High spatial resolution hyperpolarized 3He MRI of the rodent lung using a single breath X-centric gradient-recalled echo approach

Abstract

Purpose: Hyperpolarized (HP) gas MRI of the rodent lung is of great interest because of the increasing need for novel biomarkers with which to develop new therapies for respiratory diseases. The use of fast gradient-recalled echo (FGRE) for high-resolution HP gas rodent lung MRI is challenging as a result of signal loss caused by significant diffusion weighting, particularly in the larger airways. In this work, a modified FGRE approach is described for HP 3He rodent lung MRI using a centric-out readout scheme (ie, x-centric), allowing high-resolution, density-weighted imaging. Methods: HP 3He x-centric imaging was performed in a phantom and compared with a conventional partial-echo FGRE acquisition for in-plane spatial resolutions varying between 39 and 312 µm. Partial-echo and x-centric acquisitions were also compared for high spatial-resolution breath-hold (1 s) imaging of rodent lungs. Results: X-centric provided improved signal-to-noise ratio efficiency by a factor of up to 13/1.7 and 6.7/1.8, compared with the partial-echo FGRE for the airways/parenchyma of mouse and rat, respectively, at high spatial resolutions in vivo (<78 µm). In particular, rodent major airways with less restricted diffusion of 3He could only be visualized with the x-centric method. Conclusions: The x-centric method significantly reduces diffusion weighting, allowing high spatial and temporal resolution HP 3He gas density-weighted rodent lung MRI. Magn Reson Med 78:2334–2341, 2017. © 2017 International Society for Magnetic Resonance in Medicine.