高场扩散磁共振组织学：在弛豫增强的扩散加权快速采集（DW-RARE）中基于图像的涡流伪影校正。

High-field diffusion MR histology: image-based correction of eddy-current ghosts in diffusion-weighted rapid acquisition with relaxation enhancement (DW-RARE).

作者信息

Tyszka J Michael, Frank Lawrence R

机构信息

Division of Biology, California Institute of Technology, Pasadena, California 91125, USA.

出版信息

Magn Reson Med. 2009 Mar;61(3):728-33. doi: 10.1002/mrm.21876.

DOI:10.1002/mrm.21876

PMID:19097246

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4319701/

Abstract

High-resolution, diffusion-weighted (DW) MR microscopy is gaining increasing acceptance as a nondestructive histological tool for the study of fixed tissue samples. Spin-echo sequences are popular for high-field diffusion imaging due to their high tolerance to B(0) field inhomogeneities. Volumetric DW rapid acquisition with relaxation enhancement (DW-RARE) currently offers the best tradeoff between imaging efficiency and image quality, but is relatively sensitive to residual eddy-current effects on the echo train phase, resulting in encoding direction-dependent ghosting in the DW images. We introduce two efficient, image-based phase corrections for ghost artifact reduction in DW-RARE of fixed tissue samples, neither of which require navigator echo acquisition. Both methods rely on the phase difference in k-space between the unweighted reference image and a given DW image and assume a constant, per-echo phase error arising from residual eddy-current effects in the absence of sample motion. Significant qualitative and quantitative ghost artifact reductions are demonstrated for individual DW and calculated diffusion tensor images.

摘要

高分辨率扩散加权磁共振显微镜作为一种用于研究固定组织样本的无损组织学工具，正越来越受到认可。自旋回波序列因其对B(0)场不均匀性的高耐受性而在高场扩散成像中很受欢迎。具有弛豫增强的容积扩散加权快速采集（DW-RARE）目前在成像效率和图像质量之间提供了最佳权衡，但对回波链相位上的残余涡流效应相对敏感，导致扩散加权图像中出现编码方向依赖性重影。我们介绍了两种有效的基于图像的相位校正方法，用于减少固定组织样本的DW-RARE中的重影伪影，这两种方法都不需要采集导航回波。这两种方法都依赖于未加权参考图像和给定扩散加权图像在k空间中的相位差，并假设在没有样本运动的情况下，由残余涡流效应产生的每个回波的相位误差是恒定的。对于单个扩散加权图像和计算得到的扩散张量图像，均显示出重影伪影在定性和定量上都有显著减少。

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