Diffusion MR of hyperpolarized 13C molecules in solution

Bertram L. Koelsch; Kayvan R. Keshari; Tom H. Peeters; Peder E. Z. Larson; David M. Wilson; John Kurhanewicz

doi:10.1039/C2AN36715G

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Diffusion MR of hyperpolarized ¹³C molecules in solution†

Bertram L. Koelsch,^ab Kayvan R. Keshari,^a Tom H. Peeters,^a Peder E. Z. Larson,^ab David M. Wilson^a and John Kurhanewicz*^ab

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* Corresponding authors

^a Department of Radiology and Biomedical Imaging, University of California, San Francisco, USA
E-mail: john.kurhanewicz@ucsf.edu
Tel: +1 415 514 9711

^b UC Berkeley – UCSF Graduate Program in Bioengineering, USA

Abstract

We combined the high MR signal enhancement achieved using dissolution dynamic nuclear polarization (DNP) with a pulsed gradient double spin echo diffusion MR sequence to rapidly and accurately measure the diffusion coefficients of various hyperpolarized ¹³C molecules in solution. Furthermore, with a diffusion-weighted imaging sequence we generate diffusion coefficient maps of multiple hyperpolarized metabolites simultaneously. While hyperpolarized experiments can measure rapid, non-equilibrium processes by avoiding signal averaging, continuous signal loss due to longitudinal relaxation (T₁) complicates quantitation. By correcting for this signal loss, we demonstrate the feasibility of using hyperpolarized ¹³C diffusion-weighted MR to accurately measure real-time (seconds) molecular transport phenomena. Potential applications include rapidly measuring molecular binding, cellular membrane transport, in vivo metabolite distribution and establishing a magnetic field independent hyperpolarized parameter.

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Article information

DOI: https://doi.org/10.1039/C2AN36715G
Article type: Communication
Submitted: 19 Nov 2012
Accepted: 02 Jan 2013
First published: 07 Jan 2013

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Analyst, 2013,138, 1011-1014

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Diffusion MR of hyperpolarized ¹³C molecules in solution

B. L. Koelsch, K. R. Keshari, T. H. Peeters, P. E. Z. Larson, D. M. Wilson and J. Kurhanewicz, Analyst, 2013, 138, 1011 DOI: 10.1039/C2AN36715G

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