Herzka Daniel A, Guttman Michael A, McVeigh Elliot R
Department of Biomedical Engineering, Johns Hopkins University School of Medicine, Baltimore, Maryland, USA.
Magn Reson Med. 2003 Feb;49(2):329-40. doi: 10.1002/mrm.10361.
This work presents the first implementation of myocardial tagging with refocused steady-state free precession (SSFP) and magnetization preparation. The combination of myocardial tagging (a noninvasive method for quantitative measurement of regional and global cardiac function) with the high tissue signal-to-noise ratio (SNR) obtained with SSFP is shown to yield improvements in terms of the myocardium-tag contrast-to-noise ratio (CNR) and tag persistence when compared to the current standard fast gradient-echo (FGRE) tagging protocol. Myocardium-tag CNR and tag persistence were studied using numerical simulations as well as phantom and human experiments. Both quantities were found to decrease with increasing imaging flip angle (alpha) due to an increased tag decay rate and a decrease in myocardial steady-state signal. However, higher alpha yielded better blood-myocardium contrast, indicating that optimal alpha is dependent on the application: higher alpha for better blood-myocardium boundary visualization, and lower alpha for better tag persistence. SSFP tagging provided the same myocardium-tag CNR as FGRE tagging when acquired at four times the bandwidth and better tag- and blood-myocardium CNRs than FGRE tagging when acquired at equal or twice the receiver bandwidth (RBW). The increased acquisition efficiency of SSFP allowed decreases in breath-hold duration, or increases in temporal resolution, as compared to FGRE.
这项工作展示了采用重聚焦稳态自由进动(SSFP)和磁化准备进行心肌标记的首次实现。心肌标记(一种用于定量测量局部和整体心脏功能的非侵入性方法)与通过SSFP获得的高组织信噪比(SNR)相结合,与当前标准的快速梯度回波(FGRE)标记方案相比,在心肌标记对比噪声比(CNR)和标记持久性方面有显著提升。使用数值模拟以及体模和人体实验对心肌标记CNR和标记持久性进行了研究。由于标记衰减率增加和心肌稳态信号降低,这两个量均随成像翻转角(α)的增加而降低。然而,较高的α可产生更好的血液 - 心肌对比度,这表明最佳α取决于应用:较高的α用于更好地可视化血液 - 心肌边界,较低的α用于更好的标记持久性。当以四倍带宽采集时,SSFP标记提供与FGRE标记相同的心肌标记CNR,当以等于或两倍于接收带宽(RBW)采集时,其标记和血液 - 心肌CNR优于FGRE标记。与FGRE相比,SSFP提高的采集效率允许缩短屏气时间或提高时间分辨率。