用于在高磁场下调整 B1+ 分布的新型高介电常数材料。

New high dielectric constant materials for tailoring the B1+ distribution at high magnetic fields.

机构信息

Department of Electrical Engineering, Pennsylvania State University, University Park, PA, USA.

出版信息

J Magn Reson. 2010 Apr;203(2):323-7. doi: 10.1016/j.jmr.2010.01.003. Epub 2010 Jan 11.

DOI:10.1016/j.jmr.2010.01.003

PMID:20122862

Abstract

The spatial distribution of electromagnetic fields within the human body can be tailored using external dielectric materials. Here, we introduce a new material with high dielectric constant, and also low background MRI signal. The material is based upon metal titanates, which can be made into a geometrically-formable suspension in de-ionized water. The material properties of the suspension are characterized from 100 to 400 MHz. Results obtained at 7 T show a significant increase in image intensity in areas such as the temporal lobe and base of the brain with the new material placed around the head, and improved performance compared to purely water-based gels.

摘要

可以使用外部介电材料来调整人体内部的电磁场空间分布。在这里，我们介绍一种新的材料，它具有高介电常数和低背景 MRI 信号。该材料基于金属钛酸盐，可以在去离子水中制成几何形状可变形的悬浮液。悬浮液的材料特性在 100 到 400MHz 之间进行了表征。在 7T 下获得的结果表明，在头部周围放置新材料后，颞叶和脑底等区域的图像强度显著增加，并且与纯水凝胶相比性能得到了改善。

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用于在高磁场下调整 B1+ 分布的新型高介电常数材料。

New high dielectric constant materials for tailoring the B1+ distribution at high magnetic fields.

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