Patients with similar tumour types frequently show different responses to the same therapy. The development of new treatments would benefit, therefore, from imaging methods that allow an early assessment of treatment response in individual patients, allowing rapid selection of the most effective treatment. We have been using 13C MRSI (magnetic resonance spectroscopic imaging) of tumour cell metabolism, using hyperpolarized 13C-labelled cellular metabolites, to detect treatment response. Nuclear spin hyperpolarization can increase sensitivity in the magnetic resonance experiment >10000 times, allowing us to image labelled cell substrates in vivo and their subsequent metabolism. We showed that exchange of hyperpolarized 13C label between lactate and pyruvate, catalysed by lactate dehydrogenase, was decreased in treated tumours undergoing drug-induced cell death, and that tissue pH could be imaged from the ratio of the signal intensities of hyperpolarized H13CO3− and 13CO2 following intravenous injection of hyperpolarized H13CO3. Tumour cell glutaminase activity, a potential measure of cell proliferation, can be determined using hyperpolarized [5-13C]glutamine, and treatment-induced tumour cell necrosis can be imaged in vivo from measurements of the conversion of hyperpolarized [1,4-13C2]fumarate into malate. Since these substrates are endogenous and, in some cases, have already been safely infused into patients, these techniques have the potential to translate to the clinic.
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Conference Article| September 24 2010
Imaging tumour cell metabolism using hyperpolarized 13C magnetic resonance spectroscopy
Timothy H. Witney;
Kevin M. Brindle
Kevin M. Brindle 1
*Department of Biochemistry, University of Cambridge, Tennis Court Road, Cambridge CB2 1GA, U.K.
†Cancer Research UK, Cambridge Research Institute, Li Ka Shing Centre, Robinson Way, Cambridge CB2 0RE, U.K.
1To whom correspondence should be addressed (email email@example.com).
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Timothy H. Witney, Kevin M. Brindle; Imaging tumour cell metabolism using hyperpolarized 13C magnetic resonance spectroscopy. Biochem Soc Trans 1 October 2010; 38 (5): 1220–1224. doi: https://doi.org/10.1042/BST0381220
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