一种适用于 3T 同步多通道脑刺激和成像的新型全头射频线圈设计。

A novel whole-head RF coil design tailored for concurrent multichannel brain stimulation and imaging at 3T.

机构信息

Athinoula A. Martinos Center for Biomedical Imaging, Dept. of Radiology, Massachusetts General Hospital, Charlestown, MA, 02129, USA; Harvard Medical School, Boston, MA, 02115, USA.

出版信息

Brain Stimul. 2023 Jul-Aug;16(4):1021-1031. doi: 10.1016/j.brs.2023.05.025. Epub 2023 Jun 10.

DOI:10.1016/j.brs.2023.05.025

PMID:37307872

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10499022/

Abstract

PURPOSE

Multichannel Transcranial Magnetic Stimulation (mTMS) [1] is a novel non-invasive brain stimulation technique allowing multiple sites to be stimulated simultaneously or sequentially under electronic control without movement of the coils. To enable simultaneous mTMS and MR imaging, we have designed and constructed a whole-head 28-channel receive-only RF coil at 3T.

METHODS

A helmet-shaped structure was designed considering a specific layout for a mTMS system with holes for positioning the TMS units next to the scalp. Diameter of the TMS units defined the diameter of RF loops. The placement of the preamplifiers was designed to minimize possible interactions and to allow straightforward positioning of the mTMS units around the RF coil. Interactions between TMS-MRI were analyzed for the whole-head system extending the results presented in previous publications [2]. Both SNR- and g-factors maps were obtained to compare the imaging performance of the coil with commercial head coils.

RESULTS

Sensitivity losses for the RF elements containing TMS units show a well-defined spatial pattern. Simulations indicate that the losses are predominantly caused by eddy currents on the coil wire windings. The average SNR performance of the TMSMR 28-channel coil is about 66% and 86% of the SNR of the 32/20-channel head coil respectively. The g-factor values of the TMSMR 28-channel coil are similar to the 32-channel coil and significantly better than the 20-channel coil.

CONCLUSION

We present the TMSMR 28-channel coil, a head RF coil array to be integrated with a multichannel 3-axisTMS coil system, a novel tool that will enable causal mapping of human brain function.

摘要

目的

多通道经颅磁刺激（mTMS）[1]是一种新颖的非侵入性脑刺激技术，可在电子控制下同时或顺序刺激多个部位，而无需移动线圈。为了实现同时进行 mTMS 和磁共振成像，我们设计并构建了一种在 3T 下使用的全头 28 通道接收式射频线圈。

方法

考虑到具有头皮旁 TMS 单元定位孔的特定 mTMS 系统布局，设计了一个头盔形状的结构。TMS 单元的直径定义了 RF 环路的直径。前置放大器的放置位置旨在最小化可能的相互作用，并允许围绕 RF 线圈轻松定位 mTMS 单元。扩展了之前出版物[2]中的结果，分析了整个头部系统的 TMS-MRI 相互作用。获得了 SNR-和 g-因子图，以比较线圈的成像性能与商用头部线圈。

结果

包含 TMS 单元的 RF 元件的灵敏度损失呈现出明确的空间模式。模拟表明，损失主要是由线圈线绕组上的涡流引起的。TMSMR 28 通道线圈的平均 SNR 性能分别约为 32/20 通道头部线圈 SNR 的 66%和 86%。TMSMR 28 通道线圈的 g-因子值与 32 通道线圈相似，明显优于 20 通道线圈。

结论

我们提出了 TMSMR 28 通道线圈，这是一种与多通道 3 轴 TMS 线圈系统集成的头部射频线圈阵列，是一种新的工具，将能够实现人类大脑功能的因果映射。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/eb0b/10499022/4bff8969de5b/nihms-1926711-f0001.jpg

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一种适用于 3T 同步多通道脑刺激和成像的新型全头射频线圈设计。

A novel whole-head RF coil design tailored for concurrent multichannel brain stimulation and imaging at 3T.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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