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发射线圈阵列的比吸收率计算

Calculation of SAR for Transmit Coil Arrays.

作者信息

Mao Weihua, Wang Zhangwei, Smith Michael B, Collins Christopher M

机构信息

Center for NMR Research, H066, Department of Radiology, The Pennsylvania State University College of Medicine, 500 University Drive, Hershey, PA 17033.

出版信息

Concepts Magn Reson Part B Magn Reson Eng. 2007 Apr;31B(2):127-131. doi: 10.1002/cmr.b.20085. Epub 2007 Apr 5.

DOI:10.1002/cmr.b.20085
PMID:22639557
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3359701/
Abstract

Transmit coil arrays allowing independent control of individual coil drives facilitate adjustment of the B(1) field distribution, but when the B(1) field distribution is changed the electric field and SAR distributions are also altered. This makes safety evaluation of the transmit array a challenging problem because there are potentially an infinite number of possible field distributions in the sample. Local SAR levels can be estimated with numerical calculations, but it is not practical to perform separate full numerical calculations for every current distribution of interest. Here we evaluate superposition of separate electric field calculations-one for each coil-for predicting SAR in a full numerical calculation where all coils are driven simultaneously. It is important to perform such an evaluation because the effects of coil coupling may alter the result. It is shown that while there is good agreement between the superimposed and simultaneous drive results when using current sources in the simulations, the agreement is not as good when voltage sources are used. Finally, we compare maximum local SAR levels for B(1) field distributions that are either unshimmed or shimmed over one of three regions of interest. When B(1) field homogeneity is improved in a small region of interest without regard for SAR, the maximum local SAR can become very high.

摘要

允许独立控制各个线圈驱动的发射线圈阵列有助于调整B(1)场分布,但当B(1)场分布改变时,电场和比吸收率(SAR)分布也会改变。这使得发射阵列的安全性评估成为一个具有挑战性的问题,因为样品中可能存在无限数量的可能场分布。局部SAR水平可以通过数值计算来估计,但对每一个感兴趣的电流分布进行单独的完整数值计算是不切实际的。在这里,我们评估单独电场计算的叠加——每个线圈一个——以便在所有线圈同时驱动的完整数值计算中预测SAR。进行这样的评估很重要,因为线圈耦合的影响可能会改变结果。结果表明,在模拟中使用电流源时,叠加结果与同时驱动结果之间有很好的一致性,但使用电压源时,一致性则没那么好。最后,我们比较了在三个感兴趣区域之一上未匀场或匀场的B(1)场分布的最大局部SAR水平。当在一个小的感兴趣区域内提高B(1)场均匀性而不考虑SAR时,最大局部SAR可能会变得非常高。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/953e/3359701/3e8c2db9fb03/nihms-377790-f0003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/953e/3359701/d10fa282889b/nihms-377790-f0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/953e/3359701/bbf7ac83f077/nihms-377790-f0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/953e/3359701/3e8c2db9fb03/nihms-377790-f0003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/953e/3359701/d10fa282889b/nihms-377790-f0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/953e/3359701/bbf7ac83f077/nihms-377790-f0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/953e/3359701/3e8c2db9fb03/nihms-377790-f0003.jpg

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