [1‐13C]pyruvate and 13C‐urea to simultaneously assess both metabolism and perfusion in the rodent heart.MethodsCopolarized [1‐13C]pyruvate and 13C‐urea was imaged using a multi‐echo, flow‐sensitized spiral pulse sequence. Healthy rats were scanned in a two‐factor factorial design (n = 12 total; metabolism: overnight fasting versus fed with dichloroacetate injection; perfusion: rest versus adenosine stress‐induced hyperemia).ResultsAlterations in metabolism were detected by changes in pyruvate metabolism into 13C‐bicarbonate. Statistically independent alterations in perfusion were detected by changes in myocardial pyruvate and urea signals.ConclusionThe new pulse sequence was used to obtain maps of metabolism and perfusion in the rodent heart in a single acquisition. This hyperpolarized 13C imaging test is expected to enable new studies in which the cardiac metabolism/perfusion mismatch can be studied in the acute environment. Magn Reson Med 77:151–158, 2017. © 2016 The Authors Magnetic Resonance in Medicine published by Wiley Periodicals, Inc. on behalf of International Society for Magnetic Resonance in Medicine

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Section: Methodsmentioning

confidence: 99%

Simultaneous assessment of cardiac metabolism and perfusion using copolarized [1‐¹³C]pyruvate and ¹³C‐urea

Lau

Miller

Robson

et al. 2016

Magnetic Resonance in Med

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“…Hyperpolarization of 13 C nuclei can increase their sensitivity to detection in a magnetic resonance experiment by more than 10 000‐fold 35. This enormous increase in sensitivity has enabled real‐time imaging of tissue metabolism in vivo following intravenous injection of hyperpolarized 13 C‐labelled substrates,36 including in humans 37, 38.…”

Section: Introductionmentioning

confidence: 99%

Increased hyperpolarized [1‐¹³C] lactate production in a model of joint inflammation is not accompanied by tissue acidosis as assessed using hyperpolarized ¹³C‐labelled bicarbonate

Wright

Husson

et al. 2018

NMR in Biomedicine

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Arthritic conditions are a major source of chronic pain. Furthering our understanding of disease mechanisms creates the opportunity to develop more targeted therapeutics. In rheumatoid arthritis (RA), measurements of pH in human synovial fluid suggest that acidosis occurs, but that this is highly variable between individuals. Here we sought to determine if tissue acidosis occurs in a widely used rodent arthritis model: complete Freund's adjuvant (CFA)‐induced inflammation. CFA robustly evoked paw and ankle swelling, concomitant with worsening clinical scores over time. We used magnetic resonance spectroscopic imaging of hyperpolarized [1‐13C]pyruvate metabolism to demonstrate that CFA induces an increase in the lactate‐to‐pyruvate ratio. This increase is indicative of enhanced glycolysis and an increased lactate concentration, as has been observed in the synovial fluid from RA patients, and which was correlated with acidosis. We also measured the 13CO2/H13CO3 − ratio, in animals injected with hyperpolarized H13CO3 −, to estimate extracellular tissue pH and showed that despite the apparent increase in glycolytic activity in CFA‐induced inflammation there was no accompanying decrease in extracellular pH. The pH was 7.23 ± 0.06 in control paws and 7.32 ± 0.09 in inflamed paws. These results could explain why mice lacking acid‐sensing ion channel subunits 1, 2 and 3 do not display any changes in mechanical or thermal hyperalgesia in CFA‐induced inflammation.

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“…Any increase by technical means will significantly extend the possibility range of NMR application.”1 This quotation from Richard Ernst's Nobel prize lecture sets the stage for numerous studies and approaches to improve the signal‐to‐noise‐ratio (S/N) in NMR. In recent years, many different methods, including PHIP,2 SABRE,2 hyperpolarized noble gases,3 MAS DNP,4 nitrogen vacancies in diamonds,5 dissolution DNP,6 and DNP in the solid‐state,7 have been developed, and a summary of these can be found in a recent review article in Angewandte Chemie 8…”

mentioning

confidence: 99%

Unprecedented Carbon Signal Enhancement in Liquid‐State NMR Spectroscopy

Pintér

Schwalbe

2017

Angew Chem Int Ed

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Increase in signal-to-noise ratio of > 10,000 times in liquid-state NMR

Cited by 2,575 publications

References 13 publications

Simultaneous assessment of cardiac metabolism and perfusion using copolarized [1‐¹³C]pyruvate and ¹³C‐urea

Simultaneous assessment of cardiac metabolism and perfusion using copolarized [1‐¹³C]pyruvate and ¹³C‐urea

Increased hyperpolarized [1‐¹³C] lactate production in a model of joint inflammation is not accompanied by tissue acidosis as assessed using hyperpolarized ¹³C‐labelled bicarbonate

Unprecedented Carbon Signal Enhancement in Liquid‐State NMR Spectroscopy

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Increase in signal-to-noise ratio of > 10,000 times in liquid-state NMR

Cited by 2,575 publications

References 13 publications

Simultaneous assessment of cardiac metabolism and perfusion using copolarized [1‐13C]pyruvate and 13C‐urea

Simultaneous assessment of cardiac metabolism and perfusion using copolarized [1‐13C]pyruvate and 13C‐urea

Increased hyperpolarized [1‐13C] lactate production in a model of joint inflammation is not accompanied by tissue acidosis as assessed using hyperpolarized 13C‐labelled bicarbonate

Unprecedented Carbon Signal Enhancement in Liquid‐State NMR Spectroscopy

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Simultaneous assessment of cardiac metabolism and perfusion using copolarized [1‐¹³C]pyruvate and ¹³C‐urea

Simultaneous assessment of cardiac metabolism and perfusion using copolarized [1‐¹³C]pyruvate and ¹³C‐urea

Increased hyperpolarized [1‐¹³C] lactate production in a model of joint inflammation is not accompanied by tissue acidosis as assessed using hyperpolarized ¹³C‐labelled bicarbonate