Hyperpolarized 129Xe MRI using isobutene as a new quenching gas |
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| Authors: | Shota Hodono Yukiko Yamauchi Ayano Kawamura Hironobu Matsumoto Shintaro Okumura Hideaki Fujiwara Atsuomi Kimura |
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| Affiliation: | Department of Medical Physics and Engineering, Division of Health Sciences, Graduate School of Medicine, Osaka University, Suita, Osaka, Japan |
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| Abstract: | The use of a quenching gas, isobutene, with a low vapor pressure was investigated to enhance the utility of hyperpolarized 129Xe (HP Xe) MRI. Xenon mixed with isobutene was hyperpolarized using a home‐built apparatus for continuously producing HP Xe. The isobutene was then readily liquefied and separated almost totally by continuous condensation at about 173 K, because the vapor pressure of isobutene (0.247 kPa) is much lower than that of Xe (157 kPa). Finally, the neat Xe gas was continuously delivered to mice by spontaneous inhalation. The HP Xe MRI was enhanced twofold in polarization level and threefold in signal intensity when isobutene was adopted as the quenching gas instead of N2. The usefulness of the HP Xe MRI was verified by application to pulmonary functional imaging of spontaneously breathing mice, where the parameters of fractional ventilation (ra) and gas exchange (fD) were evaluated, aiming at future extension to preclinical studies. This is the first application of isobutene as a quenching gas for HP Xe MRI. |
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| Keywords: | fractional ventilation gas exchange hyperpolarized 129Xe isobutene quenching gas |
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