A thermally polarized 129 Xe phantom for quality assurance in multi-center hyperpolarized gas MRI studies.
MAGNETIC RESONANCE IN MEDICINE(2019)
摘要
Purpose: Hyperpolarized Xe-129 MR is increasingly being adopted worldwide, but no standards exist for assessing or comparing performance at different Xe-129 imaging centers. Therefore, we sought to develop a thermally polarized xenon phantom assembly, approximating the size of a human torso, along with an associated imaging protocol to enable rapid quality-assurance imaging. Methods: MR-compatible pressure vessels, with an internal volume of 5.85 L, were constructed from pressure-rated, engineering grade PE4710 high-density polyethylene. They were filled with a mixture of 61% natural xenon and 39% oxygen to approximately 11.6 bar and placed in a loader shell filled with a 0.56% saline solution to mimic the human chest. Imaging employed a 2D spoiled gradient-echo sequence using non-slice-selective excitation (TR/TE = 750/6.13 ms, flip angle = 74 degrees, FOV = 40 x 440 mm, matrix = 64 x 32, bandwidth = 30 Hz/pixel, averages = 4), resulting in a 1.6 min acquisition. System characterization and imaging were performed at 8 different MRI centers. Results: At 3 Telsa, Xe-129 in the pressure vessels was characterized by T-1 = 580.5 +/- 8.3 ms, linewidth = 0.21 ppm, and chemical shift = +10.2 ppm. The phantom assembly was used to obtain transmit voltage calibrations and 2D and 3D images across multiple coil and scanner configurations at 8 sites. Across the 5 sites that employed a standard flexible chest coil, the SNR was 12.4 +/- 1.8. Conclusion: The high-density polyethylene pressure vessels filled with thermally polarized xenon and associated loader shell combine to form a phantom assembly that enables spectroscopic and imaging acquisitions that can be used for testing, quality assurance, and performance tracking-capabilities essential for standardizing hyperpolarized Xe-129 MRI within and across institutions.
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关键词
Xe-129 MR,Xe-129 phantom,phantom,quality assurance,thermally polarized
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