Department of Internal Medicine II, Ulm University Medical Center, Ulm, Germany.
Core Facility Small Animal Imaging (CF-SANI), Ulm University, Ulm, Germany.
Z Med Phys. 2020 Aug;30(3):236-244. doi: 10.1016/j.zemedi.2020.01.001. Epub 2020 Feb 14.
Current functional cardiovascular imaging protocols mostly rely on electrocardiogram (ECG) gating and breathholding. The resulting image quality can substantially suffer from insufficient patient cooperation or severe arrhythmia. Real-time imaging can mitigate these effects but requires highly accelerated techniques, usually relying on non-cartesian trajectories and Compressed Sensing (CS).
We investigate a sliding window reduced field of view (FOV) Echo Planar Imaging (EPI) technique for real-time cardiac MRI. Segmented EPI has been combined with a subtraction technique for reducing the FOV in cardiac applications to the region of the beating heart. Residual respiratory motion, potentially impairing the image quality, has been addressed by continuous update of the static image fraction, which is derived from a low-temporal resolution sliding window reconstruction. For further acceleration, the proposed technique was combined with parallel imaging.
The sliding window reduced FOV technique was proven feasible to reconstruct images of diagnostic image quality at a temporal resolution of 36.5ms per image. Semi-quantitative evaluation of image quality showed significant improvement over the existing rFOV method (p=0.039). Derived functional parameters show comparable results as with the BH-CINE reference. However, a trend to a slight underestimation of the largest and smallest in-plane volumes is observed.
The proposed technique is feasible of providing real-time cardiac MRI with a temporal resolution better than 40ms without the need of computably complex reconstruction techniques.
当前的功能心血管成像方案主要依赖心电图(ECG)门控和屏气。由于患者配合不佳或严重心律失常,会导致图像质量大幅下降。实时成像可以减轻这些影响,但需要高度加速的技术,通常依赖于非笛卡尔轨迹和压缩感知(CS)。
我们研究了一种用于实时心脏 MRI 的滑动窗口减小视野(FOV)的回波平面成像(EPI)技术。分段 EPI 与一种减法技术相结合,可将心脏应用中的 FOV 减少到跳动心脏的区域。通过连续更新静态图像部分来解决潜在影响图像质量的残余呼吸运动,该部分源自低时间分辨率滑动窗口重建。为了进一步加速,该技术与并行成像相结合。
证明滑动窗口减小 FOV 技术可用于以 36.5ms 的时间分辨率重建诊断质量的图像。图像质量的半定量评估显示,与现有的 rFOV 方法相比有显著改善(p=0.039)。衍生的功能参数与 BH-CINE 参考具有可比的结果。然而,观察到最大和最小平面体积的轻微低估趋势。
所提出的技术能够在不需要计算复杂的重建技术的情况下,以优于 40ms 的时间分辨率提供实时心脏 MRI。
