Effect of Changing Capacitors Between Phases of a Biphasic Defibrillation Shock

Autor:	D. L. Rollins, Raymond E. Ideker, Gregory P. Walcott, William M. Smith
Rok vydání:	1996
Předmět:	Swine business.industry Electric Countershock Phase (waves) Analytical chemistry General Medicine Capacitance Defibrillators Implantable Shock (mechanics) law.invention Electrophysiology Electrocardiography Capacitor Three-phase law Ventricular Fibrillation Electrode Animals Medicine Waveform Cardiology and Cardiovascular Medicine business Voltage
Zdroj:	Pacing and Clinical Electrophysiology. 19:945-954
ISSN:	1540-8159 0147-8389
DOI:	10.1111/j.1540-8159.1996.tb03391.x
Popis:	BACKGROUND In this study, we examined the effect of changing capacitor values between phases of a biphasic waveform with the goal of lowering leading edge voltage (LEV), total delivered energy (TDE), and total stored energy (TSE). METHODS Defibrillation thresholds were determined in 18 open-chest swine using epicardial patch electrodes. In part I, three combinations of capacitors were tested: 150:150 microF; 150:300 microF; and 300:150 microF. Waveform durations were 6/0, 6/2, 6/4, 6/6, and 6/8 ms. In part II, phase 1 capacitance was 150 microF. Three phase 2 capacitance values were used: 150 microF; 75 microF; and 37.5 microF. Phase 2 LEV was a multiple of phase 1 trailing edge voltage: x 0.5; x 0.75; x 1; x 2; x 3; and x 4. A 3.5/2.0 ms biphasic waveform was used. In part III, thresholds were determined for two sets of capacitor values, which can be created by switching a pair of capacitors from in parallel to in series, 150:37.5 microF and 300:75 microF, and nine waveform durations, 4/0, 4/2, 4/4, 6/0, 6/3, 6/6, 8/0, 8/4 and 8/8 ms. RESULTS In part I, the 300:150 microF system defibrillated with the lowest LEV, TDE and TSE were not different for any of the biphasic waveforms tested except for the 6/8 ms, which was higher. In part II, there was no difference in LEV among any of the three phase 2 capacitor values. LEV was lowest for the x 2, x 3, x 4 multipliers. Peak voltage was lowest for the x 1 and x 2 multipliers. TDE was lowest for the x 0.5, x 0.75, x 1, and x 2 multipliers. In part III, the 300:75 microF system defibrillated at a lower LEV than did the 150:37.5 microF system. The 150:37.5 microF system defibrillated at a lower total delivered energy than did the 300:75 microF. CONCLUSION These results suggest that defibrillation can be accomplished with lower LEV, TDE, and TSE if two capacitors are switched from a parallel configuration to a series configuration between phases of the biphasic waveform.
Databáze:	OpenAIRE
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