Electrophysiologic effects and antiarrhythmic efficacy of recainam in patients with supraventricular tachycardia.

Recainam is a new antiarrhythmic agent with class Ic properties. To evaluate its electrophysiologic effects and antiarrhythmic efficacy in patients with recurrent supraventricular tachycardia (SVT), programmed electrical stimulation was performed in 10 patients before and after intravenous recainam (loading dose 0.8 mg/kg, infusion 1 mg/kg/h), and in four patients on oral recainam 1,200 mg/day. Five patients had atrioventricular (AV) node reentrant tachycardia; five had AV-reciprocating tachycardia. There were no significant changes in electrocardiographic and intracardiac intervals after either intravenous or oral recainam. After intravenous recainam, the ventricular effective refractory period (ERP) shortened (231 +/- 14-219 +/- 9 ms, p less than 0.05). The antegrade ERP of all three bidirectional accessory pathway markedly prolonged, but the effect on retrograde accessory pathway and AV node ERPs was unremarkable. SVT induction was prevented in three of 10 patients and SVT cycle length increased modestly in seven (357 +/- 44-374 +/- 42 ms, p = 0.07). On oral recainam, an increase in the frequency of spontaneous SVT occurred in two patients. At the doses given, recainam caused less electrophysiologic change than expected, had modest antiarrhythmic efficacy, and might have significant arrhythmogenic potential.     

Failure of lidocaine to suppress lethal ischemic ventricular arrhythmias in a canine model of previous myocardial infarction.

The antiarrhythmic actions of high-dose intravenous (i.v.) lidocaine infusions were assessed in conscious dogs with spontaneous ventricular ectopy subacutely (48 h) after anterior myocardial infarction and in anesthetized dogs with ventricular tachyarrhythmias inducible by programmed ventricular stimulation at 4-11 days after anterior myocardial infarction. In conscious dogs administered cumulative doses of lidocaine at 48 h after myocardial infarction, a significant reduction in the frequency of spontaneous ventricular ectopic complexes (from 61 +/- 12 to 11 +/- 9% of total complexes) occurred only after administration of 10 mg/kg i.v. lidocaine. In anesthetized postinfarction dogs responding to baseline programmed stimulation with ventricular tachyarrhythmias, lidocaine administration (6 mg/kg i.v. loading dose + 100 micrograms/kg/min i.v. maintenance infusion) resulted in a selective increase in infarct zone conduction time (53.0 +/- 5.6 to 60.5 +/- 6.2 msec; p less than 0.05), increases in infarct zone relative refractory periods (RRPs 182 +/- 5 to 193 +/- 5 ms; p less than 0.05), and effective refractory periods (ERPs 156 +/- 4 to 165 +/- 3 ms; p less than 0.05), and an increase in noninfarct zone ERP (154 +/- 5 to 166 +/- 8 ms; p less than 0.05). The induction of ventricular arrhythmias by programmed stimulation was suppressed by lidocaine (6 mg/kg + 100 micrograms/kg/min i.v.) in 5 of 10 postinfarction animals tested, with an additional 3 animals displaying favorable stabilizations of induced arrhythmias.(ABSTRACT TRUNCATED AT 250 WORDS)     

Hemodynamic and electrophysiologic effects of combined infusion of lidocaine and propafenone in humans

The hemodynamic and electrophysiologic effect of a combined intravenous infusion of lidocaine (100 mg bolus followed by 2 mg/min infusion) and propafenone (1 or 2 mg/kg) in patients with a history of ventricular arrhythmia was studied. Lidocaine infusion alone significantly increased the mean pulmonary artery (+28%) and pulmonary capillary wedge (+17%) pressure, with no effect on cardiac index. Lidocaine alone produced no consistent change in any measured electrophysiologic parameter, except slight QTc shortening (-2%, P less than .05). Propafenone alone, particularly at the higher dose (2 mg/kg), produced significant increases in mean blood pressure (+14%), right atrial pressure (+78%), pulmonary artery pressure (+50%), pulmonary capillary wedge pressure (+65%), systemic vascular resistance (+29%), and pulmonary vascular resistance (+61%) and a decrease in cardiac index (-12%). Significant prolongation of PR (+9%), AH (+29%), and HV (+23%) intervals, atrial functional refractory period (+12%), ventricular effective (+7%) and functional (+6%) refractory period, and Wenckebach cycle length (+13%) also occurred after the administration of propafenone alone. Only the effects on atrioventricular (AV) node were observed at the lower dose of propafenone (1 mg/kg). Combined infusion of lidocaine with propafenone produced a mild, statistically insignificant additional negative inotropic effect but reversed the prolongation in atrial and ventricular refractoriness produced by propafenone alone. Thus, the data show that lidocaine attenuates certain electrophysiologic effects of propafenone, which might alter its antiarrhythmic efficacy, while producing mild additive negative inotropic effects that may be of hemodynamic significance.     

Antiarrhythmic and arrhythmogenic actions of methyl lidocaine during the recovery phase after canine myocardial infarction

Programmed electrical stimulation was used to evaluate the electrophysiologic and antiarrhythmic actions of methyl lidocaine in both conscious and anesthetized dogs, 4-7 days after myocardial infarction. When administered to animals demonstrating sustained ventricular tachycardia (n = 6), methyl lidocaine (5 and 10 mg/kg i.v.) prevented the induction of the original ventricular tachycardia in 2 dogs, and in the remaining 4 dogs slowed the tachycardia (cycle length 163 +/- 18 ms vs. 198 +/- 11 and 219 +/- 11 ms, respectively, p less than 0.05). New morphologic forms of sustained tachycardia were observed after drug administration in 4 of 6 experiments. When administered to animals developing only nonsustained ventricular tachycardia or no arrhythmias with programmed stimulation, methyl lidocaine administration enabled programmed stimulation to produce monomorphic sustained ventricular tachycardia in 10 of 13 experiments. The drug increased activation delays in both normal and ischemically injured epicardium, with larger activation delays always observed in ischemically injured tissue. The drug increased refractoriness in ischemically injured myocardium without altering refractoriness in normal tissue. The data suggest that the depression of conduction and prolonged refractoriness produced by methyl lidocaine in ischemically injured tissue may extinguish or slow some forms of ventricular arrhythmia while promoting the formation of new reentry pathways.     

Acute and long-term efficacy of oral propafenone in patients with ventricular tachyarrhythmias.

The class Ic antiarrhythmic agent propafenone was studied by repeated electrophysiologic testing in 54 patients (43 male, aged 54 +/- 10 years, mean ejection fraction of 37.3 +/- 16.9%) with ventricular tachyarrhythmias. Forty patients (74%) had coronary artery disease. Programmed ventricular stimulation (S2, S2S3 during sinus rhythm and/or during S1S1 = 500, 430, 370, and 330 ms) off antiarrhythmic drugs induced sustained ventricular tachycardia, flutter, or fibrillation in all patients. After 450-900 mg of oral propafenone/day for 4-7 days, 51 patients were restudied. In the remaining three patients, spontaneous ventricular tachycardia occurred on drug therapy. Tachycardia induction was suppressed in 9 of 51 patients restudied (18%) and rendered more difficult to induce (basic stimulation drive greater than or equal to 40 beats/min higher than at control study) in another 7 patients (14%) (overall efficacy of 31%). The tachycardia rate decreased from 220 +/- 43 to 177 +/- 44 beats/min (p less than 0.01). The right ventricular effective refractory period increased from 232 +/- 22 to 252 +/- 22 ms (p less than 0.001). Responders to propafenone therapy had higher rates of inducible ventricular tachycardia at control (greater than 230 beats/min: 43%; less than or equal to 230 beats/min: 21%; p less than 0.05), higher ejection fractions, and lower left ventricular end-diastolic pressures than nonresponders. Eleven of the 16 patients showing a positive response to propafenone therapy in electrophysiologic testing were discharged on propafenone alone. During follow-up (17 +/- 12 months), nine patients remained free from ventricular tachycardia, one patient had a relapse, and one patient died of noncardiac death.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of flecainide acetate on ventricular tachyarrhythmia and fibrillation in dogs with recent myocardial infarction

The antiarrhythmic and antifibrillatory actions of the class IC antiarrhythmic agent flecainide acetate were examined in urethane-anesthetized dogs with recent myocardial infarction. The intravenous administration of flecainide in a loading dose of 1.0 mg/kg (n = 7) or 2.0 mg/kg (n = 6), followed by a maintenance infusion of 1.0 mg/kg/h to achieve plasma drug concentrations considered clinically therapeutic, failed to significantly elevate the electrical threshold current required to provoke ventricular fibrillation at infarct zone, border zone and non-infarct zone stimulation sites in postinfarction dogs. In 8 dogs which responded to baseline programmed stimulation with inducible sustained ventricular tachycardia, flecainide administered as 1.0 or 2.0 mg/kg loading doses followed by a 1.0 mg/kg/h maintenance infusion failed to prevent ventricular tachycardia initiation in any animal tested, although the post-treatment ventricular tachycardia cycle lengths were prolonged compared to baseline values (pre: 178 +/- 11 ms vs post: 202 +/- 17 ms, p less than 0.05). Flecainide administration apparently facilitated the induction of newly sustained ventricular tachycardia in 3 previously noninducible postinfarction dogs. The development of acute posterolateral ischemia at a site remote from previous anterior myocardial infarction resulted in the development of ventricular fibrillation in 4 of 11 (36%) saline-treated postinfarction dogs vs a cumulative 10 of 12 (83%) flecainide-treated, baseline noninducible postinfarction dogs (p less than 0.05 vs saline-treated). The incidence of sudden ischemic ventricular fibrillation was 7 of 7 (100%) among flecainide-treated baseline inducible postinfarction dogs. These data suggest that flecainide acetate may have only limited efficacy in preventing ventricular tachycardia or ventricular fibrillation soon after myocardial infarction.     

Effects of pentisomide and E-4031 on canine atrial flutter due to reentry: a comparative study with disopyramide and propafenone.

Effects of new antiarrhythmic drugs, pentisomide [3.5 +/- 0.5 mg/kg intravenously (i.v.) n = 8], and E-4031 (5.6 +/- 1.0 micrograms/kg, n = 8), a class III drug, on atrial flutter (AF) caused by reentry were compared with those of disopyramide (1.6 +/- 0.2 mg/kg, n = 8) and propafenone (2.2 +/- 0.2 mg/kg, n = 8). AF was induced with burst atrial pacing after we made an intercaval crush in anesthetized, open-chest dogs. Termination of AF did not differ among test drugs (8 of 8 with disopyramide, 7 of 8 with propafenone, 6 of 8 with pentisomide, and 8 of 8 with E-4031). Cycle length (CL) of AF was prolonged more with propafenone (57 +/- 10%) and pentisomide (41 +/- 5%) than with E-4031 (12 +/- 3%, p less than 0.05). This was also true for increase in interatrial conduction time determined at a pacing CL of 150 ms. Increase in atrial effective refractory period (ERP) determined at a basic pacing CL of 300 ms did not differ among test drugs. Changes in CL of AF correlated significantly with those in interatrial conduction time (r = 0.84, p less than 0.001), but not with those of ERP (r = 0.10, NS). Reinitiation of AF was significantly greater in propafenone (7 of 7) and pentisomide (5 of 6) groups than in disopyramide (1 of 8) and E-4031 (0 of 8) groups (p less than 0.001). Pentisomide and E-4031 were effective in terminating canine AF due to reentry, as were disopyramide and propafenone. Reinitiation of AF was greater in dogs treated with antiarrhythmic drugs that had more prominent effects on conduction time than on ERP.     

Effect of pentisomide (CM 7857) on myocardial excitation, conduction, repolarization, and refractoriness. An electrophysiological study in humans.

The electrophysiological effects of pentisomide upon the intact human heart were evaluated using programmed stimulation and recording of intracardiac monophasic action potentials (MAP) in 17 patients with various ventricular arrhythmias. After i.v. administration of pentisomide, 85-135 mg, the atrial-His interval increased by 8 +/- 12 ms (p less than 0.05) during sinus rhythm and by 13 +/- 21 ms (p less than 0.05) at atrial pacing of 600 ms cycle length (600 ms pacing). The His-ventricular interval also increased by 6 +/- 10 ms during sinus rhythm (p less than 0.05) and by 5 +/- 9 ms at 600 ms pacing (NS). The QRS duration prolonged by 9 +/- 10 ms (p less than 0.01) and 6 +/- 8 ms (p less than 0.01) during 600 and 500 ms ventricular pacing, respectively. The right ventricular MAP duration to 90% repolarization was significantly shortened, by 20 +/- 21 ms (p less than 0.01) during sinus rhythm, by 16 +/- 17 ms (p less than 0.01) at 600 ms ventricular pacing, and by 11 +/- 16 ms (p less than 0.01) at 500 ms ventricular pacing. The corrected QT interval was shortened by 21 +/- 28 ms (p less than 0.01). The present study supports that pentisomide is a class-I antiarrhythmic agent with a marked effect on depolarization (action of class Ia and Ic) and on repolarization (action of class Ib). This unique combination of cellular electrophysiological properties indicates that the clinical antiarrhythmic efficacy of pentisomide may differ from that of hitherto available antiarrhythmic drugs.     

Pharmacokinetic and pharmacodynamic interactions of propafenone and cimetidine

The pharmacokinetics and pharmacodynamics of the extensively metabolized antiarrhythmic agent propafenone were assessed alone and during concomitant administration of cimetidine. Twelve healthy subjects were given successively the following treatments: propafenone 225 mg q8h plus cimetidine placebo; cimetidine 400 mg q8h plus propafenone placebo; and propafenone 225 mg plus cimetidine 400 mg q8h. After a minimum of 5 days on each regimen, plasma drug concentrations and electrocardiogram conduction intervals were measured during a drug washout period. The maximum concentration of propafenone in plasma was 993 +/- 532 ng/mL when propafenone was given alone compared with 1230 +/- 591 ng/mL when propafenone was given with cimetidine (P = .0622). Differences in tmax, t1/2, and Cp ss did not approach statistical significance when propafenone alone was compared with propafenone plus cimetidine. When compared with cimetidine, propafenone significantly increased the PR interval from 161 +/- 5 msec to 192 +/- 6 msec (P less than .01) and the QRS duration from 89 +/- 3 msec to 98 +/- 4 msec (P less than .01). Combination therapy caused a modest additional increase in QRS duration to 103 +/- 3 msec (P less than .01). In conclusion, cimetidine caused small changes in propafenone pharmacokinetics and pharmacodynamics; but these changes are unlikely to be clinically important.     

Quinidine/quinine: stereospecific electrophysiologic and antiarrhythmic effects in a canine model of ventricular tachycardia.

The two major electrophysiologic effects of quinidine are prolongation of refractoriness and prolongation of conduction time. To determine which of these effects contributes to its antiarrhythmic effect, we compared the electrophysiologic effects of quinidine and its stereoisomer quinine (which was expected to prolong conduction time but not refractoriness) in 24 dogs with inducible sustained ventricular tachyarrhythmia late after ischemic injury. Conscious but sedated animals were randomly assigned to receive infusions of saline, quinidine, or quinine. Serum concentrations of quinidine and quinine were 18 +/- 9 and 23 +/- 8 microM, respectively. Both drugs prolonged conduction times to a similar extent, but quinidine prolonged local repolarization times and refractoriness much more than quinine. Sustained ventricular tachyarrhythmia was consistently inducible during placebo (saline) studies. Antiarrhythmic efficacy was observed with quinidine (3 of 12) but not quinine (0 of 15) or saline (0 of 13) (p less than 0.05, Chi-square test). Quinidine also significantly prolonged monomorphic ventricular tachycardia (VT) cycle length (157 +/- 33 ms on quinidine vs. 129 +/- 26 ms at baseline, p less than 0.001) whereas quinine had no significant effect. Thus, prolonging refractoriness is important in preventing the induction of ventricular tachyarrhythmias and in prolonging VT cycle length.     

Myocardial uptake and pharmacodynamics of quinidine and propafenone in isolated rabbit hearts: metabolic versus respiratory acidosis.

The influence of metabolic and respiratory acidosis on the myocardial accumulation and pharmacodynamics of quinidine and propafenone was studied in isolated perfused rabbit hearts. Three pH groups were evaluated: physiologic buffer, pH 7.4; metabolic acidosis, pH 7.0; and respiratory acidosis, pH 7.0. Myocardial accumulation of quinidine and propafenone was significantly reduced during acidosis. Although myocardial quinidine concentrations were similar in the metabolic acidosis group (14.4 +/- 1.2 micrograms/g) and the respiratory acidosis group (14.5 +/- 1.3 micrograms/g), the myocardial propafenone concentration was significantly less during metabolic acidosis (8.9 +/- 2.0 micrograms/g) as compared with respiratory acidosis (12.7 +/- 2.4 micrograms/g, p less than 0.05). The myocardial concentration-effect relationships were linear over the observed myocardial concentration ranges. The slopes of the linear concentration-effect relationships describing QRS duration were increased twofold by both types of acidosis as compared with normal pH (p less than 0.05). In contrast, the slopes of the concentration-effect relationships describing changes in ventricular repolarization and refractoriness were increased only during metabolic acidosis as compared with pH 7.4 (p less than 0.05). Thus, for any given concentration of drugs, the effects of quinidine and propafenone on ventricular conduction time are dependent on the pH of the perfusate, whereas these drug effects on ventricular repolarization and refractoriness are dependent on the buffer composition.     

Electrophysiologic effects of bepridil in normal and infarcted canine myocardium

The electrophysiologic effects of bepridil, 10 mg/kg i.v., were determined in normal noninfarcted and in infarcted ventricular myocardium in 8 urethane-anesthetized dogs 4-6 days after anterior myocardial infarction. At drive cycle lengths of 400 and 333 ms, bepridil significantly increased relative (RRP) and effective (ERP) refractory periods in both normal ventricular tissue (mean increases, RRP 7-14%, ERP 5-6%, p less than 0.05-0.01) and in infarcted ventricular tissue (mean increases, RRP 12-15%, ERP 13-14%, p less than 0.01). Bepridil also selectively prolonged the local activation delay in infarcted ventricular myocardium (mean increases 37.5-45.1%, p less than 0.01), while ventricular excitation thresholds were not altered by bepridil in either normal or infarcted myocardium. Before bepridil administration, programmed ventricular stimulation initiated sustained ventricular tachycardias in 6 of the 8 postinfarction dogs tested. After bepridil, 2 of the 6 previously responsive animals were rendered noninducible, 3 animals responded to programmed stimulation with nonsustained tachyarrhythmias of relatively slower rates, and the one remaining dog responded with sustained ventricular tachycardia (VT). These data suggest that increases in refractoriness in both normal noninjured and in ischemically injured ventricular tissue, with a selective delay in conduction in ischemically injured tissue, contribute to the antiarrhythmic actions of bepridil in the setting of myocardial infarction.     

The effect of vernakalant (RSD1235), an investigational antiarrhythmic agent, on atrial electrophysiology in humans

OBJECTIVES: To determine the acute effects of vernakalant (RSD1235) on electrophysiologic (EP) properties in humans. BACKGROUND: Vernakalant is an investigational mixed ion channel blocker that can terminate acute atrial fibrillation (AF) in humans at 2 to 5 mg/kg and may be more "atrial-selective" than available agents. METHODS: Patients (N=19; 53% male; age, 48+/-11 years) underwent EP study before and after 25 minutes of intravenous vernakalant administration: 2 mg/kg over 10 min+0.5 mg/kg/hr for 35 min or 4 mg/kg over 10 min+1 mg/kg/hr for 35 min. EP measurements, including atrial refractory period (AERP) and ventricular refractory period (VERP), were obtained. RESULTS: The lower dose prolonged AERP at 600, but not at 400 or 300 msec paced cycle length. The higher dose significantly prolonged AERP from 203+/-31 msec to 228+/-24 msec at 600 msec, 182+/-30 msec to 207+/-27 msec at 400 msec, and 172 msec+/-24 to 193+/-21 msec at 300 msec. There was no significant prolongation of VERP at either dose or at any cycle length. There was a small but significant prolongation of AV nodal refractoriness; Wenckebach cycle length prolonged by 18+/-12 msec (from baseline 343+/-54 msec) at the higher dose (P<0.05). Sinus node recovery time also increased by 123+/-158 msec (from baseline 928+/-237 msec) at the higher dose (P<0.05). There was a slight prolongation of QRS duration at the higher dose, during ventricular pacing at CL=400 msec (15+/-15 msec, P=0.0547). QT and HV intervals were unchanged. CONCLUSIONS: At doses similar to those tested clinically, vernakalant dose-dependently prolonged atrial refractoriness, prolonged AV nodal conduction and refractoriness, and slightly prolonged QRS duration, but it had no effect on ventricular refractoriness.     

Electrophysiologic actions of lidocaine in a canine model of chronic myocardial ischemic damage--arrhythmogenic actions of lidocaine

Lidocaine facilitated the induction of ventricular arrhythmias by programmed electrical stimulation in 16 dogs, 5 to 14 days after a temporary (90-min) occlusion of the left anterior descending coronary artery. In these 16 animals, programmed stimulation failed to produce ventricular tachyarrhythmias in any animal before lidocaine administration (3 mg/kg), while after lidocaine administration, programmed stimulation produced nonsustained ventricular tachycardia in four animals (25%), sustained ventricular tachycardia in nine animals (56%), and ventricular fibrillation in one animal (6%). Delayed electrical activity in ischemically injured ventricular myocardium produced by premature ventricular stimuli (mean +/- SD = 179 +/- 34 ms) was delayed further by the administration of lidocaine (237 +/- 42 ms, p less than 0.01), resulting in continuous local electrical activity between the final premature ventricular stimulus and the initial beat of the resultant ventricular tachycardia. Lidocaine administration did not alter myocardial refractoriness in normal ventricular tissue, but it prolonged refractoriness in ischemically injured ventricular myocardium. These results show that lidocaine can have arrhythmogenic actions when administered in the presence of existing ischemic injury, possibly the result of increased delay in activation of ischemically injured ventricular myocardium with localized reentry of myocardial electrical activity.     

Differential effects of dofetilide, amiodarone, and class Ic drugs on left and right atrial refractoriness and left atrial vulnerability in pigs

OBJECTIVES: Antiarrhythmic drugs have been shown to prolong right atrial refractoriness while data on the left atrium are not available. In pigs we have observed shorter effective refractory periods (ERP) of the left compared with the right atrium associated with a much higher left atrial vulnerability for tachyarrhythmias. Since this could suggest a different distribution of repolarizing ion channels in left and right atrium, we investigated whether antiarrhythmic drugs blocking different ion channels have a differential effect on left and right atrial ERP and left atrial vulnerability. METHODS: In pentobarbital-anesthetized pigs (n=40) we measured and compared ERPs in both atria before and after different drugs with the S1-S2 extrastimulus method at three basic cycle lengths (BCL) and assessed the inducibility of atrial fibrillation/flutter (AF/AFL) by the premature S2 stimulus. RESULTS: At the three BCL tested (240/300/400 ms) baseline ERPs were shorter in left vs. right atrium (112+/-2/124+/-2/129+/-2 ms vs. 147+/-2/163+/-2/167+/-2 ms, P<0.001). Mostly non-sustained AF/AFL induced by the S2 extrastimulus was very frequent in the left (68%) and nearly absent in the right atrium (3%). Only amiodarone, 5 mg/kg i.v., which showed a balanced increase of left and right atrial ERP (29+/-5/33+/-4/35+/-3% vs. 30+/-5/35+/-5/42+/-7%), decreased the inducibility of AF/AFL significantly (-72%, P<0.01). Dofetilide, 10 microg/kg i.v., had a stronger effect on right than left atrial ERP (36+/-4/39+/-5/46+/-10% vs. 23+/-2/22+/-7/22+/-5%, P<0.05), while flecainide, 1 mg/kg i.v., prolonged left more than right atrial ERP (58+/-15/36+/-7/40+/-7% vs. 26+/-5/24+/-5/21+/-4%, P<0.05) similar to 1 mg/ kg of propafenone (46+/-5/45+/-7/32+/-10% vs. 17+/-4/21+/-5/ 25+/-8%, P<0.05). CONCLUSION: The shorter refractoriness of the left compared with the right atrium observed in pigs was associated with a high left atrial vulnerability for tachyarrhythmias, which was reduced only by amiodarone showing a balanced increase of left and right atrial ERP. Dofetilide was stronger on right atrial ERP, flecainide and propafenone on left atrial ERP. These differences suggest a differential distribution of repolarizing ion channels between left and right atrium with possible relevance for the antiarrhythmic efficacy of drugs.     

Antiarrhythmic and electrophysiologic actions of clofilium in experimental canine models

Clofilium was studied in three experimental models. In non-ischemic and chronically infarcted canine hearts, clofilium (0.5-2 mg/kg) produced a dose-dependent increase in electrical ventricular fibrillation threshold (VFT), but prolonged the effective refractory period (ERP) of normal myocardium in only the non-ischemic heart. When chronically infarcted hearts were subjected to programmed electrical stimulation, 1 mg/kg of clofilium inhibited the re-induction of either ventricular tachycardia or ventricular fibrillation in 5 of 6 animals and slowed the rate of the induced tachycardia in the sixth. Clofilium, however, failed to alter ventricular refractory periods of normal myocardium at either twice diastolic threshold current (176 +/- 5 ms control vs. 187 +/- 9 ms post-clofilium, P greater than 0.05) or at 10 mA (134 +/- 6 ms control vs. 137 +/- 13 ms post-clofilium, P greater than 0.05). In addition, chronic administration of clofilium (2 mg/kg, i.v., followed by 1 mg/kg every 12 h) was ineffective in decreasing mortality in a canine model of sudden coronary death. Of 10 saline-treated conscious animals subjected to an electrically-induced intimal lesion of the left circumflex coronary artery in the presence of a previous ischemic insult, all 10 died suddenly of ventricular fibrillation within 173 +/- 45 min after current application. Under similar conditions, 7 clofilium-treated animals died suddenly within 249 +/- 88 min (P greater than 0.05) after current application while 3 animals survived (P greater than 0.10). Clofilium did, however, elevate the effective refractory period in these animals (150 +/- 3 ms saline-treated vs. 195 +/- 7 ms clofilium-treated). It is concluded from our data that there is little relationship between clofilium's electrophysiologic actions in normal myocardium and antiarrhythmic effects. Furthermore, simple prolongation of refractoriness in normal non-ischemic myocardium may be insufficient for the prevention of ventricular fibrillation which develops in response to a transient ischemic event superimposed on a chronically injured myocardium.     

Lidocaine has a narrow antiarrhythmic dose range against ventricular arrhythmias induced by programmed electrical stimulation in conscious postinfarction dogs

Summary The aim of the present study was to investigate the dose-dependent antiarrhythmic efficacy of lidocaine against electrically induced tachycardias in conscious, chronically instrumented postinfarction dogs. Programmed electrical stimulation (PES) was performed in 16 dogs 8 to 21 days after a 4 h occlusion of the left anterior descending coronary artery (LAD). Infusion of saline in 8 control animals with sustained ventricular tachycardia (SVT) inducible at baseline did not affect subsequent inducibility. In the treatment group 7 of 8 animals responded with SVT and one exhibited ventricular fibrillation at baseline. After an initial bolus of 1 mg/kg lidocaine intravenously (i.v.), the drug was infused at infusion rates of 40, 80 and 120 g/kg/min (i.v.). During 80 g/kg/min lidocaine (mean plasma level 3.5 g/ml) 7 out of 8 animals displayed an antiarrhythmic response; both the lower and the higher infusion rate were associated with a smaller antiarrhythmic efficacy (3 of 8 animals responded to 40 g/kg/min and 4 of 8 to 120 g/kg/min). Licocaine did not affect ventricular refractory periods, but induced an increase in intraventricular conduction time at all infusion rates, from 66.2 ms at baseline to 67.7 ms (p<0.05), 67.7 ms (p<0.05), 70.0 ms (p<0.01) respectively.In conclusion the present study demonstrates that lidocaine is of considerable value in the management of PES-induced ventricular arrhythmias in the postinfarction phase. However there is only a small optimal therapeutic plasma level range, where lidocaine exhibits its antiarrhythmic efficacy against this type of arrhythmia; this makes a carefully titration of the drug necessary both in the experimental and in the clinical setting. Send offprint requests to K. Krejcy at the above address     

Comparative effects of antiarrhythmic drugs on the ventricular fibrillation threshold

The purpose of this study was to compare the effects of several different antiarrhythmic drugs on the ventricular fibrillation threshold (VFT). Experiments were performed on open-chest dogs anesthetized with pentobarbital. The VFT was measured on the right ventricle by scanning the vulnerable period with a single 10-ms electrical stimulus. The following antiarrhythmic drugs were each given intravenously to eight different dogs: procainamide (25 mg/kg), lidocaine (2 mg/kg + 70 micrograms/kg/min), flecainide (3 mg/kg), timolol (0.1 mg/kg), clofilium (1 mg/kg), dl-sotalol (5 mg/kg), and bethanidine (4 mg/kg). The drugs resulted in the following increases in the VFT: procainamide, 33 +/- 13%; lidocaine, 21 +/- 5%; flecainide, 38 +/- 10%; timolol, 19 +/- 6%; clofilium, 14 +/- 6%; sotalol, 33 +/- 10%; and bethanidine, 69 +/- 15%. The changes in VFT were all significant (p less than 0.01) except for clofilium. Only procainamide and sotalol caused stimulus-induced runs of nonsustained polymorphic ventricular tachycardia that spontaneously reverted to sinus rhythm after 4 s or more. In individual experiments, the occurrence of nonsustained polymorphic tachycardia that resembled ventricular fibrillation could not be correlated with a change in the VFT. In addition, there appeared to be no relationship between a drug-induced increase of the VFT and alterations in the QRS duration, the QT interval, or the ventricular effective refractory period. Bethanidine had the greatest effect on the VFT, in spite of the fact that this drug shortened the ventricular effective refractory period.(ABSTRACT TRUNCATED AT 250 WORDS)     

Antiarrhythmic and electrophysiologic effects of MDL 11,939, a novel class III antiarrhythmic agent in anesthetized dogs.

MDL 11,939 (alpha-phenyl-1-[2-phenylethyl]-4-piperidine-methanol) is a new class III antiarrhythmic agent that was evaluated for antiarrhythmic activity in anesthetized dogs. Intravenous (i.v.) administration of MDL 11,939 (1, 3, and 10 mg/kg) increased left ventricular effective refractory periods. Q-T interval, and Q-Tc in a dose-related way. The effects of MDL 11,939 on ventricular refractoriness were similar to those observed with administration of identical doses of d-sotalol, with the exception that those produced by MDL 11,939 lasted longer. Intraduodenal administration of 10 mg/kg MDL 11,939 also increased left ventricular effective refractory period (LV ERP). The increase in left ventricular refractoriness produced by MDL 11,939 occurred without a significant increase in QRS duration. MDL 11,939 (10 mg/kg i.v.) also protected against induction of ventricular tachycardia (VT) and ventricular fibrillation (VF) induced with programmed electrical stimulation (PES) in anesthetized dogs with chronic 4- to 7-day myocardial infarctions. In comparison, antiarrhythmic effects of bretylium (10 mg/kg i.v.) against PES-induced ventricular arrhythmias were dependent on additional administration of propranolol (0.1 mg/kg i.v.), whereas propranolol alone (0.1 mg/kg i.v.) was ineffective. The results observed with MDL 11,939 are consistent with its in vitro class III antiarrhythmic action and suggest utility for this agent in treatment of VT and VF.     

Canine plasma concentration-cardiovascular effect relationships for bidisomide,a new antiarrhythmic drug,and disopyramide,cibenzoline, and propafenone

Bidisomide (SC-40230) is a unique new antiarrhythmic agent. In this study the canine intravenous (i.v.) antiarrhythmic doses of bidisomide (9 ± 1 mg/kg), disopyramide (8 ± 1 mg/kg), cibenzoline (8 ± 2 mg/kg), and propafenone (6 ± 0.5 mg/kg) were established in a 24 h coronary ligation ventricular arrhythmia model. Based on the canine therapeutic doses of the four agents, three cumulative i.v. doses (load/maintenance infusions) of each of these drugs and placebo were then studied in normal anesthetized dogs to evaluate their general cardiovascular effects. Propafenone (0.7–3.0 μg/ml plasma concentration) caused potent reductions in cardiac output and increases in QRS duration relative to the other agents. Cibenzoline (0.9–7.0 μg/ml) and disopyramide (1.4–12.9 μg/ml), at matched plasma concentrations, caused very similar cardiac output reductions, but cibenzoline caused nearly double the QRS increase. Bidisomide (1.9–16.1 μg/ml) had the least potent effects on cardiac output and QRS duration. All four drugs increased PR and QT in addition to QRS, but only disopyramide and propafenone increased JT (QT-QRS). These experiments suggest that the antiarrhythmic plasma concentrations of bidisomide, in contrast to those of selected reference agents, do not cause prominent ventricular conduction slowing or prolongation of ventricular repolarization, and in addition, cause only modest hemodynamic effects in normal dogs. © 1995 Wiley-Liss, Inc.