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采用混合偶极天线和微带传输线谐振器的高密度 MRI RF 阵列。

High-Density MRI RF Arrays Using Mixed Dipole Antennas and Microstrip Transmission Line Resonators.

出版信息

IEEE Trans Biomed Eng. 2022 Oct;69(10):3243-3252. doi: 10.1109/TBME.2022.3166279. Epub 2022 Sep 19.

DOI:10.1109/TBME.2022.3166279
PMID:35404807
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9587496/
Abstract

OBJECTIVE

High-density multi-coil arrays are desirable in MRI because they provide high signal-to-noise ratios (SNR), enable highly accelerated parallel imaging, and provide more uniform transmit fields at high fields. For high-density arrays such as a head array with 16 elements in a row, popular dipole antennas and microstrip transmission line (also referred to as "MTL") resonators both have severe coupling issues.

METHODS

In this work, we show that dipoles and MTLs have naturally low coupling and propose a novel array configuration in which they are interleaved. We first show the electromagnetic (EM) coupling between a single dipole and a single MTL across different separations in bench tests. Then we validate and analyze this through EM simulations. Finally, we construct a 16-channel mixed dipole and MTL array and evaluate its performance on the bench and through MRI experiments.

RESULTS

Without any decoupling treatments, the worst coupling between a dipole and an MTL was only -15.8 dB when their center-to-center distance was 4.7 cm (versus -5.4 dB for two dipole antennas and -6.0 dB for two MTL resonators). Even in a dense 16-channel mixed array, the inter-element isolation among all elements was better than -14 dB.

CONCLUSION

This study reveals, analyzes, and validates a novel finding that the popular dipole antennas and MTL resonators used in ultrahigh field MRI have naturally low coupling.

SIGNIFICANCE

These findings will simplify the construction of high-density arrays, enable new applications, and benefit imaging performance in ultrahigh field MRI.

摘要

目的

在 MRI 中,高密度多线圈阵列是理想的,因为它们提供了高信噪比 (SNR),能够实现高度加速的并行成像,并在高场提供更均匀的发射场。对于高密度阵列,例如具有 16 个单元的头部阵列,流行的偶极天线和微带传输线(也称为“MTL”)谐振器都存在严重的耦合问题。

方法

在这项工作中,我们表明偶极子和 MTL 具有自然低的耦合,并提出了一种新颖的阵列配置,其中它们是交错的。我们首先在台式测试中展示了单个偶极子和单个 MTL 之间的电磁(EM)耦合,跨越不同的分离。然后,我们通过 EM 模拟验证和分析这一点。最后,我们构建了一个 16 通道混合偶极子和 MTL 阵列,并在台式机和 MRI 实验中评估其性能。

结果

在没有任何去耦处理的情况下,当偶极子和 MTL 的中心到中心距离为 4.7 厘米时,它们之间的最差耦合仅为-15.8 dB(而两个偶极天线的耦合为-5.4 dB,两个 MTL 谐振器的耦合为-6.0 dB)。即使在密集的 16 通道混合阵列中,所有元件之间的元件间隔离度也优于-14 dB。

结论

这项研究揭示、分析和验证了一个新的发现,即在超高场 MRI 中使用的流行偶极天线和 MTL 谐振器具有自然低的耦合。

意义

这些发现将简化高密度阵列的构建,实现新的应用,并有益于超高场 MRI 的成像性能。

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Magn Reson Med. 2021 Dec;86(6):3382-3390. doi: 10.1002/mrm.28934. Epub 2021 Jul 19.
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Shielded-coaxial-cable coils as receive and transceive array elements for 7T human MRI.屏蔽式同轴电缆线圈作为接收和收发阵列元件用于 7T 人体 MRI。
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Design and characterization of an eight-element passively fed meander-dipole array with improved specific absorption rate efficiency for 7 T body imaging.设计并描述了一种八单元的被动馈电曲折偶极子天线阵列,用于提高 7T 体成像的比吸收率效率。
NMR Biomed. 2019 Aug;32(8):e4106. doi: 10.1002/nbm.4106. Epub 2019 May 27.
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A highly decoupled transmit-receive array design with triangular elements at 7T.7T 下采用三角形单元的高度解耦发射-接收阵列设计。
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New resonator geometries for ICE decoupling of loop arrays.用于环形阵列内燃机去耦的新型谐振器几何结构。
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