Zhang Ning, Magland Jeremy F, Song Hee Kwon, Wehrli Felix W
Laboratory for Structural NMR Imaging, Department of Radiology, University of Pennsylvania Medical Center, Philadelphia, Pennsylvania, USA.
J Magn Reson Imaging. 2015 Apr;41(4):954-63. doi: 10.1002/jmri.24646. Epub 2014 May 7.
To develop a registration-based autofocusing (RAF) motion correction technique for high-resolution trabecular bone (TB) imaging and to evaluate its performance on in vivo MR data.
The technique combines serial registration with a previously developed motion correction technique - autofocusing - for automatic correction of subject movement degradation of MR images acquired in longitudinal studies. The method was tested on in vivo images of the distal radius to measure improvements in serial reproducibility of parameters in 12 women (ages 50-75 years), and to compare with the navigator echo-based correction and autofocusing. Furthermore, the technique's ability to optimize the sensitivity to detect simulated bone loss was ascertained.
The new technique yielded superior reproducibility of image-derived structural and mechanical parameters. Average coefficient of variation across all parameters improved by 12.5%, 27.0%, 33.5%, and 37.0%, respectively, following correction by navigator echoes, autofocusing, and the RAF technique (without and with correction for rotational motion); average intra-class correlation coefficient increased by 1.2%, 2.2%, 2.8%, and 3.2%, respectively. Furthermore, simulated bone loss (5%) was well recovered independent of the choice of reference image (4.71% or 4.86% with respect to using either the original or the image subjected to bone loss) in the time series.
The data suggest that our technique simultaneously corrects for intra-scan motion corruption while improving inter-scan registration. Furthermore, the technique is not biased by small changes in bone architecture between time-points.
开发一种基于配准的自动聚焦(RAF)运动校正技术,用于高分辨率小梁骨(TB)成像,并评估其在体内磁共振(MR)数据上的性能。
该技术将序列配准与先前开发的运动校正技术——自动聚焦相结合,以自动校正纵向研究中获取的MR图像因受试者运动而导致的图像质量下降。该方法在桡骨远端的体内图像上进行测试,以测量12名女性(年龄50 - 75岁)参数的序列再现性的改善情况,并与基于导航回波的校正和自动聚焦进行比较。此外,还确定了该技术优化检测模拟骨质流失敏感性的能力。
新技术在图像衍生的结构和力学参数方面产生了卓越的再现性。在通过导航回波、自动聚焦以及RAF技术(不进行和进行旋转运动校正)校正后,所有参数的平均变异系数分别提高了12.5%、27.0%、33.5%和37.0%;平均组内相关系数分别提高了1.2%、2.2%、2.8%和3.2%。此外,在时间序列中,无论选择何种参考图像(相对于使用原始图像或骨质流失后的图像,分别为4.71%或4.86%),模拟骨质流失(5%)均能得到良好恢复。
数据表明,我们的技术在改善扫描间配准的同时,能同步校正扫描内运动伪影。此外,该技术不受时间点之间骨结构微小变化的影响。
