在 9.4T 场强下对人脑进行非常高的阶（和度数）B 匀场的真实补偿器场建模。

Modeling real shim fields for very high degree (and order) B shimming of the human brain at 9.4 T.

机构信息

Max Planck Institute for Biological Cybernetics, Tuebingen, Germany.

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

出版信息

Magn Reson Med. 2018 Jan;79(1):529-540. doi: 10.1002/mrm.26658. Epub 2017 Mar 20.

DOI:10.1002/mrm.26658

PMID:28321902

Abstract

PURPOSE

To describe the process of calibrating a B shim system using high-degree (or high order) spherical harmonic models of the measured shim fields, to provide a method that considers amplitude dependency of these models, and to show the advantage of very high-degree B shimming for whole-brain and single-slice applications at 9.4 Tesla (T).

METHODS

An insert shim with up to fourth and partial fifth/sixth degree (order) spherical harmonics was used with a Siemens 9.4T scanner. Each shim field was measured and modeled as input for the shimming algorithm. Optimal shim currents can therefore be calculated in a single iteration. A range of shim currents was used in the modeling to account for possible amplitude nonlinearities. The modeled shim fields were used to compare different degrees of whole-brain B shimming on healthy subjects.

RESULTS

The ideal shim fields did not correctly shim the subject brains. However, using the modeled shim fields improved the B homogeneity from 55.1 (second degree) to 44.68 Hz (partial fifth/sixth degree) on the whole brains of 9 healthy volunteers, with a total applied current of 0.77 and 6.8 A, respectively.

CONCLUSIONS

The necessity of calibrating the shim system was shown. Better B homogeneity drastically reduces signal dropout and distortions for echo-planar imaging, and significantly improves the linewidths of MR spectroscopy imaging. Magn Reson Med 79:529-540, 2018. © 2017 International Society for Magnetic Resonance in Medicine.

摘要

目的

描述使用测量的补偿场的高次（或高阶）球谐模型来校准 B 补偿系统的过程，提供一种考虑这些模型的幅度依赖性的方法，并展示在 9.4T（T）下全脑和单切片应用中非常高次 B 补偿的优势。

方法

使用带有高达四阶和部分五/六阶（阶）球谐的插入补偿器和西门子 9.4T 扫描仪。每个补偿场都被测量并建模为补偿算法的输入。因此，可以在单个迭代中计算最佳补偿电流。在建模中使用了一系列补偿电流来考虑可能的幅度非线性。使用建模的补偿场来比较健康受试者的不同程度的全脑 B 补偿。

结果

理想的补偿场不能正确补偿受试者的大脑。然而，使用建模的补偿场可以将 9 名健康志愿者的全脑 B 均匀度从 55.1（二阶）提高到 44.68 Hz（部分五/六阶），总应用电流分别为 0.77 和 6.8 A。

结论

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在 9.4T 场强下对人脑进行非常高的阶（和度数）B 匀场的真实补偿器场建模。

Modeling real shim fields for very high degree (and order) B shimming of the human brain at 9.4 T.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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