多馈、环形偶极子组合的介电谐振器天线阵列，用于 7T 人体脑部 MRI。

Multi-feed, loop-dipole combined dielectric resonator antenna arrays for human brain MRI at 7 T.

机构信息

CIBM Center for Biomedical Imaging, École Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland.

Animal Imaging and Technology, École Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland.

出版信息

MAGMA. 2023 Apr;36(2):227-243. doi: 10.1007/s10334-023-01078-y. Epub 2023 Apr 5.

DOI:10.1007/s10334-023-01078-y

PMID:37017828

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10140138/

Abstract

OBJECTIVE

To determine whether a multi-feed, loop-dipole combined approach can be used to improve performance of rectangular dielectric resonator antenna (DRA) arrays human brain for MRI at 7 T.

MATERIALS AND METHODS

Electromagnetic field simulations in a spherical phantom and human voxel model "Duke" were conducted for different rectangular DRA geometries and dielectric constants ε. Three types of RF feed were investigated: loop-only, dipole-only and loop-dipole. Additionally, multi-channel array configurations up to 24-channels were simulated.

RESULTS

The loop-only coupling scheme provided the highest B and SAR efficiency, while the loop-dipole showed the highest SNR in the center of a spherical phantom for both single- and multi-channel configurations. For Duke, 16-channel arrays outperformed an 8-channel bow-tie array with greater B efficiency (1.48- to 1.54-fold), SAR efficiency (1.03- to 1.23-fold) and SNR (1.63- to 1.78). The multi-feed, loop-dipole combined approach enabled the number of channels increase to 24 with 3 channels per block.

DISCUSSION

This work provides novel insights into the rectangular DRA design for high field MRI and shows that the loop-only feed should be used instead of the dipole-only in transmit mode to achieve the highest B and SAR efficiency, while the loop-dipole should be the best suited in receive mode to obtain the highest SNR in spherical samples of similar size and electrical properties as the human head.

摘要

目的

确定多馈、环偶极子组合方法是否可用于提高 7T 磁共振成像中人体大脑的矩形介质谐振器天线（DRA）阵列性能。

材料与方法

在球形仿体和“杜克”人体体模中进行了不同矩形 DRA 几何形状和介电常数 ε 的电磁场模拟。研究了三种 RF 馈电方式：仅环、仅偶极子和环偶极子。此外，还模拟了多达 24 通道的多通道阵列配置。

结果

仅环耦合方案提供了最高的 B 和 SAR 效率，而在球形仿体的中心，环偶极子在单通道和多通道配置下均显示出最高的 SNR。对于 Duke，16 通道阵列优于 8 通道蝴蝶结阵列，具有更高的 B 效率（1.48 至 1.54 倍）、SAR 效率（1.03 至 1.23 倍）和 SNR（1.63 至 1.78 倍）。多馈、环偶极子组合方法可将通道数量增加到 24 个，每个块 3 个通道。

讨论

这项工作为高场 MRI 中的矩形 DRA 设计提供了新的见解，并表明在发射模式下，应使用仅环馈电而不是仅偶极子馈电以实现最高的 B 和 SAR 效率，而在接收模式下，环偶极子应是最佳选择，以在与人体头部相似大小和电特性的球形样本中获得最高的 SNR。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aee5/10140138/e8e86d3ebed6/10334_2023_1078_Fig1_HTML.jpg

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多馈、环形偶极子组合的介电谐振器天线阵列，用于 7T 人体脑部 MRI。

Multi-feed, loop-dipole combined dielectric resonator antenna arrays for human brain MRI at 7 T.

机构信息

出版信息

OBJECTIVE

MATERIALS AND METHODS

RESULTS

DISCUSSION

目的

材料与方法

结果

讨论

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