Hyperpolarized 13C Spectroscopy with Simple Slice-and-Frequency-Selective Excitation

Topping, Geoffrey J.; Heid, Irina; Trajkovic‐Arsic, Marija; Kritzner, Lukas; Grashei, Martin; Hundshammer, Christian; Aigner, Maximilian; Skinner, Jason G.; Braren, Rickmer; Schilling, Franz

doi:10.3390/biomedicines9020121

Cited by 9 publications

(17 citation statements)

References 46 publications

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“…This illustrates that the metabolic interpretations of k pl needs to be complemented with further metabolic and clinical parameters, for example metabolite levels in plasma from the patient, which may be affected by fasting or a metabolic syndrome. Moreover, to obtain more specific information on the metabolic status of the analyzed tissue for (not only) tumor diagnosis and therapeutic monitoring, the potentials of metabolic imaging using hyperpolarized 13 C-pyruvate could be enhanced by also using other hyperpolarized 13 C-metabolites of energy metabolism; these could include, for example, 13 C-fumarate [ 7 ], 13 C-lactate [ 73 ], or co-polarization of 13 C-pyruvate with 13 C-fumarate [ 74 ] or 13 C-urea [ 75 ].…”

Section: Discussionmentioning

confidence: 99%

Conversion of Hyperpolarized [1-13C]Pyruvate in Breast Cancer Cells Depends on Their Malignancy, Metabolic Program and Nutrient Microenvironment

Grashei

Biechl

Schilling

et al. 2022

Cancers

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Hyperpolarized magnetic resonance spectroscopy (MRS) is a technology for characterizing tumors in vivo based on their metabolic activities. The conversion rates (kpl) of hyperpolarized [1-13C]pyruvate to [1-13C]lactate depend on monocarboxylate transporters (MCT) and lactate dehydrogenase (LDH); these are also indicators of tumor malignancy. An unresolved issue is how glucose and glutamine availability in the tumor microenvironment affects metabolic characteristics of the cancer and how this relates to kpl-values. Two breast cancer cells of different malignancy (MCF-7, MDA-MB-231) were cultured in media containing defined combinations of low glucose (1 mM; 2.5 mM) and glutamine (0.1 mM; 1 mM) and analyzed for pyruvate uptake, intracellular metabolite levels, LDH and pyruvate kinase activities, and 13C6-glucose-derived metabolomics. The results show variability of kpl with the different glucose/glutamine conditions, congruent with glycolytic activity, but not with LDH activity or the Warburg effect; this suggests metabolic compartmentation. Remarkably, kpl-values were almost two-fold higher in MCF-7 than in the more malignant MDA-MB-231 cells, the latter showing a higher flux of 13C-glucose-derived pyruvate to the TCA-cycle metabolites 13C2-citrate and 13C3-malate, i.e., pyruvate decarboxylation and carboxylation, respectively. Thus, MRS with hyperpolarized [1-13C-pyruvate] is sensitive to both the metabolic program and the nutritional state of cancer cells.

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Section: Discussionmentioning

confidence: 99%

Conversion of Hyperpolarized [1-13C]Pyruvate in Breast Cancer Cells Depends on Their Malignancy, Metabolic Program and Nutrient Microenvironment

Grashei

Biechl

Schilling

et al. 2022

Cancers

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“…While hyperpolarized imaging is feasible and several groups have demonstrated myocardial hyperpolarized imaging, capable of identifying focal changes, 24,34,35 including with DCA, previous imaging experiments have demonstrated that these changes are homogeneous 36 . Therefore, we performed slice‐selective spectroscopy as a more robust, efficient, and appropriate technique for this study, as has been repeatedly used previously 37–39 . Finally, while intracellular pH (pH i ) can be derived from the H 13 CO 3 − / 13 CO 2 ratio, 40 the 13 CO 2 signal was below the detection level for this experimental setup.…”

Section: Discussionmentioning

confidence: 99%

“…36 Therefore, we performed slice-selective spectroscopy as a more robust, efficient, and appropriate technique for this study, as has been repeatedly used previously. [37][38][39] Finally, while intracellular pH (pH i ) can be derived from the H 13 CO 3 À / 13 CO 2 ratio, 40 the 13 CO 2 signal was below the detection level for this experimental setup. This precludes the direct investigation of a pH i change; if DCA reduced pH i then the estimated effects of treatment on bicarbonate would have been underestimated.…”

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confidence: 84%

Concentration‐dependent effects of dichloroacetate in type 2 diabetic hearts assessed by hyperpolarized [1‐¹³C]‐pyruvate magnetic resonance imaging

et al. 2022

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Personalized medicine or individualized therapy promises a paradigm shift in healthcare. This is particularly true in complex and multifactorial diseases such as diabetes and the multitude of related pathophysiological complications. Diabetic cardiomyopathy represents an emerging condition that could be effectively treated if better diagnostic and, in particular, better therapeutic monitoring tools were available. In this study, we investigate the ability to differentiate low and high doses of metabolically targeted therapy in an obese type 2 diabetic rat model. Low-dose dichloroacetate (DCA) treatment was associated with increased lactate production, while no or little change was seen in bicarbonate production. High-dose DCA treatment was associated with a significant metabolic switch towards increased bicarbonate production. These findings support further studies using hyperpolarized [1-13 C]-pyruvate magnetic resonance imaging to differentiate treatment effects and thus allow for personalized titration of therapeutics.

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“…For HP measurements, a thermally polarized [1‐ 13 C]lactate phantom (approx. 300 μL, 2.2 M, 1 mM Dotarem) was placed adjacent to the animal for frequency calibration and power adjustments 24 . The imaging setup was as described above for the in vitro imaging experiment, with a shim volume over the abdomen.…”

Section: Methodsmentioning

confidence: 99%

“…300 μL, 2.2 M, 1 mM Dotarem) was placed adjacent to the animal for frequency calibration and power adjustments. 24 The imaging setup was as described above for the in vitro imaging experiment, with a shim volume over the abdomen. Subjects were imaged twice within the same session, 1 h apart, with the same 3D bSSFP sequence as described above, except: (1) repetitions were acquired instead of averaged;…”

Section: In Vivo Imagingmentioning

confidence: 99%

Spectrally selective bSSFP using off‐resonant RF excitations permits high spatiotemporal resolution 3D metabolic imaging of hyperpolarized [1‐¹³C]Pyruvate‐to‐[1‐¹³C]lactate conversion

Skinner

Topping

Nagel

et al. 2023

Magnetic Resonance in Med

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To develop a high spatiotemporal resolution 3D dynamic pulse sequence for preclinical imaging of hyperpolarized [1-13 C]pyruvate-to-[1-13 C]lactate metabolism at 7T. Methods:A standard 3D balanced SSFP (bSSFP) sequence was modified to enable alternating-frequency excitations. RF pulses with 2.33 ms duration and 900 Hz FWHM were placed off-resonance of the target metabolites, [1-13 C]pyruvate (by approximately −245 Hz) and [1-13 C]lactate (by approximately 735 Hz), to selectively excite those resonances. Relatively broad bandwidth (compared to those metabolites' chemical shift offset) permits a short TR of 6.29 ms, enabling higher spatiotemporal resolution. Bloch equation simulations of the bSSFP response profile guided the sequence parameter selection to minimize spectral contamination between metabolites and preserve magnetization over time.Results: Bloch equation simulations, phantom studies, and in vivo studies demonstrated that the two target resonances could be cleanly imaged without substantial bSSFP banding artifacts and with little spectral contamination between lactate and pyruvate and from pyruvate hydrate. High spatiotemporal resolution 3D images were acquired of in vivo pyruvate-lactate metabolism in healthy wild-type and endogenous pancreatic tumor-bearing mice, with 1.212 s acquisition time per single-metabolite image and (1.75 mm) 3 isotropic voxels with full mouse abdomen 56 × 28 × 21 mm 3 FOV and fully-sampled k-space. Kidney and tumor lactate/pyruvate ratios of two consecutive measurements in one animal, 1 h apart, were consistent. Conclusion:Spectrally selective bSSFP using off-resonant RF excitations can provide high spatio-temporal resolution 3D dynamic images of pyruvate-lactate metabolic conversion.

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Hyperpolarized 13C Spectroscopy with Simple Slice-and-Frequency-Selective Excitation

Cited by 9 publications

References 46 publications

Conversion of Hyperpolarized [1-13C]Pyruvate in Breast Cancer Cells Depends on Their Malignancy, Metabolic Program and Nutrient Microenvironment

Conversion of Hyperpolarized [1-13C]Pyruvate in Breast Cancer Cells Depends on Their Malignancy, Metabolic Program and Nutrient Microenvironment

Concentration‐dependent effects of dichloroacetate in type 2 diabetic hearts assessed by hyperpolarized [1‐¹³C]‐pyruvate magnetic resonance imaging

Spectrally selective bSSFP using off‐resonant RF excitations permits high spatiotemporal resolution 3D metabolic imaging of hyperpolarized [1‐¹³C]Pyruvate‐to‐[1‐¹³C]lactate conversion

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Hyperpolarized 13C Spectroscopy with Simple Slice-and-Frequency-Selective Excitation

Cited by 9 publications

References 46 publications

Conversion of Hyperpolarized [1-13C]Pyruvate in Breast Cancer Cells Depends on Their Malignancy, Metabolic Program and Nutrient Microenvironment

Conversion of Hyperpolarized [1-13C]Pyruvate in Breast Cancer Cells Depends on Their Malignancy, Metabolic Program and Nutrient Microenvironment

Concentration‐dependent effects of dichloroacetate in type 2 diabetic hearts assessed by hyperpolarized [1‐13C]‐pyruvate magnetic resonance imaging

Spectrally selective bSSFP using off‐resonant RF excitations permits high spatiotemporal resolution 3D metabolic imaging of hyperpolarized [1‐13C]Pyruvate‐to‐[1‐13C]lactate conversion

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Concentration‐dependent effects of dichloroacetate in type 2 diabetic hearts assessed by hyperpolarized [1‐¹³C]‐pyruvate magnetic resonance imaging

Spectrally selective bSSFP using off‐resonant RF excitations permits high spatiotemporal resolution 3D metabolic imaging of hyperpolarized [1‐¹³C]Pyruvate‐to‐[1‐¹³C]lactate conversion