接收式插针对吸收率、B1（+）场和 Tx 线圈性能的影响。

Effects of receive-only inserts on specific absorption rate, B1 (+) field, and Tx coil performance.

机构信息

Bioengineering Department, University of Pittsburgh, Pittsburgh, Pennsylvania, USA.

出版信息

J Magn Reson Imaging. 2014 Feb;39(2):475-84. doi: 10.1002/jmri.24152. Epub 2013 Aug 1.

DOI:10.1002/jmri.24152

PMID:23913474

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4501854/

Abstract

PURPOSE

To evaluate the effect of different cylindrical and close-conforming receive-only array designs on spin excitation and specific absorption rate (SAR) of a 7 T transmit-only head coil.

MATERIALS AND METHODS

We developed finite difference time domain (FDTD) models of different receive-only array geometries. Cylindrical and close-fitting helmet arrays with varying copper trace widths, a TEM Tx coil model, and two head models were used in numerical simulations. Tx coil coupling was experimentally measured and validated with FDTD modeling.

RESULTS

Changing copper trace width of loops in array models caused subtle changes in radiofrequency (RF) absorption (<5%). Changes in SAR distribution were observed in the head models with Rx-only inserts. Peak SAR increased (-1 to +15%) in different tissues for a mean B1 (+) in the brain of 2 μT. Total absorption in the head models for 1 W forward power increased (5%-21%) in the heads with Rx-only inserts. Changes in RF absorption with different Rx inserts indicate a change in RF radiation of the Tx coil even when changes in B1 (+) and coupling between ports of Tx coil were minimal.

CONCLUSION

Changes in local/global SAR and subtle changes in B1 (+) field distributions were observed in the presence of Rx-only inserts. Thus, incorporation of the receive-only array effects are needed when evaluating SAR and designing RF transmit pulse waveform parameters for shimming and/or Tx-SENSE for 7 T MRI.

摘要

目的

评估不同圆柱形和紧密贴合接收式阵列设计对 7T 仅发射头部线圈的自旋激发和比吸收率（SAR）的影响。

材料与方法

我们开发了不同接收式阵列几何形状的有限差分时间域（FDTD）模型。在数值模拟中使用了具有不同铜迹线宽度的圆柱形和紧密贴合的头盔式阵列、TEM Tx 线圈模型以及两个头部模型。Tx 线圈的耦合通过 FDTD 建模进行了实验测量和验证。

结果

改变阵列模型中环路的铜迹线宽度仅引起射频（RF）吸收的微小变化（<5%）。在带有 Rx-only 插入件的头部模型中观察到 SAR 分布的变化。在平均 B1（+）为 2μT 的大脑中，不同组织中的 SAR 峰值增加了（-1 到+15%）。对于 1W 正向功率，带有 Rx-only 插入件的头部模型中的总吸收增加了（5%-21%）。不同 Rx 插入件的 RF 吸收变化表明，即使 Tx 线圈的 B1（+）和端口之间的耦合变化最小，Tx 线圈的 RF 辐射也会发生变化。

结论

在存在 Rx-only 插入件的情况下，观察到局部/全局 SAR 和 B1（+）场分布的细微变化。因此，在评估 SAR 并设计用于调谐和/或 Tx-SENSE 的 RF 发射脉冲波形参数时，需要考虑接收式阵列的影响。

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