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利用21.1特斯拉的化学交换饱和转移技术对啮齿动物疾病模型进行脑部研究。

Brain investigations of rodent disease models by chemical exchange saturation transfer at 21.1 T.

作者信息

Roussel Tangi, Rosenberg Jens T, Grant Samuel C, Frydman Lucio

机构信息

Department of Chemical and Biological Physics, Weizmann Institute of Science, Rehovot, Israel.

National High Magnetic Field Laboratory, Tallahassee, Florida.

出版信息

NMR Biomed. 2018 Nov;31(11):e3995. doi: 10.1002/nbm.3995. Epub 2018 Jul 27.

DOI:10.1002/nbm.3995
PMID:30052292
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6419096/
Abstract

This study explores opportunities opened up by ultrahigh fields for in vivo saturation transfer brain magnetic resonance imaging experiments. Fast spin-echo images weighted by chemical exchange saturation transfer (CEST) effects were collected on Sprague-Dawley rats at 21.1 T, focusing on two neurological models. One involved a middle cerebral artery occlusion emulating ischemic stroke; the other involved xenografted glioma cells that were followed over the course of several days as they developed into brain tumors. A remarkably strong saturation-derived contrast was observed for the growing tumors when calculating magnetization transfer ratios at c. 3.8 ppm. This large contrast originated partially from an increase in the contribution of the amide CEST effect, but mostly from strong decreases in the Overhauser and magnetization transfer contributions to the upfield region, whose differential attenuations could be clearly discerned thanks to the ultrahigh field. The high spectral separation arising at 21.1 T also revealed numerous CEST signals usually overlapping at lower fields. Ischemic lesions were also investigated but, remarkably, magnetization and saturation transfer contrasts were nearly absent when computing transfer asymmetries using either high or low saturation power schemes. These behaviors were consistently observed at 24 hours post-occlusion, regardless of the data processing approach assayed. Considerations related to how various parameters defining these experiments depend on the magnetic field, primarily chemical shifts and T values, are discussed.

摘要

本研究探索了超高场为体内饱和转移脑磁共振成像实验带来的机遇。在21.1T磁场下,对Sprague-Dawley大鼠采集了基于化学交换饱和转移(CEST)效应加权的快速自旋回波图像,重点关注两种神经学模型。一种涉及模拟缺血性中风的大脑中动脉闭塞;另一种涉及异种移植的胶质瘤细胞,在其发展成脑肿瘤的数天过程中对其进行跟踪观察。在计算约3.8ppm处的磁化转移率时,观察到生长中的肿瘤有非常强的饱和衍生对比度。这种大对比度部分源于酰胺CEST效应贡献的增加,但主要源于奥弗豪泽效应和磁化转移对高场区域贡献的大幅下降,由于超高场,其差异衰减清晰可辨。在21.1T时出现的高光谱分辨率还揭示了许多在较低场通常重叠的CEST信号。对缺血性病变也进行了研究,但值得注意的是,当使用高或低饱和功率方案计算转移不对称性时,几乎没有磁化和饱和转移对比度。在闭塞后24小时,无论采用何种数据处理方法,均一致观察到这些现象。讨论了与定义这些实验的各种参数如何依赖于磁场相关的因素,主要是化学位移和T值。

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