用于7T磁共振成像中R映射的可控共振磁化转移的并行发射混合脉冲设计

Parallel transmit hybrid pulse design for controlled on-resonance magnetization transfer in R mapping at 7T.

作者信息

Leitão David, Tomi-Tricot Raphael, Bridgen Philippa, Di Cio Pierluigi, Liebig Patrick, Gumbrecht Rene, Ritter Dieter, Giles Sharon, Hajnal Joseph V, Malik Shaihan J

机构信息

School of Biomedical Engineering and Imaging Sciences, King's College London, London, UK.

MR Research Collaborations, Siemens Healthcare Limited, Frimley, UK.

出版信息

Magn Reson Med. 2025 Mar;93(3):1090-1103. doi: 10.1002/mrm.30333. Epub 2024 Oct 14.

DOI:10.1002/mrm.30333

PMID:39402761

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11680742/

Abstract

PURPOSE

This work proposes a "hybrid" RF pulse design method for parallel transmit (pTx) systems to simultaneously control flip angle and root-mean-squared ( ). These pulses are generally only designed for flip angle, however, this can lead to uncontrolled , which then leads to variable magnetization transfer (MT) effects. We demonstrate the hybrid design approach for quantitative imaging where both flip angle and are important.

THEORY AND METHODS

A dual cost function optimization is performed containing the normalized mean squared errors of the flip angle and distributions weighted by a parameter . Simulations were conducted to study the behavior of both properties when simultaneously optimizing them. In vivo experiments on a 7T MRI system with an 8-channel pTx head coil were carried out to study the effect of the hybrid design approach on variable flip angle (= 1/T) mapping.

RESULTS

Simulations showed that both flip angle and can be homogenized simultaneously without detriment to either when compared to an individual optimization. By homogenizing flip angle and , maps were more uniform (coefficient of variation 6.6% vs. 13.0%) compared to those acquired with pulses that only homogenized flip angle.

CONCLUSION

The proposed hybrid design homogenizes on-resonance MT effects while homogenizing the flip angle distribution, with only a small detriment in the latter compared to a pulse that just homogenizes flip angle. This improved mapping by controlling incidental MT effects, yielding more uniform maps.

摘要

目的

本研究提出一种用于并行发射（pTx）系统的“混合”射频脉冲设计方法，以同时控制翻转角和均方根（）。然而，这些脉冲通常仅针对翻转角进行设计，这可能导致均方根不受控制，进而导致可变的磁化传递（MT）效应。我们展示了这种混合设计方法在定量成像中的应用，其中翻转角和均方根都很重要。

理论与方法

进行了双成本函数优化，其中包含由参数加权的翻转角和均方根分布的归一化均方误差。进行了模拟研究，以同时优化这两个属性时它们的行为。在配备8通道pTx头部线圈的7T MRI系统上进行了体内实验，以研究混合设计方法对可变翻转角（=1/T）映射的影响。

结果

模拟表明，与单独优化相比，翻转角和均方根可以同时均匀化，而不会对任何一个造成损害。通过使翻转角和均方根均匀化，与仅使翻转角均匀化的脉冲采集的图谱相比，均方根图谱更加均匀（变异系数分别为6.6%和13.0%）。

结论

所提出的混合设计在使翻转角分布均匀化的同时，使共振MT效应均匀化，与仅使翻转角均匀化的脉冲相比，后者的损害较小。通过控制偶然的MT效应改善了均方根映射，产生了更均匀的均方根图谱。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9050/11680742/b22836ba78eb/MRM-93-1090-g006.jpg

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用于7T磁共振成像中R映射的可控共振磁化转移的并行发射混合脉冲设计

Parallel transmit hybrid pulse design for controlled on-resonance magnetization transfer in R mapping at 7T.

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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