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使用带干扰消除的高振幅导频音(HAPTIC)在0.55T下进行非接触式心脏门控。

Contactless cardiac gating at 0.55T using high-amplitude pilot tone with interference cancellation (HAPTIC).

作者信息

Tasdelen Bilal, Yagiz Ecrin, Cinbis Baran R, Tian Ye, Nayak Krishna S

机构信息

Ming Hsieh Department of Electrical and Computer Engineering, University of Southern California, Los Angeles, California, USA.

出版信息

Magn Reson Med. 2025 Sep;94(3):1182-1190. doi: 10.1002/mrm.30528. Epub 2025 Apr 14.

DOI:10.1002/mrm.30528
PMID:40228074
Abstract

PURPOSE

To enable contactless cardiac gating at 0.55T using pilot tone (PT). Current PT methods are unable to extract weak motions, including cardiac motion, at lower B field strengths (<1.5T).

METHODS

We utilize high-amplitude pilot tone with interference cancellation, termed HAPTIC. The use of high amplitude PT improves sensitivity to cardiac motion, but introduces noise leakage into the imaging bandwidth. This leakage is removed using External Dynamic InTerference Estimation and Removal (EDITER) interference cancellation. HAPTIC performance at 0.55T is evaluated in healthy volunteers and patients with cardiac arrhythmia, over a 100-fold range in PT amplitude. Contactless HAPTIC gating performance is compared against conventional electrocardiogram (ECG). Noise enhancement due to HAPTIC is evaluated using noise-only scans acquired with varying PT amplitude levels.

RESULTS

We demonstrate robust extraction of cardiac PT signals at 0.55T, with cardiac gating (ECG vs. HAPTIC) jitter <9 ms, and noise enhancement ˜12%-35%. We demonstrate the ability to track cardiac and respiratory phase during real-time MRI and demonstrate reliable separation of cardiac and respiratory phases for retrospective binning using HAPTIC. Furthermore, we demonstrate that HAPTIC provides accurate cardiac gating in the challenging case of arrhythmia to showcase initial feasibility.

CONCLUSION

HAPTIC enables contactless cardiac gating at 0.55T, which has not previously been demonstrated with any PT variant. This could simplify clinical workflow and could serve as a solution for mid- and low-field MRI scanners that do not include built-in physiological monitoring.

摘要

目的

使用导频音(PT)在0.55T实现非接触式心脏门控。目前的PT方法在较低磁场强度(<1.5T)下无法提取微弱运动,包括心脏运动。

方法

我们利用具有干扰消除功能的高振幅导频音,即触觉式自适应并行采集技术(HAPTIC)。使用高振幅PT可提高对心脏运动的敏感性,但会将噪声泄漏到成像带宽中。利用外部动态干扰估计与消除(EDITER)干扰消除技术去除这种泄漏。在健康志愿者和心律失常患者中,在100倍的PT振幅范围内评估0.55T时HAPTIC的性能。将非接触式HAPTIC门控性能与传统心电图(ECG)进行比较。使用在不同PT振幅水平下采集的仅含噪声的扫描来评估HAPTIC引起的噪声增强。

结果

我们证明了在0.55T时能够稳健地提取心脏PT信号,心脏门控(ECG与HAPTIC)抖动<9毫秒,噪声增强约12%-35%。我们展示了在实时MRI期间跟踪心脏和呼吸相位的能力,并展示了使用HAPTIC进行回顾性分箱时心脏和呼吸相位的可靠分离。此外,我们证明了在心律失常这种具有挑战性的情况下,HAPTIC能提供准确的心脏门控,以展示其初步可行性。

结论

HAPTIC能够在0.55T实现非接触式心脏门控,这在之前的任何PT变体中都未得到证明。这可以简化临床工作流程,并可作为不具备内置生理监测功能的中低场MRI扫描仪的解决方案。

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本文引用的文献

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Design and operation of a whole-body MRI scanner without RF shielding.无射频屏蔽的全身磁共振成像扫描仪的设计与操作
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Beat Pilot Tone (BPT): Simultaneous MRI and RF motion sensing at arbitrary frequencies.节拍式激励脉冲(Beat Pilot Tone,BPT):在任意频率下同时进行 MRI 和 RF 运动感应。
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Magn Reson Med. 2023 Feb;89(2):746-755. doi: 10.1002/mrm.29472. Epub 2022 Oct 5.
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