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关于在7特斯拉下使用简化人体头部模型进行B1匀场局部比吸收率(SAR)模拟的安全裕度。

On the safety margin of using simplified human head models for local SAR simulations of B1-shimming at 7 Tesla.

作者信息

Shao Yu, Shang Shuo, Wang Shumin

机构信息

Department of Electrical and Computer Engineering, Auburn University, Auburn, AL, USA.

Department of Electrical and Computer Engineering, Auburn University, Auburn, AL, USA.

出版信息

Magn Reson Imaging. 2015 Jul;33(6):779-86. doi: 10.1016/j.mri.2015.04.002. Epub 2015 Apr 10.

DOI:10.1016/j.mri.2015.04.002
PMID:25865823
Abstract

PURPOSES

Using simplified human models significantly alleviates the difficulty of rendering human models for subject-specific local specific absorption rate (SAR) simulations. Although its accuracy has been demonstrated with the birdcage mode combination of RF transmitters, its accuracy in general B1-shimming, where numerous phase and magnitude combinations can take place, is yet unknown.

METHODS

The electromagnetic fields of a 7-Tesla eight-channel brain imaging array were simulated by using four detailed human models from the Virtual Family and their two-, three-, and four-tissue simplifications. The 10-g averaged local SAR was computed for each case with 1,000 sets of uniformly distributed random B1-shimming parameters. Linear regression was applied to relate the local SAR obtained by using detailed and simplified human models. The 99% confidence prediction interval was determined as the safety margin in order to cover the largest local SAR variability introduced by using simplified human models.

RESULTS

The local SAR computed by using three- and four-tissue simplifications are strongly correlated with those computed by using detailed models. Safety margins of 0.38 and 0.45W/kg/W were found appropriate for each case being considered.

CONCLUSIONS

The proposed procedure can be applied to evaluate the safety margin of the local SAR simulated by using simplified human models. However, discretion needs to be exercised since the safety margins in some cases may represent more than 50% overestimation.

摘要

目的

使用简化人体模型可显著降低为特定个体局部比吸收率(SAR)模拟生成人体模型的难度。尽管其准确性已在射频发射器的鸟笼模式组合中得到验证,但其在一般B1匀场(其中可能会出现大量相位和幅度组合)中的准确性尚不清楚。

方法

使用来自虚拟家族的四个详细人体模型及其两组织、三组织和四组织简化模型,对7特斯拉八通道脑成像阵列的电磁场进行模拟。针对每种情况,使用1000组均匀分布的随机B1匀场参数计算10克平均局部SAR。应用线性回归来关联使用详细和简化人体模型获得的局部SAR。确定99%置信预测区间作为安全裕度,以涵盖使用简化人体模型引入的最大局部SAR变异性。

结果

使用三组织和四组织简化模型计算的局部SAR与使用详细模型计算的局部SAR高度相关。发现每种考虑的情况分别有0.38和0.45W/kg/W的安全裕度是合适的。

结论

所提出的程序可用于评估使用简化人体模型模拟的局部SAR的安全裕度。然而,由于某些情况下的安全裕度可能表示高估超过50%,因此需要谨慎行事。

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