通用脉冲：一种免校准并行传输的新概念。

Universal pulses: A new concept for calibration-free parallel transmission.

作者信息

Gras Vincent, Vignaud Alexandre, Amadon Alexis, Le Bihan Denis, Boulant Nicolas

机构信息

NeuroSpin, CEA, DSV, Gif sur Yvette, Cedex, France.

出版信息

Magn Reson Med. 2017 Feb;77(2):635-643. doi: 10.1002/mrm.26148. Epub 2016 Feb 17.

DOI:10.1002/mrm.26148

PMID:26888654

Abstract

PURPOSE

A calibration-free parallel transmission method is investigated to mitigate the radiofrequency (RF) field inhomogeneity problem in brain imaging at 7 Tesla (T).

THEORY AND METHODS

Six volunteers were scanned to build a representative database of RF and static field maps at 7T. Small-tip-angle and inversion pulses were designed with joint k -points trajectory optimization to work robustly on all six subjects. The returned "universal" pulses were then inserted in an MPRAGE sequence implemented on six additional volunteers without further field measurements and pulse optimizations. Similar acquisitions were performed in the circularly polarized mode and with subject-based optimizations for comparison. Performance of the different approaches was evaluated by means of image analysis and computation of the flip angle normalized root mean square errors (NRMSE).

RESULTS

For both the excitation and inversion, the universal pulses (NRMSE∼11%) outperformed the circularly polarized (NRMSE∼28%) and RF shim modes (NRMSE∼20%) across all volunteers and returned slightly worse results than for subject-based optimized pulses (NRMSE∼7%).

CONCLUSION

RF pulses can be designed to robustly mitigate the RF field inhomogeneity problem over a population class. This appears as a first step toward another plug and play parallel transmission solution where the pulse design can be done offline and without measuring subject-specific field maps. Magn Reson Med 77:635-643, 2017. © 2016 International Society for Magnetic Resonance in Medicine.

摘要

目的

研究一种免校准的并行传输方法，以减轻7特斯拉（T）脑成像中的射频（RF）场不均匀性问题。

理论与方法

对6名志愿者进行扫描，以建立7T时RF和静磁场图的代表性数据库。通过联合k空间轨迹优化设计了小翻转角和反转脉冲，使其在所有6名受试者身上都能稳健工作。然后将返回的“通用”脉冲插入到另外6名志愿者实施的MPRAGE序列中，无需进一步的场测量和脉冲优化。以圆极化模式并基于受试者进行优化进行了类似的采集以作比较。通过图像分析和翻转角归一化均方根误差（NRMSE）的计算来评估不同方法的性能。

结果

对于激发和反转，通用脉冲（NRMSE约为11%）在所有志愿者中均优于圆极化（NRMSE约为28%）和RF匀场模式（NRMSE约为20%），且结果略逊于基于受试者优化的脉冲（NRMSE约为7%）。

结论

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通用脉冲：一种免校准并行传输的新概念。

Universal pulses: A new concept for calibration-free parallel transmission.

作者信息

机构信息

出版信息

PURPOSE

THEORY AND METHODS

RESULTS

CONCLUSION

目的

理论与方法

结果

结论

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