[磁共振成像上的金属伪影及其减少方法]

[Metallic Artifacts on MR Imaging and Methods for Their Reduction].

作者信息

Choo Hye Jung, Lee Sun Joo, Lee Young Han

出版信息

Taehan Yongsang Uihakhoe Chi. 2020 Jan;81(1):41-57. doi: 10.3348/jksr.2020.81.1.41. Epub 2020 Jan 31.

DOI:10.3348/jksr.2020.81.1.41

PMID:36238112

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9432103/

Abstract

Metallic artifacts on MR imaging are typically induced by differences in magnetic susceptibility between the metallic implant and surrounding tissue. Conventional techniques for metal artifact reduction require MR machines with low field strength, shift in the frequency-encoding and phase-encoding directions according to the axis of metallic implant, increased receiver bandwidth and matrix, decreased slice thickness, and utilization of the short tau inversion recovery or Dixon method for fat-suppression. Slice-encoding for metal artifact correction and multi-acquisition variable-resonance image combination can dramatically reduce the number of metallic artifacts. However, these sequences have a considerably long acquisition time. Furthermore, the recently developed acceleration techniques including compressed sensing can solve this problem.

摘要

磁共振成像中的金属伪影通常是由金属植入物与周围组织之间的磁化率差异引起的。传统的减少金属伪影的技术需要低场强的磁共振机器，根据金属植入物的轴在频率编码和相位编码方向上进行偏移，增加接收带宽和矩阵，减小层厚，并使用短反转时间反转恢复序列或狄克逊方法进行脂肪抑制。用于金属伪影校正的切片编码和多采集可变共振图像组合可以显著减少金属伪影的数量。然而，这些序列的采集时间相当长。此外，最近开发的包括压缩感知在内的加速技术可以解决这个问题。

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[磁共振成像上的金属伪影及其减少方法]

[Metallic Artifacts on MR Imaging and Methods for Their Reduction].

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