Literature DB >> 22311307

Metabolism of hyperpolarized [1-¹³C]pyruvate in the isolated perfused rat lung - an ischemia study.

B Pullinger1, H Profka, J H Ardenkjaer-Larsen, N N Kuzma, S Kadlecek, R R Rizi.   

Abstract

We report studies of the effect of ischemia on the metabolic activity of the intact perfused lung and its restoration after a period of reperfusion. Two groups of rat lungs were studied using hyperpolarized 1-(13) C pyruvate to compare the rate of lactate labeling differing only in the temporal ordering of ischemic and normoxic acquisitions. In both cases, a several-fold increase in lactate labeling was observed immediately after a 25-min ischemia event as was its reversal back to the baseline after 30-40 min of resumed perfusion (n = 5, p < 0.025 for both comparisons). These results were corroborated by (31) P spectroscopy and correspond well to measured changes in lactate pool size determined by (1) H spectroscopy of freeze-clamped specimens.
Copyright © 2012 John Wiley & Sons, Ltd.

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Year:  2012        PMID: 22311307      PMCID: PMC3399019          DOI: 10.1002/nbm.2777

Source DB:  PubMed          Journal:  NMR Biomed        ISSN: 0952-3480            Impact factor:   4.044


  19 in total

1.  Energy state and vasomotor tone in hypoxic pig lungs.

Authors:  P C Buescher; D B Pearse; R P Pillai; M C Litt; M C Mitchell; J T Sylvester
Journal:  J Appl Physiol (1985)       Date:  1991-04

2.  31P nuclear magnetic resonance determination of changes in energy state in lung preservation.

Authors:  T S Hall; P C Buescher; A M Borkon; B A Reitz; J R Michael; W A Baumgartner
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3.  31P NMR spectroscopy of isolated perfused lungs.

Authors:  R P Pillai; P C Buescher; D B Pearse; J T Sylvester; G L Eichhorn
Journal:  Magn Reson Med       Date:  1986-06       Impact factor: 4.668

4.  Effects of storage and reperfusion oxygen content on substrate metabolism in the isolated rat lung.

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Review 5.  Ischemia-reperfusion-induced lung injury.

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6.  On-target inhibition of tumor fermentative glycolysis as visualized by hyperpolarized pyruvate.

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7.  Inhibition of carbohydrate oxidation during the first minute of reperfusion after brief ischemia: NMR detection of hyperpolarized 13CO2 and H13CO3-.

Authors:  Matthew E Merritt; Crystal Harrison; Charles Storey; A Dean Sherry; Craig R Malloy
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8.  Increase in signal-to-noise ratio of > 10,000 times in liquid-state NMR.

Authors:  Jan H Ardenkjaer-Larsen; Björn Fridlund; Andreas Gram; Georg Hansson; Lennart Hansson; Mathilde H Lerche; Rolf Servin; Mikkel Thaning; Klaes Golman
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9.  Kinetics of hyperpolarized 13C1-pyruvate transport and metabolism in living human breast cancer cells.

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  13 in total

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2.  In vivo imaging of the progression of acute lung injury using hyperpolarized [1-13 C] pyruvate.

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5.  Metabolic spectroscopy of inflammation in a bleomycin-induced lung injury model using hyperpolarized 1-(13) C pyruvate.

Authors:  Hoora Shaghaghi; Stephen Kadlecek; Charuhas Deshpande; Sarmad Siddiqui; Daniel Martinez; Mehrdad Pourfathi; Hooman Hamedani; Masaru Ishii; Harrilla Profka; Rahim Rizi
Journal:  NMR Biomed       Date:  2014-05-28       Impact factor: 4.044

6.  A rapid method for direct detection of metabolic conversion and magnetization exchange with application to hyperpolarized substrates.

Authors:  Peder E Z Larson; Adam B Kerr; Christine Leon Swisher; John M Pauly; Daniel B Vigneron
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7.  Differentiating inflamed and normal lungs by the apparent reaction rate constants of lactate dehydrogenase probed by hyperpolarized (13)C labeled pyruvate.

Authors:  He N Xu; Stephen Kadlececk; Hoora Shaghaghi; Huaqing Zhao; Harilla Profka; Mehrdad Pourfathi; Rahim Rizi; Lin Z Li
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8.  In vivo metabolic evaluation of breast tumor mouse xenografts for predicting aggressiveness using the hyperpolarized (13)C-NMR technique.

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10.  Perfusion and diffusion sensitive 13C stimulated-echo MRSI for metabolic imaging of cancer.

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