Nguyen Thanh D, Nuval Anthony, Mulukutla Suresh, Wang Yi
MR Research Center, Department of Radiology, University of Pittsburgh Medical Center, Pittsburgh, Pennsylvania 15213, USA.
Magn Reson Med. 2003 Aug;50(2):235-41. doi: 10.1002/mrm.10550.
Navigator echoes (NAVs) provide an effective means of monitoring physiological motion in magnetic resonance imaging (MRI). Motion artifacts can be suppressed by adjusting the data acquisition accordingly. The standard pencil-beam NAV has been used to detect diaphragm motion; however, it does not monitor cardiac motion effectively. Here we report a navigator approach that directly measures coronary artery motion by exciting the surrounding epicardial fat and sampling the signal with a k-space trajectory sensitized to various motion parameters. The present preliminary human study demonstrates that superior-inferior (SI) respiratory motion of the coronary arteries detected by the cardiac fat NAV highly correlates with SI diaphragmatic motion detected by the pencil-beam NAV. In addition, the cardiac fat navigator gating is slightly more effective than the diaphragmatic navigator gating in suppressing motion artifacts in free-breathing 3D coronary MR angiography (MRA).
导航回波(NAVs)为磁共振成像(MRI)中监测生理运动提供了一种有效手段。通过相应地调整数据采集可以抑制运动伪影。标准铅笔束导航回波已被用于检测膈肌运动;然而,它不能有效地监测心脏运动。在此,我们报告一种导航方法,该方法通过激发周围的心外膜脂肪并利用对各种运动参数敏感的k空间轨迹对信号进行采样来直接测量冠状动脉运动。目前的初步人体研究表明,心脏脂肪导航回波检测到的冠状动脉上下(SI)呼吸运动与铅笔束导航回波检测到的SI膈肌运动高度相关。此外,在自由呼吸三维冠状动脉磁共振血管造影(MRA)中,心脏脂肪导航门控在抑制运动伪影方面比膈肌导航门控略有效。