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使用“暗模式”发射阵列策略在7T颈椎成像中降低比吸收率

SAR reduction in 7T C-spine imaging using a "dark modes" transmit array strategy.

作者信息

Eryaman Yigitcan, Guerin Bastien, Keil Boris, Mareyam Azma, Herraiz Joaquin L, Kosior Robert K, Martin Adrian, Torrado-Carvajal Angel, Malpica Norberto, Hernandez-Tamames Juan A, Schiavi Emanuele, Adalsteinsson Elfar, Wald Lawrence L

机构信息

Research Laboratory of Electronics, Massachusetts Institute of Technology, Cambridge, Massachusetts, USA; A. A. Martinos Center for Biomedical Imaging, Department of Radiology, Massachusetts General Hospital, Charlestown, Massachusetts, USA; Madrid-MIT M+ Vision Consortium, Madrid, Spain.

出版信息

Magn Reson Med. 2015 Apr;73(4):1533-9. doi: 10.1002/mrm.25246. Epub 2014 Apr 18.

DOI:10.1002/mrm.25246
PMID:24753012
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4761435/
Abstract

PURPOSE

Local specific absorption rate (SAR) limits many applications of parallel transmit (pTx) in ultra high-field imaging. In this Note, we introduce the use of an array element, which is intentionally inefficient at generating spin excitation (a "dark mode") to attempt a partial cancellation of the electric field from those elements that do generate excitation. We show that adding dipole elements oriented orthogonal to their conventional orientation to a linear array of conventional loop elements can lower the local SAR hotspot in a C-spine array at 7 T.

METHODS

We model electromagnetic fields in a head/torso model to calculate SAR and excitation B1 (+) patterns generated by conventional loop arrays and loop arrays with added electric dipole elements. We utilize the dark modes that are generated by the intentional and inefficient orientation of dipole elements in order to reduce peak 10g local SAR while maintaining excitation fidelity.

RESULTS

For B1 (+) shimming in the spine, the addition of dipole elements did not significantly alter the B1 (+) spatial pattern but reduced local SAR by 36%.

CONCLUSION

The dipole elements provide a sufficiently complimentary B1 (+) and electric field pattern to the loop array that can be exploited by the radiofrequency shimming algorithm to reduce local SAR.

摘要

目的

局部比吸收率(SAR)限制了并行发射(pTx)在超高场成像中的许多应用。在本论文中,我们介绍了一种阵列元件的使用方法,该元件在产生自旋激发方面故意效率低下(一种“暗模式”),试图部分抵消那些确实产生激发的元件所产生的电场。我们表明,在传统环形元件的线性阵列中添加与传统方向正交的偶极元件,可以降低7T下颈椎阵列中的局部SAR热点。

方法

我们在头部/躯干模型中对电磁场进行建模,以计算传统环形阵列以及添加了电偶极元件的环形阵列所产生的SAR和激发B1(+)模式。我们利用偶极元件故意低效定向所产生的暗模式,以降低10g局部SAR峰值,同时保持激发保真度。

结果

对于脊柱中的B1(+)匀场,添加偶极元件并未显著改变B1(+)空间模式,但将局部SAR降低了36%。

结论

偶极元件为环形阵列提供了足够互补的B1(+)和电场模式,射频匀场算法可以利用这些模式来降低局部SAR。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b531/4761435/ea825f063d5a/nihms758834f1.jpg

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