Introduction: We assessed the effect of d-sotalol on defibrillation voltage and energy requirements in patients undergoing automatic defibrillator implantation. Drugs that primarily prolong cardiac refractoriness generally decrease the energy requirements for defibrillation in animal models. Despite the widespread use of antiarrhythmic drugs in patients with implanted cardioverter defibrillators, the effect of such drugs on defibrillation energy requirements in humans has not been well studied. Sotalol (in the d,l racemic form) is an antiarrhythmic with beta-blocking and cardiac refractoriness prolonging effects. The d-isomer of sotalol is largely devoid of beta-blocking effects; both forms decrease defibrillation energy requirements in animals. We hypothesized that d-sotalol would decrease defibrillation voltage and energy requirements in humans.
Methods and results: Fifteen patients undergoing implanted cardioverter defibrillator implantation were studied before and 20 minutes after d-sotalol infusion (2 mg/kg IV in 15 min, followed by 1 mg/kg per hour). The estimated energy (E50) and voltage (V50) for 50% success in defibrillation (estimated from two successive defibrillation "threshold" measurements), ventricular effective refractory period, monophasic action potential duration, and mean cycle length of ventricular fibrillation were measured, along with heart rate, blood pressure, and plasma concentration of d-sotalol. There was a significant decrease in defibrillation energy (E50 = 12.4 +/- 5.0 J before and 8.4 +/- 4.0 J after d-sotalol, P < 0.003) and voltage (V50 = 440 +/- 77 V before and 354 +/- 93 V after d-sotalol, P < 0.001). Consistent with the Class III effect of d-sotalol, ventricular effective refractory period increased from 284 +/- 21 to 330 +/- 24 msec (P < 0.001), and action potential duration was prolonged from 296 +/- 28 to 340 +/- 22 msec (P < 0.001). Following d-sotalol, there was a tendency for induced tachyarrhythmia to self-terminate (23/102 episodes before vs 74/150 after sotalol, P < 0.001), and ventricular fibrillation cycle length was increased from 216 +/- 20 msec before to 274 +/- 23 msec (P < 0.001) after d-sotalol, despite the persistence of a rapid, disorganized rhythm of the surface ECG. No patient suffered adverse effects.
Conclusions: d-Sotalol lowers defibrillation energy by a mean 32% +/- 27% at concentrations producing a 16% +/- 7% increase in ventricular effective refractory period. Along with its other antiarrhythmic effects, d-sotalol may increase the safety margin for defibrillation or allow lower programmed energies in patients with implanted defibrillators.