基于三层堆栈区域生长的独立相位估计的3D真相位极性恢复（3D-TRIPS）。

3D true-phase polarity recovery with independent phase estimation using three-tier stacks based region growing (3D-TRIPS).

作者信息

Liu Haining, Wilson Gregory J, Balu Niranjan, Maki Jeffrey H, Hippe Daniel S, Wu Wei, Watase Hiroko, Wang Jinnan, Gunn Martin L, Yuan Chun

机构信息

Department of Bioengineering, University of Washington, 850 Republican Street, Brotman 124, Seattle, WA, 98109-4725, USA.

Department of Radiology, University of Washington, Seattle, WA, USA.

出版信息

MAGMA. 2018 Feb;31(1):87-99. doi: 10.1007/s10334-017-0666-4. Epub 2017 Dec 7.

DOI:10.1007/s10334-017-0666-4

PMID:29218487

Abstract

OBJECTIVES

A postprocessing technique termed 3D true-phase polarity recovery with independent phase estimation using three-tier stacks based region growing (3D-TRIPS) was developed, which directly reconstructs phase-sensitive inversion-recovery images without acquisition of phase-reference images. The utility of this technique is demonstrated in myocardial late gadolinium enhancement (LGE) imaging.

MATERIALS AND METHODS

A data structure with three tiers of stacks was used for 3D-TRIPS to directly achieve reliable region growing for successful background-phase estimation. Fifteen patients undergoing postgadolinium 3D phase-sensitive inversion recovery (PSIR) cardiac LGE magnetic resonance imaging (MRI) were recruited, and 3D-TRIPS LGE reconstructions were compared with standard PSIR. Objective voxel-by-voxel comparison was performed. Additionally, blinded review by two radiologists compared scar visibility, clinical acceptability, voxel polarity error, or groups and blurring.

RESULTS

3D-TRIPS efficiently reconstructed postcontrast phase-sensitive myocardial LGE images. Objective analysis showed an average 95% voxel-by-voxel agreement between 3D-TRIPS and PSIR images. Blinded radiologist review demonstrated similar image quality between 3D-TRIPS and PSIR reconstruction.

CONCLUSION

3D-TRIPS provided similar image quality to PSIR for phase-sensitive myocardial LGE MRI reconstruction. 3D-TRIPS does not require acquisition of a reference image and can therefore be used to accelerate phase-sensitive LGE imaging.

摘要

目的

开发了一种后处理技术，称为基于三层堆栈区域生长的独立相位估计三维真相位极性恢复（3D-TRIPS），该技术无需采集相位参考图像即可直接重建相位敏感反转恢复图像。该技术在心肌延迟钆增强（LGE）成像中的效用得到了验证。

材料与方法

采用具有三层堆栈的数据结构进行3D-TRIPS，以直接实现可靠的区域生长，从而成功进行背景相位估计。招募了15名接受钆增强三维相位敏感反转恢复（PSIR）心脏LGE磁共振成像（MRI）的患者，并将3D-TRIPS LGE重建结果与标准PSIR进行比较。进行了逐体素的客观比较。此外，两名放射科医生进行了盲法评估，比较了瘢痕可见性、临床可接受性、体素极性误差或分组以及模糊情况。

结果

3D-TRIPS有效地重建了对比剂后相位敏感心肌LGE图像。客观分析显示，3D-TRIPS与PSIR图像之间平均逐体素一致性为95%。放射科医生的盲法评估表明，3D-TRIPS与PSIR重建的图像质量相似。

结论

对于相位敏感心肌LGE MRI重建，3D-TRIPS提供了与PSIR相似的图像质量。3D-TRIPS不需要采集参考图像，因此可用于加速相位敏感LGE成像。

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基于三层堆栈区域生长的独立相位估计的3D真相位极性恢复（3D-TRIPS）。

3D true-phase polarity recovery with independent phase estimation using three-tier stacks based region growing (3D-TRIPS).

作者信息

机构信息

出版信息

OBJECTIVES

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料与方法

结果

结论

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