使用全头高介电常数浆料头盔，在7T下进行人脑MRI应用时，射频磁场和成像信噪比有大幅提升。

Large improvement in RF magnetic fields and imaging SNR with whole-head high-permittivity slurry helmet for human-brain MRI applications at 7 T.

作者信息

Soon Soo Han, Li Xin, Waks Matt, Zhu Xiao-Hong, Wiesner Hannes M, Gandji Navid P, Yang Qing X, Lanagan Michael T, Chen Wei

机构信息

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

Department of Biomedical Engineering, University of Minnesota, Minneapolis, Minnesota, USA.

出版信息

Magn Reson Med. 2025 Mar;93(3):1205-1219. doi: 10.1002/mrm.30350. Epub 2024 Oct 24.

DOI:10.1002/mrm.30350

PMID:39449244

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11680740/

Abstract

PURPOSE

To optimize the design and demonstrate the integration of a helmet-shaped container filled with a high-permittivity material (HPM) slurry with RF head coil arrays to improve RF coil sensitivity and SNR for human-brain proton MRI.

METHODS

RF reception magnetic fields ( ) of a 32-channel receive-only coil array with various geometries and permittivity values of HPM slurry helmet are calculated with electromagnetic simulation at 7 T. A 16-channel transmit-only coil array, a 32-channel receive-only coil array, and a 2-piece HPM slurry helmet were constructed and assembled. RF transmission magnetic field ( ), , and MRI SNR maps from the entire human brain were measured and compared.

RESULTS

Simulations showed that averaged improvement with the HPM slurry helmet increased from 57% to 87% as the relative permittivity (ε) of HPM slurry increased from 110 to 210. In vivo experiments showed that the average improvement over the human brain was 14.5% with the two-piece HPM slurry (ε ≈ 170) helmet, and the average and SNR were improved 63% and 34%, respectively, because the MRI noise level was increased by the lossy HPM.

CONCLUSION

The RF coil sensitivity and MRI SNR were largely improved with the two-piece HPM slurry helmet demonstrated by both electromagnetic simulations and in vivo human head experiments at 7 T. The findings demonstrate that incorporating an easily producible HPM slurry helmet into the RF coil array significantly enhances human-brain MRI SNR homogeneity and quality at ultrahigh field. Greater SNR improvement is anticipated using the less lossy HPM and optimal design.

摘要

目的

优化设计并展示一种装有高介电常数材料（HPM）浆料的头盔形容器与射频头部线圈阵列的集成，以提高人脑质子磁共振成像（MRI）的射频线圈灵敏度和信噪比（SNR）。

方法

在7T场强下，通过电磁仿真计算了具有不同几何形状和HPM浆料头盔介电常数的32通道纯接收线圈阵列的射频接收磁场（）。构建并组装了一个16通道纯发射线圈阵列、一个32通道纯接收线圈阵列和一个两件式HPM浆料头盔。测量并比较了整个大脑的射频发射磁场（）、以及MRI信噪比图谱。

结果

仿真表明，随着HPM浆料的相对介电常数（ε）从110增加到210，使用HPM浆料头盔时平均改善率从57%提高到87%。体内实验表明，两件式HPM浆料（ε≈170）头盔在人脑中的平均改善率为14.5%，平均和SNR分别提高了63%和34%，这是因为有损耗的HPM增加了MRI噪声水平。

结论

电磁仿真和7T场强下的人体头部体内实验均表明，两件式HPM浆料头盔极大地提高了射频线圈灵敏度和MRI SNR。研究结果表明，将易于生产的HPM浆料头盔纳入射频线圈阵列可显著提高超高场下人脑MRI SNR的均匀性和质量。使用损耗较小的HPM和优化设计有望实现更大的SNR改善。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/608c/11680740/f360bc7ffcda/MRM-93-1205-g008.jpg

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使用全头高介电常数浆料头盔，在7T下进行人脑MRI应用时，射频磁场和成像信噪比有大幅提升。

Large improvement in RF magnetic fields and imaging SNR with whole-head high-permittivity slurry helmet for human-brain MRI applications at 7 T.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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