Title :
Non-invasive determination of the activation sequence of the heart: validation with invasive data
Author :
Oostendorp, Thom ; MacLeod, Robert ; Van Oosterom, Adriaan
Author_Institution :
Lab. of Med. Phys. & Biophys., Nijmegen Univ., Netherlands
fDate :
30 Oct-2 Nov 1997
Abstract :
Potentials on the surface of a torso shaped tank, generated by the electric activity of canine heart suspended within, were recorded. Simultaneously, the potentials on the ventricular surface were documented. The involved geometry and the potentials measured on the tank surface were used in a UDL based inverse procedure for computing the depolarization sequence at the ventricular surface. The computed activation times were compared to the ones directly derived from the invasively measured potentials on the ventricular surface. The results demonstrate an (RMS based) accuracy of the inversely computed activation times of 4 ms
Keywords :
Newton method; electrocardiography; inverse problems; physiological models; RMS accuracy; activation times; bioelectric potentials; depolarization sequence; electric activity; epicardial electrograms; heart activation sequence; inverse procedure; noninvasive determination; quasi-Newton method; surface ECG; surface Laplacian; suspended canine heart; torso shaped tank surface; uniform double layer model; ventricular surface; volume conductor model; Biophysics; Cardiology; Cities and towns; Computational geometry; Electrocardiography; Electrodes; Heart; Laboratories; Physics; Torso;
Conference_Titel :
Engineering in Medicine and Biology Society, 1997. Proceedings of the 19th Annual International Conference of the IEEE
Conference_Location :
Chicago, IL
Print_ISBN :
0-7803-4262-3
DOI :
10.1109/IEMBS.1997.754543
