用于快速髓鞘水成像的压缩感知多自旋回波T弛豫成像（METRICS）。

Multi-spin echo T relaxation imaging with compressed sensing (METRICS) for rapid myelin water imaging.

作者信息

Dvorak Adam V, Wiggermann Vanessa, Gilbert Guillaume, Vavasour Irene M, MacMillan Erin L, Barlow Laura, Wiley Neale, Kozlowski Piotr, MacKay Alex L, Rauscher Alexander, Kolind Shannon H

机构信息

Department of Physics and Astronomy, University of British Columbia, Vancouver, British Columbia, Canada.

International Collaboration on Repair Discoveries, University of British Columbia, Vancouver, British Columbia, Canada.

出版信息

Magn Reson Med. 2020 Sep;84(3):1264-1279. doi: 10.1002/mrm.28199. Epub 2020 Feb 17.

DOI:10.1002/mrm.28199

PMID:32065474

Abstract

PURPOSE

Myelin water imaging (MWI) provides a valuable biomarker for myelin, but clinical application has been restricted by long acquisition times. Accelerating the standard multi-echo T acquisition with gradient echoes (GRASE) or by 2D multi-slice data collection results in image blurring, contrast changes, and other issues. Compressed sensing (CS) can vastly accelerate conventional MRI. In this work, we assessed the use of CS for in vivo human MWI, using a 3D multi spin-echo sequence.

METHODS

We implemented multi-echo T relaxation imaging with compressed sensing (METRICS) and METRICS with partial Fourier acceleration (METRICS-PF). Scan-rescan data were acquired from 12 healthy controls for assessment of repeatability. MWI data were acquired for METRICS in 9 m:58 s and for METRICS-PF in 7 m:25 s, both with 1.5 × 2 × 3 mm voxels, 56 echoes, 7 ms ΔTE, and 240 × 240 × 170 mm FOV. METRICS was compared with a novel multi-echo spin-echo gold-standard (MSE-GS) MWI acquisition, acquired for a single additional subject in 2 h:2 m:40 s.

RESULTS

METRICS/METRICS-PF myelin water fraction had mean: repeatability coefficient 1.5/1.1, coefficient of variation 6.2/4.5%, and intra-class correlation coefficient 0.79/0.84. Repeatability metrics comparing METRICS with METRICS-PF were similar, and both sequences agreed with reference values from literature. METRICS images and quantitative maps showed excellent qualitative agreement with those of MSE-GS.

CONCLUSION

METRICS and METRICS-PF provided highly repeatable MWI data without the inherent disadvantages of GRASE or 2D multi-slice acquisition. CS acceleration allows MWI data to be acquired rapidly with larger FOV, higher estimated SNR, more isotropic voxels and more echoes than with previous techniques. The approach introduced here generalizes to any multi-component T mapping application.

摘要

目的

髓鞘水成像（MWI）为髓鞘提供了一种有价值的生物标志物，但临床应用一直受到长采集时间的限制。通过梯度回波（GRASE）加速标准多回波T采集或通过二维多切片数据采集会导致图像模糊、对比度变化等问题。压缩感知（CS）可以极大地加速传统MRI。在这项工作中，我们使用三维多自旋回波序列评估了CS在体内人体MWI中的应用。

方法

我们实现了具有压缩感知的多回波T弛豫成像（METRICS）和具有部分傅里叶加速的METRICS（METRICS-PF）。从12名健康对照者获取扫描-重扫数据以评估重复性。以1.5×2×3mm体素、56个回波、7ms ΔTE和240×240×170mm视野分别在9分58秒和7分25秒采集METRICS和METRICS-PF的MWI数据。将METRICS与一种新的多回波自旋回波金标准（MSE-GS）MWI采集进行比较，后者为另外一名受试者在2小时2分40秒采集。

结果

METRICS/METRICS-PF的髓鞘水分数的均值：重复性系数为1.5/1.1，变异系数为6.2/4.5%，组内相关系数为0.79/0.84。比较METRICS和METRICS-PF的重复性指标相似，且两个序列均与文献中的参考值一致。METRICS图像和定量图与MSE-GS的图像和定量图在定性上具有良好的一致性。

结论

METRICS和METRICS-PF提供了高度可重复的MWI数据，没有GRASE或二维多切片采集的固有缺点。CS加速使得MWI数据能够比以前的技术更快地采集，具有更大的视野、更高的估计信噪比、更各向同性的体素和更多的回波。这里介绍的方法可推广到任何多组分T映射应用。

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用于快速髓鞘水成像的压缩感知多自旋回波T弛豫成像（METRICS）。

Multi-spin echo T relaxation imaging with compressed sensing (METRICS) for rapid myelin water imaging.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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