PURPOSE: Several in vivo applications of dissolution dynamic nuclear polarization (DNP) require rapid successive injections of hyperpolarized substrates. Here we present the design and performance of a custom-built multisample dissolution DNP setup for small animal research. METHODS: The DNP setup consists of a commercial wide-bore magnet charged to 3.35 T, a cryostat, a 94-GHz microwave source, and a custom-built skeleton that accommodates four identical sample sticks. Each sample stick features a dissolver locked into the skeleton port and a lifter, which permits moving the sample cup out of the liquid helium bath for dissolution. RESULTS: The dissolution of the first sample was triggered after 2 hours of polarization buildup during single-shot operation of the cryostat. Thereafter, a time window of 75-90 min was available to dissolve the remaining three polarized samples. The average liquid state polarization over all four sticks was measured as 18.7% ± 2.3% for [1-13C] pyruvate 30 s after dissolution. In vivo applicability of the setup using serial injections of [1-13C] pyruvate to study cardiac metabolism in rats revealed good reproducibility. CONCLUSION: The proposed four-sample DNP insert provides reproducible liquid state polarization of [1-13C] pyruvate and allows for rapid repeat injections in small animals. Magn Reson Med 77:904-910, 2017.
PURPOSE: Several in vivo applications of dissolution dynamic nuclear polarization (DNP) require rapid successive injections of hyperpolarized substrates. Here we present the design and performance of a custom-built multisample dissolution DNP setup for small animal research. METHODS: The DNP setup consists of a commercial wide-bore magnet charged to 3.35 T, a cryostat, a 94-GHz microwave source, and a custom-built skeleton that accommodates four identical sample sticks. Each sample stick features a dissolver locked into the skeleton port and a lifter, which permits moving the sample cup out of the liquid helium bath for dissolution. RESULTS: The dissolution of the first sample was triggered after 2 hours of polarization buildup during single-shot operation of the cryostat. Thereafter, a time window of 75-90 min was available to dissolve the remaining three polarized samples. The average liquid state polarization over all four sticks was measured as 18.7% ± 2.3% for [1-13C] pyruvate 30 s after dissolution. In vivo applicability of the setup using serial injections of [1-13C] pyruvate to study cardiac metabolism in rats revealed good reproducibility. CONCLUSION: The proposed four-sample DNP insert provides reproducible liquid state polarization of [1-13C] pyruvate and allows for rapid repeat injections in small animals. Magn Reson Med 77:904-910, 2017.