Large Capacitor Defibrillation Waveform Reduces Peak Voltages Without Increasing Energies

This study tested the hypothesis that increasing capacitance would allow a reduction in ICD size without reducing the deliverable energy. For example, the volume of a single 450 μF capacitor (390 V peak) is 1/3 less than that of two 250 μF capacitors (780 V), but it can store equivalent amounts of energy.Methods: Endocardial defibrillation electrodes (3.4 cm) were positioned in the RV apex and at the RA/ SVC junction in six mixed‐breed, isoflurane anesthetized pigs (41 ± 3 kg). Three 17‐cm ribbon wires were positioned subcutaneously on the left lateral chest (SQArray). Two CPI VENTAK ECDs were equipped to deliver 60/40 biphasic waveforms using either 125 μF (STD) or 500 μF (LD) of capacitance. A 15 shock up/down protocol was used to determine the 50% probability of success levels for each waveform in each animal. Shocks were delivered from RV(‐)→SVC + SQArray(+) in random order. Results were compared using paired Student'sf‐tests and are reported as mean ± SE. Results: The 500 μF long duration waveform reduced peak voltage 41% (374 ± 18 V [STD] vs 219 ± 14 V (LD], P < 0.001) and reduced peak current 38% (11.0 ± 1.1 A [STD] vs 6.8 ± 0.6 A [LD], P < 0.001) but did not significantly change the delivered energy(12.4 ± 1.3 J [STD] vs 13.4 ± 1.0 J [LD]). Durations increased from 10.0 ± 0.2 to 17.6 ± 0.5 msec (P < 0.001).Conclusions: Defibrillation with a 500 μF, long duration biphasic defibrillation waveform received similar amounts of energy but significantly reduced peak voltage and current compared to a waveform produced from 125 μF. A single large capacitor could be used to reduce the physical size of an ICD compared to the standard two capacitor system.