Title :
Estimation of cardiac conduction velocities using small data sets
Author :
Fitzgerald, TN ; Rhee, EK ; Brooks, Dh ; Triedman, JK
Author_Institution :
Dept. of Biomed. Eng., Boston Univ., MA, USA
Abstract :
Cardiac conduction velocities can provide information about both the speed and angle of a propagating electrical wavefront. Catheter-based vector mapping may improve the visualization of cardiac arrhythmias, but catheters can only provide limited data. We address the problem of estimating conduction speed and angle from small data sets that are suitable for recording from a catheter device. We estimated cardiac conduction velocities using data subsets of 4-7 electrograms, and then compared the estimates to a larger reference grid. From six swine hearts, we studied 137 ventricular beats and 17,756 velocity vectors. Angle errors were 0.4°±16° and speed errors were 5%±33%. This initial data suggests that the signal processing required for catheter-based vector mapping is feasible
Keywords :
angular measurement; bioelectric phenomena; biomedical measurement; electrical conductivity measurement; electrocardiography; velocity measurement; angle errors; cardiac arrhythmia visualization; cardiac conduction velocity estimation; catheter-based vector mapping; electrograms; propagating electrical wavefront; reference grid; signal processing; small data sets; speed errors; swine hearts; velocity vectors; ventricular beats; Animals; Cardiology; Catheters; DH-HEMTs; Data visualization; Delay effects; Electrodes; Heart; Hospitals; Polynomials;
Conference_Titel :
Computers in Cardiology 2001
Conference_Location :
Rotterdam
Print_ISBN :
0-7803-7266-2
DOI :
10.1109/CIC.2001.977579
