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在7T磁场下,利用单发射磁共振成像系统上的动态kT点进行3D T2加权成像。

3D T 2-weighted imaging at 7T using dynamic kT-points on single-transmit MRI systems.

作者信息

Eggenschwiler Florent, O'Brien Kieran Robert, Gallichan Daniel, Gruetter Rolf, Marques José Pedro

机构信息

Laboratory for Functional and Metabolic Imaging, Ecole Polytechnique Fédérale de Lausanne, Station 6, 1015, Lausanne, Switzerland.

Centre for Advanced Imaging, University of Queensland, Brisbane, Australia.

出版信息

MAGMA. 2016 Jun;29(3):347-58. doi: 10.1007/s10334-016-0545-4. Epub 2016 Apr 8.

DOI:10.1007/s10334-016-0545-4
PMID:27059983
Abstract

OBJECTIVES

For turbo spin echo (TSE) sequences to be useful at ultra-high field, they should ideally employ an RF pulse train compensated for the B 1 (+) inhomogeneity. Previously, it was shown that a single kT-point pulse designed in the small tip-angle regime can replace all the pulses of the sequence (static kT-points). This work demonstrates that the B 1 (+) dependence of T 2-weighted imaging can be further mitigated by designing a specific kT-point pulse for each pulse of a 3D TSE sequence (dynamic kT-points) even on single-channel transmit systems

MATERIALS AND METHODS

By combining the spatially resolved extended phase graph formalism (which calculates the echo signals throughout the sequence) with a gradient descent algorithm, dynamic kT-points were optimized such that the difference between the simulated signal and a target was minimized at each echo. Dynamic kT-points were inserted into the TSE sequence to acquire in vivo images at 7T.

RESULTS

The improvement provided by the dynamic kT-points over the static kT-point design and conventional hard pulses was demonstrated via simulations. Images acquired with dynamic kT-points showed systematic improvement of signal and contrast at 7T over regular TSE-especially in cerebellar and temporal lobe regions without the need of parallel transmission.

CONCLUSION

Designing dynamic kT-points for a 3D TSE sequence allows the acquisition of T 2-weighted brain images on a single-transmit system at ultra-high field with reduced dropout and only mild residual effects due to the B 1 (+) inhomogeneity.

摘要

目的

为使涡轮自旋回波(TSE)序列在超高场中发挥作用,理想情况下应采用针对B1(+)不均匀性进行补偿的射频脉冲序列。此前研究表明,在小翻转角模式下设计的单个kT点脉冲可替代序列中的所有脉冲(静态kT点)。本研究表明,即使在单通道发射系统上,通过为三维TSE序列的每个脉冲设计特定的kT点脉冲(动态kT点),可以进一步减轻T2加权成像对B1(+)的依赖性。

材料与方法

通过将空间分辨扩展相位图形式(计算整个序列的回波信号)与梯度下降算法相结合,对动态kT点进行优化,使模拟信号与目标信号在每个回波处的差异最小化。将动态kT点插入TSE序列,以在7T下采集体内图像。

结果

通过模拟证明了动态kT点相对于静态kT点设计和传统硬脉冲的改进。使用动态kT点采集的图像显示,在7T时,相对于常规TSE,信号和对比度有系统性改善,尤其是在小脑和颞叶区域,无需并行传输。

结论

为三维TSE序列设计动态kT点,能够在单发射系统上以超高场采集T2加权脑图像,减少信号丢失,且由于B1(+)不均匀性仅产生轻微残留效应。

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本文引用的文献

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2
Anatomical brain imaging at 7T using two-dimensional GRASE.使用二维梯度回波采集单次激发快速自旋回波序列在7T下进行脑解剖成像。
Magn Reson Med. 2014 Nov;72(5):1291-301. doi: 10.1002/mrm.25047. Epub 2013 Dec 17.
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Application of PINS radiofrequency pulses to reduce power deposition in RARE/turbo spin echo imaging of the human head.
J Magn Reson. 2018 Jun;291:101-109. doi: 10.1016/j.jmr.2018.01.022. Epub 2018 Apr 26.
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Whole-brain 3D FLAIR at 7T using direct signal control.7T 全脑 3D FLAIR 采用直接信号控制。
Magn Reson Med. 2018 Oct;80(4):1533-1545. doi: 10.1002/mrm.27149. Epub 2018 Feb 24.
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From ultrahigh to extreme field magnetic resonance: where physics, biology and medicine meet.从超高场到极场磁共振:物理学、生物学与医学的交汇之处。
MAGMA. 2016 Jun;29(3):309-11. doi: 10.1007/s10334-016-0564-1.
应用 PINS 射频脉冲降低人体头部 RARE/turbo 自旋回波成像中的功率沉积。
Magn Reson Med. 2014 Jan;71(1):44-9. doi: 10.1002/mrm.24991. Epub 2013 Oct 22.
4
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5
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