MRI 环境中准确心电图的磁场阈值。
Magnetic field threshold for accurate electrocardiography in the MRI environment.
机构信息
Department of Biomedical Engineering, The Ohio State University, Columbus, Ohio, USA.
出版信息
Magn Reson Med. 2010 Dec;64(6):1586-91. doi: 10.1002/mrm.22419.
Abstract
Although the electrocardiogram is known to be nondiagnostic within the bore of any high-field magnet due to the magnetohydrodynamic effect, there are an increasing number of applications that require accurate electrocardiogram monitoring of a patient inside the MRI room but outside of the magnet bore. Magnetohydrodynamic effects on the ST segment of the electrocardiogram waveform were investigated in six subjects at magnetic field strengths ranging from 6.4 mT to 652 mT at the aortic midarch, and the electrocardiogram was found to be accurate at magnetic fields below 70 mT. This corresponds to a distance of 160 cm from the isocenter and 80 cm from the bore entrance for the 1.5-T MRI system used in this study. These results can be translated to any MRI system, with knowledge of the fringe field. Accurate electrocardiogram monitoring is feasible in close proximity to the MRI magnet, such as during and after pharmacologic or exercise stress, or interventional or surgical procedures performed in the MRI room.
摘要
尽管由于磁流体动力学效应,在任何高场强磁体的腔内,心电图都无法进行诊断,但越来越多的应用需要在 MRI 室内、磁体腔内对患者进行准确的心电图监测。本研究在 6 名受试者中调查了磁场强度在 6.4 mT 至 652 mT 范围内时,心电图波形 ST 段的磁流体动力学效应,结果发现磁场低于 70 mT 时心电图是准确的。这对应于本研究中使用的 1.5-T MRI 系统,距等中心点 160 cm,距磁体入口 80 cm。这些结果可以转化为任何具有边缘场知识的 MRI 系统。在靠近 MRI 磁体的地方,如在药物或运动应激期间或之后,或在 MRI 室内进行介入或手术操作时,进行准确的心电图监测是可行的。
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