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用于减少视野扩散加权成像的哈达玛切片编码

Hadamard slice encoding for reduced-FOV diffusion-weighted imaging.

作者信息

Saritas Emine Ulku, Lee Daeho, Çukur Tolga, Shankaranarayanan Ajit, Nishimura Dwight G

机构信息

Department of Electrical Engineering, Stanford University, Stanford, California, USA; Department of Electrical and Electronics Engineering, Bilkent University, Bilkent, Ankara, Turkey; National Magnetic Resonance Research Center (UMRAM), Bilkent University, Bilkent, Ankara, Turkey.

出版信息

Magn Reson Med. 2014 Nov;72(5):1277-90. doi: 10.1002/mrm.25044. Epub 2013 Nov 21.

DOI:10.1002/mrm.25044
PMID:24265013
Abstract

PURPOSE

To improve the clinical utility of diffusion-weighted imaging (DWI) by extending the slice coverage of a high-resolution reduced field-of-view technique.

THEORY

Challenges in achieving high spatial resolution restrict the use of DWI in assessment of small structures such as the spinal cord. A reduced field-of-view method with 2D echo-planar radiofrequency (RF) excitation was recently proposed for high-resolution DWI. Here, a Hadamard slice-encoding scheme is proposed to double the slice coverage by exploiting the periodicity of the 2D echo-planar RF excitation profile.

METHODS

A 2D echo-planar RF pulse and matching multiband refocusing RF pulses were designed using the Shinnar-Le Roux algorithm to reduce band interference, and variable-rate selective excitation to shorten the pulse durations. Hadamard-encoded images were resolved through a phase-preserving image reconstruction. The performance of the method was evaluated via simulations, phantom experiments, and in vivo high-resolution axial DWI of spinal cord.

RESULTS

The proposed scheme successfully extends the slice coverage, while preserving the sharp excitation profile and the reliable fat suppression of the original method. For in vivo axial DWI of the spinal cord, an in-plane resolution of 0.7 × 0.7 mm(2) was achieved with 16 slices.

CONCLUSION

The proposed Hadamard slice-encoding scheme doubles the slice coverage of the 2D echo-planar RF reduced field-of-view method without any scan-time penalty.

摘要

目的

通过扩展高分辨率缩小视野技术的切片覆盖范围,提高扩散加权成像(DWI)的临床实用性。

理论

实现高空间分辨率面临的挑战限制了DWI在评估脊髓等小结构中的应用。最近提出了一种采用二维回波平面射频(RF)激发的缩小视野方法用于高分辨率DWI。在此,提出了一种哈达玛切片编码方案,通过利用二维回波平面RF激发轮廓的周期性将切片覆盖范围加倍。

方法

使用Shinnar-Le Roux算法设计二维回波平面RF脉冲和匹配的多波段重聚焦RF脉冲,以减少波段干扰,并采用可变率选择性激发来缩短脉冲持续时间。通过保相图像重建解析哈达玛编码图像。通过模拟、体模实验以及脊髓的体内高分辨率轴向DWI评估该方法的性能。

结果

所提出的方案成功扩展了切片覆盖范围,同时保留了原始方法的锐利激发轮廓和可靠的脂肪抑制效果。对于脊髓的体内轴向DWI,16层切片实现了0.7×0.7 mm²的平面分辨率。

结论

所提出的哈达玛切片编码方案将二维回波平面RF缩小视野方法的切片覆盖范围加倍,且不增加扫描时间。

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