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Parahydrogen-induced polarization (PHIP) hyperpolarized MR receptor imaging in vivo: a pilot study of 13C imaging of atheroma in mice.氘代氢诱导极化(PHIP)超极化磁共振受体成像在体:对小鼠动脉粥样硬化斑块 13C 成像的初步研究。
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Magnetic resonance angiography: current status and future directions.磁共振血管造影:现状与未来方向。
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超极化水作为磁共振成像对比剂:在大鼠模型中进行体内成像的可行性。

Hyperpolarized water as an MR imaging contrast agent: feasibility of in vivo imaging in a rat model.

机构信息

Department of Chemistry, University of California, Santa Barbara, Mesa Road, Santa Barbara, CA 93106, USA.

出版信息

Radiology. 2012 Nov;265(2):418-25. doi: 10.1148/radiol.12111804. Epub 2012 Sep 20.

DOI:10.1148/radiol.12111804
PMID:22996746
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3480810/
Abstract

PURPOSE

To assess the feasibility of a perfusion magnetic resonance (MR) imaging technique that uses Overhauser dynamic nuclear polarization (DNP) to provide contrast during the continuous delivery of hyperpolarized water in rats.

MATERIALS AND METHODS

Protocols approved by the local institutional animal care and use committees were followed. Twelve male Wistar rats were anesthetized and prepared by placing injection tubing in the subcutaneous layer (n=3), peritoneum (n=3), aorta (n=3), or carotid artery (n=3). Water was hyperpolarized by means of Overhauser DNP in the 0.35-T fringe field of a 1.5-T MR imaging magnet by using a custom-built system to continuously deliver radical-free hyperpolarized water to the subject. Fast gradient-echo and spoiled gradient-recalled-echo MR imaging sequences were used. The signal-to-noise ratio (SNR) of the images was calculated and compared.

RESULTS

Images showed greatly altered SNR and enhanced flow contrast at all injection locations. For subcutaneous and intraperitoneal injections, the water perfusion trajectory was observed for approximately 5 seconds after injection. Flow through a 4.2-cm length of artery was seen during intra-aortic injection. The right hemisphere of the brain was seen during injection into the right carotid artery. Images with hyperpolarized water had greatly altered SNR compared with images without injection or with the injection of nonhyperpolarized water, with a range of 13%-27% for the carotid and 444%-2900% for the other regions.

CONCLUSION

Perfusion contrast for MR imaging can be obtained by continuously infusing hyperpolarized water, providing localized angiography or brain perfusion information in vivo for rat models.

摘要

目的

评估一种灌注磁共振(MR)成像技术的可行性,该技术使用过氧化物动态核极化(DNP)在连续输注超极化水的过程中提供对比。

材料与方法

遵循了当地机构动物护理和使用委员会批准的方案。12 只雄性 Wistar 大鼠被麻醉,并通过将注射管置于皮下层(n=3)、腹膜(n=3)、主动脉(n=3)或颈动脉(n=3)来准备。通过使用定制的系统,在 1.5-T MR 成像磁体的 0.35-T 边缘场中,使用过氧化物 DNP 使水极化,以连续向对象输送无自由基的超极化水。使用快速梯度回波和扰相梯度回波 MR 成像序列。计算并比较图像的信噪比(SNR)。

结果

图像显示在所有注射位置的 SNR 和增强的流动对比度都有很大改变。对于皮下和腹腔内注射,在注射后约 5 秒即可观察到水灌注轨迹。在主动脉内注射时可以看到通过 4.2 厘米长的动脉的血流。在向右侧颈动脉注射时,可以看到大脑的右侧半球。与未注射或注射非超极化水的图像相比,使用超极化水的图像的 SNR 有很大改变,颈动脉的范围为 13%-27%,其他区域为 444%-2900%。

结论

通过连续输注超极化水可以获得 MR 成像的灌注对比,为大鼠模型提供局部血管造影或脑灌注信息。