Matthaei D, Haase A, Henrich D, Dühmke E
Klinik fur Strahlentherapie, Gottingen, Federal Republic of Germany.
Radiology. 1990 Nov;177(2):527-32. doi: 10.1148/radiology.177.2.2217796.
Real-time vascular and cardiac magnetic resonance (MR) imaging has been reported only with echo-planar imaging. In this study, the fast low-angle shot (FLASH) MR imaging sequence was reduced to repetition times of 3 msec and echo times of less than 1.3 msec with use of an improved MR imaging system. The resulting 200-msec MR images (64 X 128 pixels) are called snapshot FLASH images. They allow measurements from dynamic series of MR images depicting processes such as relaxation behavior and the cardiac cycle in the absence of motion and flow artifacts. In animal studies (at 4.7 T) and in studies of human volunteers (at 2.0 T), vascular and cardiac snapshot FLASH images were obtained as a single shot, as reconstructed motion, and as real-time movies. The arbitrary and fast T1 contrast of these images and the reduction of motion artifacts result in favorable applications for the depiction of myocardial and great-vessel anatomy. These clinical applications can be performed on conventional MR imagers with minor technical modifications.
实时血管和心脏磁共振(MR)成像仅通过回波平面成像进行过报道。在本研究中,使用改进的MR成像系统将快速低角度激发(FLASH)MR成像序列的重复时间缩短至3毫秒,回波时间缩短至小于1.3毫秒。由此产生的200毫秒MR图像(64×128像素)被称为快照FLASH图像。它们允许在没有运动和流动伪影的情况下,从描绘诸如弛豫行为和心动周期等过程的动态MR图像系列中进行测量。在动物研究(4.7T)和人类志愿者研究(2.0T)中,血管和心脏快照FLASH图像以单次激发、重建运动和实时电影的形式获得。这些图像任意且快速的T1对比度以及运动伪影的减少,使得它们在心肌和大血管解剖结构的描绘方面具有良好的应用前景。这些临床应用可以在传统MR成像仪上进行,只需进行少量技术修改。
