用于 7T 人体头部成像的 32 单元环形/偶极子混合阵列。

A 32-element loop/dipole hybrid array for human head imaging at 7 T.

机构信息

High-Field MR Center, Max Planck Institute for Biological Cybernetics, Tübingen, Germany.

Department for Biomedical Magnetic Resonance, University of Tübingen, Tübingen, Germany.

出版信息

Magn Reson Med. 2022 Oct;88(4):1912-1926. doi: 10.1002/mrm.29347. Epub 2022 Jun 29.

DOI:10.1002/mrm.29347

PMID:35766426

Abstract

PURPOSE

To improve whole-brain SNR at 7 Tesla, a novel 32-element hybrid human head array coil was developed, constructed, and tested.

METHODS

Our general design strategy is based on 2 major ideas: Firstly, following suggestions of previous works based on the ultimate intrinsic SNR theory, we combined loops and dipoles for improvement of SNR near the head center. Secondly, we minimized the total number of array elements by using a hybrid combination of transceive (TxRx) and receive (Rx) elements. The new hybrid array consisted of 8 folded-end TxRx-dipole antennas and 3 rows of 24 Rx-loops all placed in a single layer on the surface of a tight-fit helmet.

RESULTS

The developed array significantly improved SNR in vivo both near the center (∼20%) and at the periphery (∼20% to 80%) in comparison to a common commercial array coil with 8 transmit (Tx) and 32 Rx-elements. Whereas 24 loops alone delivered central SNR very similar to that of the commercial coil, the addition of complementary dipole structures provided further improvement. The new array also provided ∼15% higher Tx efficiency and better longitudinal coverage than that of the commercial array.

CONCLUSION

The developed array coil demonstrated advantages in combining complementary TxRx and Rx resonant structures, that is, TxRx-dipoles and Rx-loops all placed in a single layer at the same distance to the head. This strategy improved both SNR and Tx-performance, as well as simplified the total head coil design, making it more robust.

摘要

目的

为了在 7 特斯拉提高全脑 SNR，我们开发、构建并测试了一种新型的 32 通道混合式人头部线圈。

方法

我们的总体设计策略基于两个主要思想：首先，根据基于终极本征 SNR 理论的先前工作的建议，我们结合了环和偶极子以提高头部中心附近的 SNR。其次，我们通过使用收发（TxRx）和接收（Rx）元件的混合组合，使阵列元件的总数最小化。新的混合阵列由 8 个折叠端 TxRx-偶极子天线和 3 排 24 个 Rx-环组成，它们都放置在紧贴头盔表面的单个层上。

结果

与具有 8 个发射（Tx）和 32 个接收（Rx）元件的常见商用阵列线圈相比，开发的阵列在线圈中心附近（约 20%）和外周（约 20%至 80%）均显著提高了体内 SNR。虽然单独的 24 个环提供的中心 SNR 与商用线圈非常相似，但添加互补偶极子结构可进一步提高 SNR。新阵列还提供了比商用阵列更高的约 15%的 Tx 效率和更好的纵向覆盖范围。

结论

所开发的阵列线圈在结合互补的 TxRx 和 Rx 谐振结构方面具有优势，即 TxRx-偶极子和 Rx-环都放置在距离头部相同距离的单个层中。这种策略提高了 SNR 和 Tx 性能，并简化了总头部线圈设计，使其更具鲁棒性。

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用于 7T 人体头部成像的 32 单元环形/偶极子混合阵列。

A 32-element loop/dipole hybrid array for human head imaging at 7 T.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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