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基于激发回波的螺旋编码导航的三维弥散成像(3D-DISPENSE)。

Three-dimensional diffusion imaging with spiral encoded navigators from stimulated echoes (3D-DISPENSE).

机构信息

Amsterdam UMC, University of Amsterdam, Radiology and Nuclear Medicine, Amsterdam, The Netherlands.

Amsterdam UMC, University of Amsterdam, Biomedical Engineering and Physics, Amsterdam, The Netherlands.

出版信息

Magn Reson Med. 2019 Feb;81(2):1052-1065. doi: 10.1002/mrm.27470. Epub 2018 Sep 26.

DOI:10.1002/mrm.27470
PMID:30257041
Abstract

PURPOSE

To introduce a new method for motion-insensitive 3D multishot diffusion imaging using 3D spiral-encoded navigators from stimulated echoes (3D-DISPENSE).

METHODS

The 3D-DISPENSE sequence contains a 3D stack-of-spiral navigator generated between the diffusion preparation and the turbo spin-echo image acquisition from the twin pathway of a stimulated echo. Unlike normal navigator methods, 3D-DISPENSE separates the navigator acquisition from the imaging readout without compromising the image SNR. Phase information from the navigators was included in an iterative image reconstruction algorithm to correct for intershot phase incoherence caused by motion.

RESULTS

In a phantom experiment, 3D-DISPENSE correctly estimated deliberately introduced phase errors. In a moving phantom, motion-induced artifacts in the DWI were greatly mitigated by 3D-DISPENSE. The ADC after 3D-DISPENSE correction was identical to the reference. In a brain diffusion tensor experiment, phase-incoherence artifacts from breathing, cardiac, and subject motion were removed almost perfectly in all view angles, resulting in distortion-free DWI and color-coded fractional anisotropy maps with 1.5-mm isotropic resolution and nearly full brain coverage.

CONCLUSION

Three-dimensional DISPENSE corrects motion-induced phase-incoherence artifacts in 3D multishot diffusion imaging and produces high-quality 3D DWI and DTI.

摘要

目的

介绍一种新的使用 3D 激发回波导航的运动不敏感 3D 多发扩散成像方法(3D-DISPENSE)。

方法

3D-DISPENSE 序列在扩散准备和涡轮自旋回波图像采集之间生成 3D 螺旋导航,其来自于双通路上的激发回波。与传统的导航方法不同,3D-DISPENSE 将导航采集与成像读出分离,而不会降低图像 SNR。从导航器中提取的相位信息被包含在迭代图像重建算法中,以校正运动引起的各次激发之间的相位不一致性。

结果

在体模实验中,3D-DISPENSE 正确估计了故意引入的相位误差。在运动体模中,3D-DISPENSE 大大减轻了 DWI 中的运动伪影。经过 3D-DISPENSE 校正后的 ADC 与参考值一致。在大脑扩散张量实验中,3D-DISPENSE 几乎完美地去除了呼吸、心脏和受试者运动引起的相位不一致性伪影,从而在所有视角下得到了无失真的 DWI 和彩色编码的分数各向异性图,具有 1.5mm 各向同性分辨率和几乎全脑覆盖。

结论

3D-DISPENSE 校正了 3D 多发扩散成像中的运动引起的相位不一致性伪影,并生成了高质量的 3D DWI 和 DTI。

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