在切片编码中使用切片重叠减少金属伪影校正中的波纹伪影

Ripple artifact reduction using slice overlap in slice encoding for metal artifact correction.

作者信息

den Harder J Chiel, van Yperen Gert H, Blume Ulrike A, Bos Clemens

机构信息

Medical Physics Department, Reinier de Graaf Groep, Delft, the Netherlands.

MRI Technology Development Department, Philips Healthcare, Best, the Netherlands.

出版信息

Magn Reson Med. 2015 Jan;73(1):318-24. doi: 10.1002/mrm.25127. Epub 2014 Jan 31.

DOI:10.1002/mrm.25127

PMID:24488701

Abstract

PURPOSE

Multispectral imaging (MSI) significantly reduces metal artifacts. Yet, especially in techniques that use gradient selection, such as slice encoding for metal artifact correction (SEMAC), a residual ripple artifact may be prominent. Here, an analysis is presented of the ripple artifact and of slice overlap as an approach to reduce the artifact.

METHODS

The ripple artifact was analyzed theoretically to clarify its cause. Slice overlap, conceptually similar to spectral bin overlap in multi-acquisition with variable resonances image combination (MAVRIC), was achieved by reducing the selection gradient and, thus, increasing the slice profile width. Time domain simulations and phantom experiments were performed to validate the analyses and proposed solution.

RESULTS

Discontinuities between slices are aggravated by signal displacement in the frequency encoding direction in areas with deviating B0. Specifically, it was demonstrated that ripple artifacts appear only where B0 varies both in-plane and through-plane. Simulations and phantom studies of metal implants confirmed the efficacy of slice overlap to reduce the artifact.

CONCLUSION

The ripple artifact is an important limitation of gradient selection based MSI techniques, and can be understood using the presented simulations. At a scan-time penalty, slice overlap effectively addressed the artifact, thereby improving image quality near metal implants.

摘要

目的

多光谱成像（MSI）可显著减少金属伪影。然而，特别是在使用梯度选择的技术中，如用于金属伪影校正的切片编码（SEMAC），残留的波纹伪影可能会很突出。本文对波纹伪影以及作为减少伪影方法的切片重叠进行了分析。

方法

从理论上分析波纹伪影以阐明其成因。切片重叠在概念上类似于多采集可变共振图像组合（MAVRIC）中的频谱 bin 重叠，通过减小选择梯度从而增加切片轮廓宽度来实现。进行了时域模拟和体模实验以验证分析结果和所提出的解决方案。

结果

在B0有偏差的区域，频率编码方向上的信号位移会加剧切片之间的不连续性。具体而言，已证明波纹伪影仅出现在B0在平面内和平面间都变化的地方。金属植入物的模拟和体模研究证实了切片重叠减少伪影的有效性。

结论

波纹伪影是基于梯度选择的MSI技术的一个重要限制，使用本文所呈现的模拟可以理解这一点。以扫描时间增加为代价，切片重叠有效地解决了伪影问题，从而改善了金属植入物附近的图像质量。

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在切片编码中使用切片重叠减少金属伪影校正中的波纹伪影

Ripple artifact reduction using slice overlap in slice encoding for metal artifact correction.

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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