使用局部低秩和有限差分约束的加速心脏电影磁共振成像

Accelerated cardiac cine MRI using locally low rank and finite difference constraints.

作者信息

Miao Xin, Lingala Sajan Goud, Guo Yi, Jao Terrence, Usman Muhammad, Prieto Claudia, Nayak Krishna S

机构信息

Department of Biomedical Engineering, University of Southern California, Los Angeles, USA.

Ming Hsieh Department of Electrical Engineering, University of Southern California, Los Angeles, USA.

出版信息

Magn Reson Imaging. 2016 Jul;34(6):707-714. doi: 10.1016/j.mri.2016.03.007. Epub 2016 Mar 8.

DOI:10.1016/j.mri.2016.03.007

PMID:26968142

Abstract

PURPOSE

To evaluate the potential value of combining multiple constraints for highly accelerated cardiac cine MRI.

METHODS

A locally low rank (LLR) constraint and a temporal finite difference (FD) constraint were combined to reconstruct cardiac cine data from highly undersampled measurements. Retrospectively undersampled 2D Cartesian reconstructions were quantitatively evaluated against fully-sampled data using normalized root mean square error, structural similarity index (SSIM) and high frequency error norm (HFEN). This method was also applied to 2D golden-angle radial real-time imaging to facilitate single breath-hold whole-heart cine (12 short-axis slices, 9-13s single breath hold). Reconstruction was compared against state-of-the-art constrained reconstruction methods: LLR, FD, and k-t SLR.

RESULTS

At 10 to 60 spokes/frame, LLR+FD better preserved fine structures and depicted myocardial motion with reduced spatio-temporal blurring in comparison to existing methods. LLR yielded higher SSIM ranking than FD; FD had higher HFEN ranking than LLR. LLR+FD combined the complimentary advantages of the two, and ranked the highest in all metrics for all retrospective undersampled cases. Single breath-hold multi-slice cardiac cine with prospective undersampling was enabled with in-plane spatio-temporal resolutions of 2×2mm(2) and 40ms.

CONCLUSION

Highly accelerated cardiac cine is enabled by the combination of 2D undersampling and the synergistic use of LLR and FD constraints.

摘要

目的

评估多种约束条件相结合在心脏电影磁共振成像高度加速中的潜在价值。

方法

将局部低秩（LLR）约束和时间有限差分（FD）约束相结合，从高度欠采样测量中重建心脏电影数据。使用归一化均方根误差、结构相似性指数（SSIM）和高频误差范数（HFEN），将回顾性欠采样的二维笛卡尔重建与全采样数据进行定量评估。该方法还应用于二维黄金角径向实时成像，以实现单屏气全心电影成像（12个短轴切片，单屏气9 - 13秒）。将重建结果与当前最先进的约束重建方法进行比较：LLR、FD和k - t SLR。

结果

在每帧10至60条辐条的情况下，与现有方法相比，LLR + FD能更好地保留精细结构，并减少时空模糊，描绘心肌运动。LLR的SSIM排名高于FD；FD的HFEN排名高于LLR。LLR + FD结合了两者的互补优势，在所有回顾性欠采样情况下的所有指标中排名最高。通过前瞻性欠采样实现了单屏气多层心脏电影成像，面内时空分辨率为2×2mm²和40ms。

结论

二维欠采样与LLR和FD约束的协同使用相结合，实现了心脏电影的高度加速。

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使用局部低秩和有限差分约束的加速心脏电影磁共振成像

Accelerated cardiac cine MRI using locally low rank and finite difference constraints.

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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