3T 磁共振下双侧植入导丝的并行射频传输以提高安全性：一种异质模型研究。

Parallel radiofrequency transmission at 3 tesla to improve safety in bilateral implanted wires in a heterogeneous model.

机构信息

Physical Sciences Platform, Sunnybrook Health Sciences Institute, Toronto, Canada.

Department of Medical Biophysics, University of Toronto, Toronto, Canada.

出版信息

Magn Reson Med. 2017 Dec;78(6):2406-2415. doi: 10.1002/mrm.26622. Epub 2017 Feb 28.

DOI:10.1002/mrm.26622

PMID:28244142

Abstract

PURPOSE

Elongated implanted conductors can interact with the radiofrequency (RF) transmission field during MRI, posing safety concerns of excessive heating in patients with deep brain stimulators. A technique using parallel RF transmission (pTx) is evaluated on an anthropomorphic heterogeneous model with bilateral and unilateral curved wires.

METHODS

Amplitude and phase were optimized by simulation to minimize heating surrounding the implanted wires and to minimize B1+ inhomogeneity for four-channel and eight-channel pTx in a heterogeneous model. MRI experiments were conducted in an equivalent test phantom created from a common digital mesh file.

RESULTS

In four-channel pTx, maximum local specific absorption rate (SAR) was reduced in both unilateral and bilateral wires by 47% and 59%, respectively, but with compromised B1+ homogeneity. Optimized eight-channel pTx substantially reduced local SAR compared with birdcage coil RF excitation in both unilateral and bilateral wires (reduction of maximum local SAR of 79% and 87%, respectively). B1+ inhomogeneity was limited to 17% and 26%, respectively. Experimental validation with four-channel pTx showed 80% and 92% temperature reduction at the tips of wire 1 and wire 2, respectively.

CONCLUSION

This pTx approach yields promising reductions in local SAR at the tips of unilateral and bilateral implanted wires while maintaining image quality in simulation and experiment. Magn Reson Med 78:2408-2415, 2017. © 2017 International Society for Magnetic Resonance in Medicine.

摘要

目的

在 MRI 过程中，植入的细长导体可能会与射频 (RF) 传输场相互作用，这对深部脑刺激器患者的安全造成了过度加热的担忧。本文评估了一种使用平行 RF 传输 (pTx) 的技术，该技术应用于具有双侧和单侧弯曲导线的人体异质模型。

方法

通过模拟对幅度和相位进行了优化，以最小化植入导线周围的加热，并最小化四通道和八通道 pTx 在异质模型中的 B1+不均匀性。在等效测试模型中进行了 MRI 实验，该模型由常见的数字网格文件创建。

结果

在四通道 pTx 中，单侧和双侧导线的局部比吸收率 (SAR) 最大值分别降低了 47%和 59%，但 B1+ 均匀性受到影响。优化的八通道 pTx 与鸟笼线圈 RF 激励相比，在单侧和双侧导线中均显著降低了局部 SAR（最大局部 SAR 分别降低了 79%和 87%）。B1+ 不均匀性分别限制在 17%和 26%。四通道 pTx 的实验验证表明，导线 1 和导线 2 的尖端温度分别降低了 80%和 92%。

结论

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3T 磁共振下双侧植入导丝的并行射频传输以提高安全性：一种异质模型研究。

Parallel radiofrequency transmission at 3 tesla to improve safety in bilateral implanted wires in a heterogeneous model.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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