Effective Defibrillation in Pigs Using Interleaved and Common Phase Sequential Biphasic Shocks

Autor:	Patrick D. Wolf, Raymond E. Ideker, Wanda Krassowska, Paul A. Guse, D. L. Rollins, William M. Smith
Rok vydání:	1993
Předmět:	Vena Cava Superior Swine Defibrillation Heart Ventricles Left thorax medicine.medical_treatment Electric Countershock Phase (waves) Nuclear magnetic resonance Patch electrode medicine Animals Heart Atria business.industry Equipment Design General Medicine Biphasic waveform Defibrillators Implantable Electrodes Implanted Phase reversal medicine.anatomical_structure Ventricle Shock (circulatory) Anesthesia Ventricular Fibrillation Jugular Veins medicine.symptom Cardiology and Cardiovascular Medicine business
Zdroj:	Pacing and Clinical Electrophysiology. 16:1719-1734
ISSN:	1540-8159 0147-8389
DOI:	10.1111/j.1540-8159.1993.tb01043.x
Popis:	Previous studies have shown that low internal defibrillation thresholds (DFTs) can be attained by using two pairs of electrodes and combining biphasic shocks with sequential timing. The purpose of this two-part study was to test the defibrillation efficacy of two new shock sequences, an interleaved biphasic, and a common phase sequential biphasic, that utilized two pairs of electrodes and were developed from the concept of sequential biphasic shocks. In the first part, defibrillation catheters were placed in the right ventricle and the superior vena cava of six anesthetized pigs. A small patch electrode was placed on the LV apex through a subxiphoid incision and a cutaneous patch was placed on the left thorax. The mean DFT energies for the interleaved biphasic (5.2 +/- 0.4 J) and the common phase sequential biphasic waveforms (5.4 +/- 0.4 J) were substantially less (P < 0.0001) than those for either the sequential monophasic (10.6 +/- 1.0 J) or single biphasic waveforms (9.0 +/- 1.0 J). In the second study, which used nine anesthetized pigs, the importance of phase reversal was demonstrated by the finding that the DFT energy of a common phase sequential biphasic shock (6.2 +/- 0.4 J) was much less than a common phase sequential monophasic shock (17.9 +/- 1.3 J, P < 0.0001); furthermore, the average DFT for four common phase sequential biphasic configurations (5.7 +/- 0.2 J) was much less than for a configuration that was similar except that current flow was not reversed in one phase so that no biphasic effect was present (19.7 +/- 1.2 J). The efficacy of common phase sequential biphasics was comparable to that of sequential biphasics. The effectiveness of sequential biphasics, interleaved biphasics, and common phase sequential biphasics is possibly due to two mechanisms: (A) an increase in the potential gradient during a later phase in regions that were low during the first phase, and (B) the exposure of most of the myocardium to a biphasic shock that reduces the minimum extracellular potential gradient needed to defibrillate.
Databáze:	OpenAIRE
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