Use of body-surface potential mapping and computer model simulations for optimal programming of cardiac resynchronization therapy devices

R. Mohindra; J. L. Sapp; J. C. Clements; B. M. Horáček

doi:10.1109/CIC.2007.4745423

Use of body-surface potential mapping and computer model simulations for optimal programming of cardiac resynchronization therapy devices

R. Mohindra, J. L. Sapp, J. C. Clements, B. M. Horáček

Medicine

Medicine

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

4 Citations (Scopus)

Abstract

It has been proposed that by optimizing the timing of activation between the ventricles (V-V interval), with the aid of body-surface potential mapping (BSPM), the success rate of cardiac resynchronization therapy (CRT) devices could be improved. We recorded 120-electrode BSPM data and CT scans from two patients with implanted CRT devices and calculated, by means of electrocardiographic inverse solution, epicardial potentials and isochrones of activation for different V-V intervals. To gain better insight, we used a computer model of ventricular activation to simulate activation isochrones for CRT pacing. As a measure of inter-ventricular synchrony for a variety of V-V settings we used the area between the LV and RV percent surface activated curves. We have demonstrated that by aiming to minimize dyssynchrony in ventricular activation patterns, an optimal CRT pacing V-V interval can be selected. The computer model simulations provided a baseline measure by which our measure of synchrony can be evaluated.

Original language	English
Title of host publication	Computers in Cardiology 2007, CAR 2007
Pages	69-72
Number of pages	4
DOIs	https://doi.org/10.1109/CIC.2007.4745423
Publication status	Published - 2007
Event	Computers in Cardiology 2007, CAR 2007 - Durham, NC, United States Duration: Sept 30 2007 → Oct 3 2007

Publication series

Name	Computers in Cardiology
Volume	34
ISSN (Print)	0276-6574

Conference

Conference	Computers in Cardiology 2007, CAR 2007
Country/Territory	United States
City	Durham, NC
Period	9/30/07 → 10/3/07

ASJC Scopus Subject Areas

Computer Science Applications
Cardiology and Cardiovascular Medicine

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10.1109/CIC.2007.4745423

Cite this

Use of body-surface potential mapping and computer model simulations for optimal programming of cardiac resynchronization therapy devices. / Mohindra, R.; Sapp, J. L.; Clements, J. C. et al.
Computers in Cardiology 2007, CAR 2007. 2007. p. 69-72 4745423 (Computers in Cardiology; Vol. 34).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Mohindra, R, Sapp, JL, Clements, JC & Horáček, BM 2007, Use of body-surface potential mapping and computer model simulations for optimal programming of cardiac resynchronization therapy devices. in Computers in Cardiology 2007, CAR 2007., 4745423, Computers in Cardiology, vol. 34, pp. 69-72, Computers in Cardiology 2007, CAR 2007, Durham, NC, United States, 9/30/07. https://doi.org/10.1109/CIC.2007.4745423

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abstract = "It has been proposed that by optimizing the timing of activation between the ventricles (V-V interval), with the aid of body-surface potential mapping (BSPM), the success rate of cardiac resynchronization therapy (CRT) devices could be improved. We recorded 120-electrode BSPM data and CT scans from two patients with implanted CRT devices and calculated, by means of electrocardiographic inverse solution, epicardial potentials and isochrones of activation for different V-V intervals. To gain better insight, we used a computer model of ventricular activation to simulate activation isochrones for CRT pacing. As a measure of inter-ventricular synchrony for a variety of V-V settings we used the area between the LV and RV percent surface activated curves. We have demonstrated that by aiming to minimize dyssynchrony in ventricular activation patterns, an optimal CRT pacing V-V interval can be selected. The computer model simulations provided a baseline measure by which our measure of synchrony can be evaluated.",

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AB - It has been proposed that by optimizing the timing of activation between the ventricles (V-V interval), with the aid of body-surface potential mapping (BSPM), the success rate of cardiac resynchronization therapy (CRT) devices could be improved. We recorded 120-electrode BSPM data and CT scans from two patients with implanted CRT devices and calculated, by means of electrocardiographic inverse solution, epicardial potentials and isochrones of activation for different V-V intervals. To gain better insight, we used a computer model of ventricular activation to simulate activation isochrones for CRT pacing. As a measure of inter-ventricular synchrony for a variety of V-V settings we used the area between the LV and RV percent surface activated curves. We have demonstrated that by aiming to minimize dyssynchrony in ventricular activation patterns, an optimal CRT pacing V-V interval can be selected. The computer model simulations provided a baseline measure by which our measure of synchrony can be evaluated.

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Use of body-surface potential mapping and computer model simulations for optimal programming of cardiac resynchronization therapy devices

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