Dzyubak Bogdan, Glaser Kevin J, Manduca Armando, Ehman Richard L
Department of Radiology, Mayo Clinic, Rochester, MN.
Proc SPIE Int Soc Opt Eng. 2017 Mar;10134. doi: 10.1117/12.2254476.
Magnetic Resonance Elastography (MRE) is a phase-contrast MRI technique which calculates quantitative stiffness images, called elastograms, by imaging the propagation of acoustic waves in tissues. It is used clinically to diagnose liver fibrosis. Automated analysis of MRE is difficult as the corresponding MRI magnitude images (which contain anatomical information) are affected by intensity inhomogeneity, motion artifact, and poor tissue- and edge-contrast. Additionally, areas with low wave amplitude must be excluded. An automated algorithm has already been successfully developed and validated for clinical 2D MRE. 3D MRE acquires substantially more data and, due to accelerated acquisition, has exacerbated image artifacts. Also, the current 3D MRE processing does not yield a confidence map to indicate MRE wave quality and guide ROI selection, as is the case in 2D. In this study, extension of the 2D automated method, with a simple wave-amplitude metric, was developed and validated against an expert reader in a set of 57 patient exams with both 2D and 3D MRE. The stiffness discrepancy with the expert for 3D MRE was -0.8% ± 9.45% and was better than discrepancy with the same reader for 2D MRE (-3.2% ± 10.43%), and better than the inter-reader discrepancy observed in previous studies. There were no automated processing failures in this dataset. Thus, the automated liver elasticity calculation (ALEC) algorithm is able to calculate stiffness from 3D MRE data with minimal bias and good precision, while enabling stiffness measurements to be fully reproducible and to be easily performed on the large 3D MRE datasets.
磁共振弹性成像(MRE)是一种相位对比MRI技术,通过对声波在组织中的传播进行成像来计算定量的硬度图像,即弹性图。它在临床上用于诊断肝纤维化。MRE的自动分析很困难,因为相应的MRI幅度图像(包含解剖学信息)会受到强度不均匀性、运动伪影以及较差的组织和边缘对比度的影响。此外,必须排除波幅较低的区域。一种自动算法已经成功开发并在临床二维MRE中得到验证。三维MRE获取的数据要多得多,并且由于加速采集,图像伪影更加严重。而且,当前的三维MRE处理不会像二维那样生成一个置信图来指示MRE波的质量并指导感兴趣区域(ROI)的选择。在本研究中,开发了一种二维自动方法的扩展方法,该方法使用一个简单的波幅度量,并在一组57例同时进行二维和三维MRE检查的患者中与专家读者进行了验证。三维MRE与专家之间的硬度差异为-0.8%±9.45%,优于二维MRE与同一位读者之间的差异(-3.2%±10.43%),也优于先前研究中观察到的读者间差异。该数据集中没有自动处理失败的情况。因此,自动肝脏弹性计算(ALEC)算法能够以最小的偏差和良好的精度从三维MRE数据中计算硬度,同时使硬度测量能够完全重现,并且能够在大型三维MRE数据集中轻松进行。
