CEST-EPI 测量对重复时间、RF 辐射占空比和成像翻转角的依赖性评估,以提高 pH 灵敏度。
Evaluation of the dependence of CEST-EPI measurement on repetition time, RF irradiation duty cycle and imaging flip angle for enhanced pH sensitivity.
机构信息
Athinoula A Martinos Center for Biomedical Imaging, Department of Radiology, Massachusetts General Hospital and Harvard Medical School, Charlestown, MA, USA.
出版信息
Phys Med Biol. 2013 Sep 7;58(17):N229-40. doi: 10.1088/0031-9155/58/17/N229. Epub 2013 Aug 13.
Abstract
Chemical exchange saturation transfer (CEST) is a magnetic resonance imaging (MRI) contrast mechanism that can detect dilute CEST agents and microenvironmental properties, with a host of promising applications. Experimental measurement of the CEST effect is complex, and depends on not only CEST agent concentration and exchange rate, but also experimental parameters such as RF irradiation amplitude and scheme. Although echo planar imaging (EPI) has been increasingly used for CEST MRI, the relationship between CEST effect and repetition time (TR), RF irradiation duty cycle (DC) and EPI flip angle (α) has not been fully evaluated and optimized to enhance CEST MRI sensitivity. In addition, our study evaluated gradient echo CEST-EPI by quantifying the CEST effect and its signal-to-noise ratio per unit time (SNRput) as functions of TR, DC and α. We found that CEST effect increased with TR and DC but decreased with α. Importantly, we found that SNRput peaked at intermediate TRs of about twice the T1 and α, at approximately 75°, and increased with RF DC. The simulation results were validated using a dual-pH creatine-gel CEST phantom. In summary, our study provides a useful framework for optimizing CEST MRI experiments.
摘要
化学交换饱和传递(CEST)是一种磁共振成像(MRI)对比机制,可检测稀有的 CEST 试剂和微环境特性,具有许多有前途的应用。CEST 效应的实验测量非常复杂,不仅取决于 CEST 试剂的浓度和交换率,还取决于 RF 辐照幅度和方案等实验参数。尽管回波平面成像(EPI)已越来越多地用于 CEST MRI,但尚未充分评估和优化 CEST 效应与重复时间(TR)、RF 辐照占空比(DC)和 EPI 翻转角(α)之间的关系,以提高 CEST MRI 灵敏度。此外,我们的研究通过量化 CEST 效应及其单位时间的信噪比(SNRput)作为 TR、DC 和 α 的函数,评估了梯度回波 CEST-EPI。我们发现 CEST 效应随 TR 和 DC 的增加而增加,但随 α 的增加而减小。重要的是,我们发现 SNRput 在大约两倍 T1 和 α(约 75°)的中间 TR 以及在 RF DC 增加时达到峰值。使用双 pH 肌酸凝胶 CEST 仿体验证了模拟结果。总之,我们的研究为优化 CEST MRI 实验提供了一个有用的框架。
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