Extended charge banking model of dual path shocks for implantable cardioverter defibrillators

Single path defibrillation shock methods have been improved through the use of the Charge Banking Model of defibrillation, which predicts the response of the heart to shocks as a simple resistor-capacitor (RC) circuit. While dual path defibrillation configurations have significantly reduced defibrillation thresholds, improvements to dual path defibrillation techniques have been limited to experimental observations without a practical model to aid in improving dual path defibrillation techniques.

Methods: The Charge Banking Model has been extended into a new Extended Charge Banking Model of defibrillation that represents small sections of the heart as separate RC circuits, uses a weighting factor based on published defibrillation shock field gradient measures, and implements a critical mass criteria to predict the relative efficacy of single and dual path defibrillation shocks.

Results: The new model reproduced the results from several published experimental protocols that demonstrated the relative efficacy of dual path defibrillation shocks.

The model predicts that time between phases or pulses of dual path defibrillation shock configurations should be minimized to maximize shock efficacy. DiscussionThrough this approach the Extended Charge Banking Model predictions may be used to improve dual path and multi-pulse defibrillation techniques, which have been shown experimentally to lower defibrillation thresholds substantially.

The new model may be a useful tool to help in further improving dual path and multiple pulse defibrillation techniques by predicting optimal pulse durations and shock timing parameters.

Author: Derek J Dosdall and James D. Sweeney
Credits/Source: BioMedical Engineering OnLine 2008, 7:22

Published on: 2008-08-01

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