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前瞻性颈椎脊髓 MRS 运动校正。

Prospective motion correction for cervical spinal cord MRS.

机构信息

Center for Magnetic Resonance Research, Department of Radiology, University of Minnesota, Minneapolis, Minnesota, USA.

出版信息

Magn Reson Med. 2024 Jan;91(1):19-27. doi: 10.1002/mrm.29836. Epub 2023 Sep 29.

DOI:10.1002/mrm.29836
PMID:37772616
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10842172/
Abstract

PURPOSE

To develop prospective motion correction for single-voxel MRS in the human cervical spinal cord.

METHODS

A motion MR navigator was implemented using reduced field-of-view 2D-selective RF excitation together with EPI readout. A short-echo semi-LASER sequence (T  = 30 ms) was updated to incorporate this real-time image-based motion navigator, as well as real-time shim and frequency navigators. Five healthy participants were studied at 3 T with a 64-channel head-neck receive coil. Single-voxel MRS data were measured in a voxel located at the C3-5 vertebrae level. The motion navigator was used to correct for translations in the X-Y plane and was validated by assessing spectral quality with and without prospective correction in the presence of subject motion.

RESULTS

Without prospective correction, motion resulted in severe lipid contamination in the MR spectra. With prospective correction, the quality of spinal cord MR spectra in the presence of motion was similar to that obtained in the absence of motion, with comparable spectral signal-to-noise ratio and linewidth and no significant lipid contamination.

CONCLUSION

Prospective motion and B correction allow acquisition of good-quality MR spectra in the human cervical spinal cord in the presence of motion. This new technique should facilitate reliable acquisition of spinal cord MR spectra in both research and clinical settings.

摘要

目的

开发用于人体颈脊髓单体素 MRS 的前瞻性运动校正方法。

方法

使用减小的视野 2D 选择性 RF 激发以及 EPI 读取来实现运动 MR 导航器。短回波半 LASER 序列(T  = 30 ms)进行了更新,以纳入这种实时基于图像的运动导航器,以及实时匀场和频率导航器。在 3T 下使用 64 通道头颈部接收线圈对 5 名健康参与者进行了研究。单体素 MRS 数据是在位于 C3-5 椎骨水平的体素中测量的。运动导航器用于校正 X-Y 平面中的平移,并通过评估存在运动时有无前瞻性校正的光谱质量来验证。

结果

没有前瞻性校正,运动会导致 MR 光谱中严重的脂质污染。有了前瞻性校正,在存在运动的情况下,脊髓 MR 光谱的质量与无运动时相似,具有可比的光谱信噪比和线宽,没有明显的脂质污染。

结论

前瞻性运动和 B 校正允许在运动存在的情况下获得人体颈脊髓的高质量 MR 光谱。这项新技术应该有助于在研究和临床环境中可靠地获取脊髓 MR 光谱。

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