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在短TR时间的驱动平衡短TI反转恢复成像中增强流体信号:一项可行性研究。

Enhancing fluid signal in driven-equilibrium short-TI inversion-recovery imaging with short TR times: A feasibility study.

作者信息

von Deuster Constantin, Nanz Daniel

机构信息

Advanced Clinical Imaging Technology, Siemens Healthineers International AG, Zurich, Switzerland.

Swiss Center for Musculoskeletal Imaging, Balgrist Campus AG, Zurich, Switzerland.

出版信息

Magn Reson Med. 2024 Dec;92(6):2571-2579. doi: 10.1002/mrm.30215. Epub 2024 Jul 10.

DOI:10.1002/mrm.30215
PMID:38987979
Abstract

PURPOSE

Fluid-sensitive turbo spin echo (TSE) MRI with short-TI inversion-recovery preparation for fat suppression (STIR) plays a critical role in the diagnostics of the musculoskeletal system (e.g., close to metal implants). Potential advantages of 3D acquisitions, however, are difficult to exploit due to long acquisition times. Shortening the TR incurs a signal loss, and a driven-equilibrium (DE) extension reduces fluid signal even further.

METHODS

The phase of the flip-back pulse was changed by 180° relative to the conventional implementation (i.e., 90° along the positive x-axis (90°) instead of -90°). After signal modeling and numerical simulations, the modification was implemented in STIR-TSE sequences and tested on a clinical 3T system. Imaging was performed in the lumbar spine, and long-TR images without DE were acquired as reference. CSF SNR and fluid-muscle contrast were measured and compared between the sequences. Imaging was repeated in a metal implant phantom.

RESULTS

A shortening of TR by 43%-57% reduced the CSF SNR by 39%-59%. A conventional DE module further reduced SNR to 26%-40%, whereas the modified DE recovered SNR to 59%-108% compared with the long-TR acquisitions. Fluid-tissue contrast was increased by about 340% with the modified DE module compared with the conventional extension. Similar results were obtained in implant measurements.

CONCLUSIONS

The proposed DE element for TSE-STIR sequences has the potential to accelerate the acquisition of fluid-sensitive images. DE-STIR may work most efficiently for 3D acquisitions, in which no temporo-spatial interleaving of inversion and imaging pulses is possible.

摘要

目的

采用短TI反转恢复准备(STIR)的液体敏感型快速自旋回波(TSE)MRI在肌肉骨骼系统诊断(如靠近金属植入物处)中起着关键作用。然而,由于采集时间长,三维采集的潜在优势难以发挥。缩短TR会导致信号损失,而驱动平衡(DE)扩展会进一步降低液体信号。

方法

相对于传统实现方式,反转回波脉冲的相位改变了180°(即沿正x轴为90°而非 -90°)。经过信号建模和数值模拟后,对该修改在STIR-TSE序列中进行了实现,并在临床3T系统上进行了测试。在腰椎进行成像,并采集无DE的长TR图像作为参考。测量并比较了各序列之间的脑脊液信噪比(CSF SNR)和液体-肌肉对比度。在金属植入物模型中重复进行成像。

结果

TR缩短43%-57%使CSF SNR降低了39%-59%。传统的DE模块进一步将SNR降低至26%-40%,而与长TR采集相比,修改后的DE将SNR恢复至59%-108%。与传统扩展相比,修改后的DE模块使液体-组织对比度提高了约340%。在植入物测量中也获得了类似结果。

结论

所提出的用于TSE-STIR序列的DE元件有可能加速液体敏感图像的采集。DE-STIR对于三维采集可能最有效,在三维采集中反转和成像脉冲无法进行时间-空间交错。

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