Title :
A 3D model of magnetohydrodynamic voltages: Comparison with voltages observed on the surface ECG during cardiac MRI
Author :
Nijm, GM ; Swiryn, S. ; Larson, AC ; Sahakian, AV
Author_Institution :
Northwestern Univ., Evanston, IL
fDate :
Sept. 30 2007-Oct. 3 2007
Abstract :
The magnetohydrodynamic (MHD) effect generates voltages which distort the ECG obtained during cardiac MRI. Consequently, MHD voltages result in triggering problems for MR image acquisition. In addition, since the MHD effect is related to blood flow, analysis of it not only as interference, but also as a signal may provide useful blood flow information. Comsol Multiphysics modeling software was used to compute and model the MHD voltages in 3D. These voltages were compared with MHD voltages obtained experimentally from the subtraction of ECGs taken outside the MRI magnet from ECGs taken inside the magnet. The maximum MHD voltage magnitude for the experimental data was 0.2 mV and was 3.04 mV for the modeled data when calculated on the surface of the uniform volume conductor. By modeling MHD voltages in 3D, we can learn about their effect on the ECG during cardiac MRI.
Keywords :
bioelectric phenomena; biomedical MRI; cardiovascular system; computational fluid dynamics; electrocardiography; haemodynamics; magnetohydrodynamics; medical computing; neurophysiology; physiological models; 3D model; Comsol Multiphysics modeling software; MHD effect; MR image acquisition; blood flow information; cardiac MRI; magnetohydrodynamic effect; surface ECG; triggering problems; uniform volume conductor surface; voltage 0.2 mV; voltage 3.04 mV; voltage generation; Blood flow; Conductors; Electrocardiography; Information analysis; Interference; Magnetic analysis; Magnetic resonance imaging; Magnetohydrodynamic power generation; Signal analysis; Voltage;
Conference_Titel :
Computers in Cardiology, 2007
Conference_Location :
Durham, NC
Print_ISBN :
978-1-4244-2533-4
Electronic_ISBN :
0276-6547
DOI :
10.1109/CIC.2007.4745417
