Rapid lung ventilation MRI using parahydrogen-induced polarization of propane gas

IF 3.6 3区 化学 Q2 CHEMISTRY, ANALYTICAL
Analyst Pub Date : 2024-11-12 DOI:10.1039/d4an01029a
Md Raduanul H. Chowdhury, Clementinah Oladun, Nuwandi M. Ariyasingha, Anna Samoilenko, Tarek Bawardi, Dudari B. Burueva, Oleg G. Salnikov, Larisa M. Kovtunova, Valerii I. Bukhtiyarov, Zhongjie Shi, Kehuan Luo, Sidhartha Tan, Juri G. Gelovani, Igor V. Koptyug, Boyd M. Goodson, Eduard Y. Chekmenev
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引用次数: 0

Abstract

Proton-hyperpolarized contrast agents are attractive because they can be imaged on virtually any clinical MRI scanner, which is typically equipped to scan only protons rather than heteronuclei (i.e., anything besides protons, e.g., 13C, 15N, 129Xe, 23Na, etc.). Even though the lifetime of the proton spin hyperpolarization is only a few seconds, it is sufficient for inhalation and scanning of proton-hyperpolarized gas media. We demonstrate the utility of producing hyperpolarized propane gas via heterogeneous parahydrogen-induced polarization for the purpose of ventilation imaging in an excised rabbit lung model. The magnetization of protons in hyperpolarized propane gas is similar to that of tissue water protons, making it possible to rapidly perform lung ventilation imaging with a 0.35 T clinical MRI scanner. Here, we demonstrate the feasibility of rapid (2 s) lung ventilation MRI in excised rabbit lungs using hyperpolarized propane gas with a 1 × 1 mm2 pixel size using a 50 mm slice thickness, and a 1.7 × 1.7 mm2 pixel size using a 9 mm slice thickness.

Abstract Image

利用丙烷气体的对氢诱导极化实现快速肺通气磁共振成像
质子超极化造影剂之所以具有吸引力,是因为它们几乎可以在任何临床核磁共振成像扫描仪上成像,而这种扫描仪通常只扫描质子而不是异核(即除质子以外的任何物质,如 13C、15N、129Xe、23Na 等)。尽管质子自旋超极化的寿命只有几秒钟,但它足以用于质子超极化气体介质的吸入和扫描。我们展示了通过异质副氢诱导极化产生超极化丙烷气体的实用性,以便在切除的兔肺模型中进行通气成像。超极化丙烷气体中质子的磁化率与组织水质子的磁化率相似,这使得使用 0.35 T 临床磁共振成像扫描仪快速进行肺通气成像成为可能。在这里,我们展示了使用超极化丙烷气体在切除的兔肺中进行快速(2 秒)肺通气磁共振成像的可行性,使用 50 毫米切片厚度时像素大小为 1 × 1 平方毫米,使用 9 毫米切片厚度时像素大小为 1.7 × 1.7 平方毫米。
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来源期刊
Analyst
Analyst 化学-分析化学
CiteScore
7.80
自引率
4.80%
发文量
636
审稿时长
1.9 months
期刊介绍: The home of premier fundamental discoveries, inventions and applications in the analytical and bioanalytical sciences
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