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Longitudinal assessment of mitochondrial dysfunction in acute traumatic brain injury using hyperpolarized [<scp>1‐<sup>13</sup>C</scp>]pyruvate

Edward P. Hackett, Jun Chen, Laura Ingle, Sarah Al Nemri, Surendra Barshikar, Marco C. Pinho, Erik J. Plautz, Brenda Bartnik‐Olson, Jae Mo Park

2023Magnetic Resonance in Medicine12 citationsDOIOpen Access PDF

Abstract

Abstract Purpose [ 13 C]Bicarbonate formation from hyperpolarized [1‐ 13 C]pyruvate via pyruvate dehydrogenase, a key regulatory enzyme, represents the cerebral oxidation of pyruvate and the integrity of mitochondrial function. The present study is to characterize the chronology of cerebral mitochondrial metabolism during secondary injury associated with acute traumatic brain injury (TBI) by longitudinally monitoring [ 13 C]bicarbonate production from hyperpolarized [1‐ 13 C]pyruvate in rodents. Methods Male Wistar rats were randomly assigned to undergo a controlled‐cortical impact (CCI, n = 31) or sham surgery ( n = 22). Seventeen of the CCI and 9 of the sham rats longitudinally underwent a 1 H/ 13 C‐integrated MR protocol that includes a bolus injection of hyperpolarized [1‐ 13 C]pyruvate at 0 (2 h), 1, 2, 5, and 10 days post‐surgery. Separate CCI and sham rats were used for histological validation and enzyme assays. Results In addition to elevated lactate, we observed significantly reduced bicarbonate production in the injured site. Unlike the immediate appearance of hyperintensity on T 2 ‐weighted MRI, the contrast of bicarbonate signals between the injured region and the contralateral brain peaked at 24 h post‐injury, then fully recovered to the normal level at day 10. A subset of TBI rats demonstrated markedly increased bicarbonate in normal‐appearing contralateral brain regions post‐injury. Conclusion This study demonstrates that aberrant mitochondrial metabolism occurring in acute TBI can be monitored by detecting [ 13 C]bicarbonate production from hyperpolarized [1‐ 13 C]pyruvate, suggesting that [ 13 C]bicarbonate is a sensitive in‐vivo biomarker of the secondary injury processes.

Topics & Concepts

BicarbonateTraumatic brain injuryPyruvate dehydrogenase complexMedicineLactate dehydrogenaseIn vivoInternal medicineEndocrinologyChemistryAnesthesiaEnzymeBiologyBiochemistryPsychiatryBiotechnologyTraumatic Brain Injury and Neurovascular DisturbancesAdvanced NMR Techniques and ApplicationsAdvanced MRI Techniques and Applications
Longitudinal assessment of mitochondrial dysfunction in acute traumatic brain injury using hyperpolarized [<scp>1‐<sup>13</sup>C</scp>]pyruvate | Litcius