用于增强滑动界面磁共振可视化的循环运动编码

Cyclic motion encoding for enhanced MR visualization of slip interfaces.

作者信息

Mariappan Yogesh K, Glaser Kevin J, Manduca Armando, Ehman Richard L

机构信息

Department of Radiology, Mayo Clinic, Rochester, Minnesota 55905, USA.

出版信息

J Magn Reson Imaging. 2009 Oct;30(4):855-63. doi: 10.1002/jmri.21914.

DOI:10.1002/jmri.21914

PMID:19787735

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2860602/

Abstract

PURPOSE

To develop and test a magnetic resonance imaging-based method for assessing the mechanical shear connectivity across tissue interfaces with phantom experiments and in vivo feasibility studies.

MATERIALS AND METHODS

External vibrations were applied to phantoms and tissue and the differential motion on either side of interfaces within the media was mapped onto the phase of the MR images using cyclic motion encoding gradients. The phase variations within the voxels of functional slip interfaces reduced the net magnitude signal in those regions, thus enhancing their visualization. A simple two-compartment model was developed to relate this signal loss to the intravoxel phase variations. In vivo studies of the abdomen and forearm were performed to visualize slip interfaces in healthy volunteers.

RESULTS

The phantom experiments demonstrated that the proposed technique can assess the functionality of shear slip interfaces and they provided experimental validation for the theoretical model developed. Studies of the abdomen showed that the slip interface between the small bowel and the peritoneal wall can be visualized. In the forearm, this technique was able to depict the slip interfaces between the functional compartments of the extrinsic forearm muscles.

CONCLUSION

Functional shear slip interfaces can be visualized sensitively using cyclic motion encoding of externally applied tissue vibrations.

摘要

目的

通过体模实验和体内可行性研究，开发并测试一种基于磁共振成像的方法，用于评估跨组织界面的机械剪切连通性。

材料与方法

对体模和组织施加外部振动，并使用循环运动编码梯度将介质内界面两侧的差异运动映射到磁共振图像的相位上。功能滑动界面体素内的相位变化降低了这些区域的净幅度信号，从而增强了它们的可视化效果。开发了一个简单的双室模型，将这种信号损失与体素内相位变化联系起来。对腹部和前臂进行了体内研究，以观察健康志愿者体内的滑动界面。

结果

体模实验表明，所提出的技术能够评估剪切滑动界面的功能，并为所开发的理论模型提供了实验验证。腹部研究表明，小肠与腹膜壁之间的滑动界面可以被观察到。在前臂，该技术能够描绘前臂外在肌肉功能区之间的滑动界面。

结论

通过对外部施加的组织振动进行循环运动编码，可以灵敏地观察到功能剪切滑动界面。

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