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使用3D动态相位循环径向bSSFP(3D DYPR-SSFP)的快速各向同性无带状伪影bSSFP成像。

Fast isotropic banding-free bSSFP imaging using 3D dynamically phase-cycled radial bSSFP (3D DYPR-SSFP).

作者信息

Benkert Thomas, Ehses Philipp, Blaimer Martin, Jakob Peter M, Breuer Felix A

机构信息

Research Center Magnetic Resonance Bavaria (MRB), Würzburg, Germany.

Department of Neuroimaging, University of Tübingen, Tübingen, Germany; High-Field MR Center, Max Planck Institute for Biological Cybernetics, Tübingen, Germany.

出版信息

Z Med Phys. 2016 Mar;26(1):63-74. doi: 10.1016/j.zemedi.2015.05.001. Epub 2015 Jun 26.

DOI:10.1016/j.zemedi.2015.05.001
PMID:26119862
Abstract

AIMS

Dynamically phase-cycled radial balanced steady-state free precession (DYPR-SSFP) is a method for efficient banding artifact removal in bSSFP imaging. Based on a varying radiofrequency (RF) phase-increment in combination with a radial trajectory, DYPR-SSFP allows obtaining a banding-free image out of a single acquired k-space. The purpose of this work is to present an extension of this technique, enabling fast three-dimensional isotropic banding-free bSSFP imaging.

METHODS

While banding artifact removal with DYPR-SSFP relies on the applied dynamic phase-cycle, this aspect can lead to artifacts, at least when the number of acquired projections lies below a certain limit. However, by using a 3D radial trajectory with quasi-random view ordering for image acquisition, this problem is intrinsically solved, enabling 3D DYPR-SSFP imaging at or even below the Nyquist criterion. The approach is validated for brain and knee imaging at 3 Tesla.

RESULTS

Volumetric, banding-free images were obtained in clinically acceptable scan times with an isotropic resolution up to 0.56mm.

CONCLUSION

The combination of DYPR-SSFP with a 3D radial trajectory allows banding-free isotropic volumetric bSSFP imaging with no expense of scan time. Therefore, this is a promising candidate for clinical applications such as imaging of cranial nerves or articular cartilage.

摘要

目的

动态相位循环径向平衡稳态自由进动(DYPR - SSFP)是一种在bSSFP成像中有效去除带状伪影的方法。基于与径向轨迹相结合的变化射频(RF)相位增量,DYPR - SSFP允许从单个采集的k空间中获得无带状伪影的图像。本研究的目的是展示该技术的扩展,实现快速三维各向同性无带状伪影的bSSFP成像。

方法

虽然使用DYPR - SSFP去除带状伪影依赖于所应用的动态相位循环,但这一方面可能会导致伪影,至少在采集投影数量低于一定限度时如此。然而,通过使用具有准随机视图排序的三维径向轨迹进行图像采集,这个问题从本质上得到了解决,从而能够在奈奎斯特准则或甚至低于该准则的情况下进行三维DYPR - SSFP成像。该方法在3特斯拉下对脑部和膝盖成像进行了验证。

结果

在临床可接受的扫描时间内获得了各向同性分辨率高达0.56毫米的无带状伪影的容积图像。

结论

DYPR - SSFP与三维径向轨迹的结合允许进行无带状伪影的各向同性容积bSSFP成像,而不会增加扫描时间。因此,这是颅神经或关节软骨成像等临床应用的一个有前景的候选方法。

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