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表征金属假体附近磁共振成像(MRI)的局限性。

Characterizing the limits of MRI near metallic prostheses.

作者信息

Smith Matthew R, Artz Nathan S, Wiens Curtis, Hernando Diego, Reeder Scott B

机构信息

Department of Radiology, University of Wisconsin, Madison, Wisconsin, USA.

Department of Medical Physics, University of Wisconsin, Madison, Wisconsin, USA.

出版信息

Magn Reson Med. 2015 Dec;74(6):1564-73. doi: 10.1002/mrm.25540. Epub 2014 Dec 5.

DOI:10.1002/mrm.25540
PMID:25483410
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4457712/
Abstract

PURPOSE

To characterize the fundamental limits of MRI near metallic implants on RF excitation, frequency encoding, and chemical shift-encoding water-fat separation.

METHODS

Multicomponent three-dimensional (3D) digital models of a total hip and a total knee replacement were used to construct material-specific susceptibility maps. The fundamental limits and spatial relationship of imaging near metallic prostheses were investigated as a function of distance from the prosthetic surface by calculating 3D field map perturbations using a well-validated k-space based dipole kernel.

RESULTS

Regions limited by the bandwidth of RF excitation overlap substantially with those fundamentally limited by frequency encoding. Rapid breakdown of water-fat separation occurs once the intravoxel off-resonance exceeds ∼6 ppm over a full range of fat fractions (0%-100%) and SNR (5-100).

CONCLUSION

Current 3D multispectral imaging methods would not benefit greatly from exciting spins beyond ±12 kHz despite the presence of signal that lies outside of this range from tissue directly adjacent to the metallic implants. Methods such as phase encoding in all three spatial dimensions are necessary to spatially resolve spins beyond an excitation bandwidth of ±12 kHz. The approach described in this study provides a benchmark for the capabilities of current imaging techniques to guide development of new MRI methods for imaging near metal.

摘要

目的

描述在金属植入物附近进行磁共振成像(MRI)时,射频激励、频率编码以及化学位移编码水脂分离的基本限制。

方法

使用全髋关节和全膝关节置换的多组分三维(3D)数字模型构建特定材料的磁化率图。通过使用经过充分验证的基于k空间的偶极子内核计算3D场图扰动,研究了金属假体附近成像的基本限制和空间关系,该关系是距假体表面距离的函数。

结果

受射频激励带宽限制的区域与受频率编码基本限制的区域有很大重叠。一旦体素内失谐在整个脂肪分数范围(0%-100%)和信噪比范围(5-100)内超过约6 ppm水脂分离就会迅速失效。

结论

当前的3D多光谱成像方法,即便存在来自紧邻金属植入物组织的超出此范围的信号,也不会因激励超出±12 kHz的自旋而大幅受益。在所有三个空间维度进行相位编码等方法对于在超出±12 kHz的激励带宽外空间分辨自旋是必要的。本研究中描述的方法为当前成像技术的能力提供了一个基准,以指导用于金属附近成像的新MRI方法的开发。

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