迈向消除首次通过心肌灌注磁共振成像中的暗边伪影：利用优化的径向成像消除吉布斯振铃效应

Towards elimination of the dark-rim artifact in first-pass myocardial perfusion MRI: removing Gibbs ringing effects using optimized radial imaging.

作者信息

Sharif Behzad, Dharmakumar Rohan, LaBounty Troy, Arsanjani Reza, Shufelt Chrisandra, Thomson Louise, Merz C Noel Bairey, Berman Daniel S, Li Debiao

机构信息

Biomedical Imaging Research Institute, Cedars-Sinai Medical Center, Los Angeles, California, USA; Department of Biomedical Sciences, Cedars-Sinai Medical Center, Los Angeles, California, USA.

出版信息

Magn Reson Med. 2014 Jul;72(1):124-36. doi: 10.1002/mrm.24913. Epub 2013 Sep 12.

DOI:10.1002/mrm.24913

PMID:24030840

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4176898/

Abstract

PURPOSE

Subendocardial dark-rim artifacts (DRAs) remain a major concern in first-pass perfusion (FPP) myocardial MRI and may lower the diagnostic accuracy for detection of ischemia. A major source of DRAs is the "Gibbs ringing" effect. We propose an optimized radial acquisition strategy aimed at eliminating ringing-induced DRAs in FPP.

THEORY AND METHODS

By studying the underlying point spread function (PSF), we show that optimized radial sampling with a simple reconstruction method can eliminate the oscillations in the PSF that cause ringing artifacts. We conducted realistic MRI phantom experiments and in vivo studies (n = 12 healthy humans) to evaluate the artifact behavior of the proposed imaging scheme in comparison to a conventional Cartesian imaging protocol.

RESULTS

Simulations and phantom experiments verified our theoretical expectations. The in vivo studies showed that optimized radial imaging is capable of significantly reducing DRAs in the early myocardial enhancement phase (during which the ringing effect is most prominent and may obscure perfusion defects) while providing similar resolution and image quality compared with conventional Cartesian imaging.

CONCLUSION

The developed technical framework and results demonstrate that, in comparison to conventional Cartesian techniques, optimized radial imaging with the proposed optimizations significantly reduces the prevalence and spatial extent of DRAs in FPP imaging.

摘要

目的

心内膜下暗边伪影（DRA）仍是首次通过灌注（FPP）心肌磁共振成像（MRI）中的一个主要问题，可能会降低检测心肌缺血的诊断准确性。DRA的一个主要来源是“吉布斯振铃”效应。我们提出了一种优化的径向采集策略，旨在消除FPP中由振铃引起的DRA。

理论与方法

通过研究潜在的点扩散函数（PSF），我们表明采用简单重建方法的优化径向采样可以消除PSF中导致振铃伪影的振荡。我们进行了逼真的MRI体模实验和体内研究（n = 12名健康人），以评估所提出的成像方案与传统笛卡尔成像协议相比的伪影表现。

结果

模拟和体模实验验证了我们的理论预期。体内研究表明，优化的径向成像能够在心肌早期强化阶段（在此期间振铃效应最为突出，可能掩盖灌注缺损）显著减少DRA，同时与传统笛卡尔成像相比提供相似的分辨率和图像质量。

结论

所开发的技术框架和结果表明，与传统笛卡尔技术相比，采用所提出优化方法的优化径向成像在FPP成像中显著降低了DRA的发生率和空间范围。

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