一种用于高场磁共振成像/磁共振波谱应用的收发分离（TORO）射频系统。

A transmit-only/receive-only (TORO) RF system for high-field MRI/MRS applications.

作者信息

Barberi E A, Gati J S, Rutt B K, Menon R S

机构信息

Imaging Research Laboratories, John P. Robarts Research Institute, London, Ontario, Canada.

出版信息

Magn Reson Med. 2000 Feb;43(2):284-9. doi: 10.1002/(sici)1522-2594(200002)43:2<284::aid-mrm16>3.0.co;2-c.

DOI:10.1002/(sici)1522-2594(200002)43:2<284::aid-mrm16>3.0.co;2-c

PMID:10680693

Abstract

The design and operation of a detunable shielded hybrid birdcage RF head coil optimized for human brain imaging at 170 MHz is presented. A high duty-cycle and rapid-switching decoupling scheme that allows uniform RF transmission with the head coil and reception with a surface coil within the volume of the head coil is also demonstrated. In addition, the circumscribing hybrid coil can be biased to operate as a conventional transmit/receive head coil. Our RF design allows the use of higher sensitivity surface coils or phased-array coils at very high magnetic fields where body RF resonators are not currently available or whose use is precluded by specific-absorption ratio restrictions. The design also allows the use of receive-only coils within head gradient inserts, which normally do not allow transmission with an RF body resonator at any field strength.

摘要

本文介绍了一种为170MHz人脑成像优化的可失谐屏蔽混合鸟笼式射频头线圈的设计与操作。还展示了一种高占空比和快速切换的去耦方案，该方案可使头线圈实现均匀射频传输，并在头线圈体积内使用表面线圈进行接收。此外，外接混合线圈可被偏置以作为传统的发射/接收头线圈运行。我们的射频设计允许在非常高的磁场下使用更高灵敏度的表面线圈或相控阵线圈，而目前在这些磁场下人体射频谐振器不可用，或者由于比吸收率限制而不能使用。该设计还允许在头部梯度插入件内使用仅接收线圈，而在任何场强下，头部梯度插入件通常不允许与射频人体谐振器进行传输。

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一种用于高场磁共振成像/磁共振波谱应用的收发分离（TORO）射频系统。

A transmit-only/receive-only (TORO) RF system for high-field MRI/MRS applications.

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