在 9.4T 场强下，使用 16 通道多通道匀场线圈对人脑进行动态 B 场匀场。

Dynamic B shimming of the human brain at 9.4 T with a 16-channel multi-coil shim setup.

机构信息

Max Planck Institute for Biological Cybernetics, Tuebingen, Germany.

IMPRS for Cognitive and Systems Neuroscience, University of Tuebingen, Tuebingen, Germany.

出版信息

Magn Reson Med. 2018 Oct;80(4):1714-1725. doi: 10.1002/mrm.27110. Epub 2018 Feb 9.

DOI:10.1002/mrm.27110

PMID:29424461

Abstract

PURPOSE

A 16-channel multi-coil shimming setup was developed to mitigate severe B field perturbations at ultrahigh field and improve data quality for human brain imaging and spectroscopy.

METHODS

The shimming setup consisted of 16 circular B coils that were positioned symmetrically on a cylinder with a diameter of 370 mm. The latter was large enough to house a shielded 18/32-channel RF transceiver array. The shim performance was assessed via simulations and phantom as well as in vivo measurements at 9.4 T. The global and dynamic shimming performance of the multi-coil setup was compared with the built-in scanner shim system for EPI and single voxel spectroscopy.

RESULTS

The presence of the multi-coil shim did not influence the performance of the RF coil. The performance of the proposed setup was similar to a full third-order spherical harmonic shim system in the case of global static and dynamic slice-wise shimming. Dynamic slice-wise shimming with the multi-coil setup outperformed global static shimming with the scanner's second-order spherical-harmonic shim. The multi-coil setup allowed mitigating geometric distortions for EPI. The combination of the multi-coil shim setup with the zeroth and first-order shim of the scanner further reduced the standard deviation of the B field in the brain by 12% compared with the case in which multi-coil was used exclusively.

CONCLUSION

The combination of a multi-coil setup and the linear shim channels of the scanner provides a straightforward solution for implementing dynamic slice-wise shimming without requiring an additional pre-emphasis setup.

摘要

目的

开发了一种 16 通道多线圈匀场设置，以减轻超高场强下严重的 B 场扰动，提高人脑成像和光谱学的数据质量。

方法

匀场设置由 16 个圆形 B 线圈组成，对称地放置在直径为 370mm 的圆柱体上。后者足够大，可以容纳屏蔽的 18/32 通道射频收发器阵列。通过模拟、体模和 9.4T 体内测量评估了匀场性能。比较了多线圈设置的全局和动态匀场性能与内置扫描仪的 EPI 和单体素光谱学的匀场系统。

结果

多线圈匀场的存在并不影响射频线圈的性能。在全局静态和动态切片匀场方面，提出的设置的性能与全三阶球谐匀场系统相似。与扫描仪的二阶球谐匀场相比，多线圈设置的动态切片匀场性能更好。多线圈设置允许对 EPI 进行几何失真校正。多线圈匀场设置与扫描仪的零阶和一阶匀场相结合，与仅使用多线圈相比，大脑中的 B 场标准偏差进一步降低了 12%。

结论

多线圈设置与扫描仪的线性匀场通道相结合，为实现无需额外预强调设置的动态切片匀场提供了一种简单的解决方案。

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在 9.4T 场强下，使用 16 通道多通道匀场线圈对人脑进行动态 B 场匀场。

Dynamic B shimming of the human brain at 9.4 T with a 16-channel multi-coil shim setup.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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