实时光学运动校正弥散张量成像。
Real-time optical motion correction for diffusion tensor imaging.
机构信息
Department of Radiology, Stanford University, Stanford, California 94305-5488, USA.
出版信息
Magn Reson Med. 2011 Aug;66(2):366-78. doi: 10.1002/mrm.22787. Epub 2011 Mar 22.
Abstract
Head motion is a fundamental problem in brain MRI. The problem is further compounded in diffusion tensor imaging because of long acquisition times, and the sensitivity of the tensor computation to even small misregistration. To combat motion artifacts in diffusion tensor imaging, a novel real-time prospective motion correction method was introduced using an in-bore monovision system. The system consists of a camera mounted on the head coil and a self-encoded checkerboard marker that is attached to the patient's forehead. Our experiments showed that optical prospective motion correction is more effective at removing motion artifacts compared to image-based retrospective motion correction. Statistical analysis revealed a significant improvement in similarity between diffusion data acquired at different time points when prospective correction was used compared to retrospective correction (P<0.001).
摘要
头部运动是脑 MRI 中的一个基本问题。由于采集时间长,以及张量计算对即使很小的配准误差都很敏感,因此在扩散张量成像中,这个问题更加复杂。为了克服扩散张量成像中的运动伪影,我们使用一种基于腔内单眼系统的新型实时前瞻性运动校正方法。该系统由安装在头线圈上的摄像头和贴在患者额头上的自编码棋盘标记组成。我们的实验表明,与基于图像的回溯运动校正相比,光学前瞻性运动校正更有效地去除运动伪影。统计分析显示,与回溯校正相比,使用前瞻性校正时,在不同时间点采集的扩散数据之间的相似性有显著提高(P<0.001)。
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