Title :
Experimental and simulated human body surface potentials from applied transthoracic currents
Author :
Dabasinskas, Andrew J. ; Eason, James C. ; Schmidt, John A.
Author_Institution :
Dept. of Biomed. Eng., Duke Univ., Durham, NC, USA
Abstract :
Measured body surface potentials resulting from applied transthoracic currents were compared to simulated potentials from a 3-D computer model of the human thorax. Magnetic resonance images of the subject provided the detailed geometry for the computer model. Twenty-eight configurations of applied current were analyzed. The mean percent RMS error was 19.09±6.60% and the mean correlation coefficient was 0.982±0.014. Further improvement may be attained through grid refinement, including more detail in the model, or altering the conductivities within the physiological range. The experimental measurements provided a direct means to establish the validity of the human computer model when applying transthoracic currents to the human, such as in pacing and defibrillation applications
Keywords :
bioelectric potentials; biomedical NMR; cardiology; defibrillators; pacemakers; patient treatment; physiological models; 3-D computer model; applied transthoracic currents; computer model; conductivities; defibrillation; geometry; grid refinement; human body surface potentials; human thorax; magnetic resonance images; mean correlation coefficient; mean percent RMS error; pacing; physiological range; Biological system modeling; Computational geometry; Computational modeling; Computer simulation; Current measurement; Humans; Magnetic analysis; Magnetic resonance; Solid modeling; Thorax;
Conference_Titel :
Engineering in Medicine and Biology Society, 1995., IEEE 17th Annual Conference
Conference_Location :
Montreal, Que.
Print_ISBN :
0-7803-2475-7
DOI :
10.1109/IEMBS.1995.575131
