Literature DB >> 27060361

A general chemical shift decomposition method for hyperpolarized (13) C metabolite magnetic resonance imaging.

Jian-Xiong Wang1, Matthew E Merritt2, Dean Sherry1, Craig R Malloy1.   

Abstract

Metabolic imaging with hyperpolarized carbon-13 allows sequential steps of metabolism to be detected in vivo. Potential applications in cancer, brain, muscular, myocardial, and hepatic metabolism suggest that clinical applications could be readily developed. A primary concern in imaging hyperpolarized nuclei is the irreversible decay of the enhanced magnetization back to thermal equilibrium. Multiple methods for rapid imaging of hyperpolarized substrates and their products have been proposed with a multi-point Dixon method distinguishing itself as a robust protocol for imaging [1-(13) C]pyruvate. We describe here a generalized chemical shift decomposition method that incorporates a single-shot spiral imaging sequence plus a spectroscopic sequence to retain as much spin polarization as possible while allowing detection of metabolites that have a wide range of chemical shift values. The new method is demonstrated for hyperpolarized [1-(13) C]pyruvate, [1-(13) C]acetoacetate, and [2-(13) C]dihydroxyacetone.
Copyright © 2016 John Wiley & Sons, Ltd. Copyright © 2016 John Wiley & Sons, Ltd.

Entities:  

Keywords:  13C MR; chemical shift; decomposition; hyperpolarized; metabolite imaging

Mesh:

Substances:

Year:  2016        PMID: 27060361      PMCID: PMC5022286          DOI: 10.1002/mrc.4435

Source DB:  PubMed          Journal:  Magn Reson Chem        ISSN: 0749-1581            Impact factor:   2.447


  23 in total

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Authors:  Scott B Reeder; Zhifei Wen; Huanzhou Yu; Angel R Pineda; Garry E Gold; Michael Markl; Norbert J Pelc
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4.  Flux through hepatic pyruvate carboxylase and phosphoenolpyruvate carboxykinase detected by hyperpolarized 13C magnetic resonance.

Authors:  Matthew E Merritt; Crystal Harrison; A Dean Sherry; Craig R Malloy; Shawn C Burgess
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5.  Homodyne reconstruction and IDEAL water-fat decomposition.

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6.  Least-squares chemical shift separation for (13)C metabolic imaging.

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7.  Generalized k-space decomposition with chemical shift correction for non-Cartesian water-fat imaging.

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

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10.  Optimization of fast spiral chemical shift imaging using least squares reconstruction: application for hyperpolarized (13)C metabolic imaging.

Authors:  Y S Levin; D Mayer; Y-F Yen; R E Hurd; D M Spielman
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  6 in total

Review 1.  Magnetic resonance imaging with hyperpolarized agents: methods and applications.

Authors:  Erin B Adamson; Kai D Ludwig; David G Mummy; Sean B Fain
Journal:  Phys Med Biol       Date:  2017-04-06       Impact factor: 3.609

2.  High spatiotemporal resolution bSSFP imaging of hyperpolarized [1-13 C]pyruvate and [1-13 C]lactate with spectral suppression of alanine and pyruvate-hydrate.

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Review 3.  Acquisition strategies for spatially resolved magnetic resonance detection of hyperpolarized nuclei.

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Review 4.  Multi-nuclear magnetic resonance spectroscopy: state of the art and future directions.

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Journal:  Insights Imaging       Date:  2022-08-17

Review 5.  Accelerated MR spectroscopic imaging-a review of current and emerging techniques.

Authors:  Wolfgang Bogner; Ricardo Otazo; Anke Henning
Journal:  NMR Biomed       Date:  2020-05-12       Impact factor: 4.044

6.  Hyperpolarized ketone body metabolism in the rat heart.

Authors:  Jack J Miller; Daniel R Ball; Angus Z Lau; Damian J Tyler
Journal:  NMR Biomed       Date:  2018-04-10       Impact factor: 4.044
  6 in total

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