Serial electrophysiologic testing of multiple drugs in patients with atrioventricular nodal reentrant paroxysmal tachycardia

Isoprenaline and inducibility of atrioventricular nodal re-entrant tachycardia

OBJECTIVES

To examine the effect of isoprenaline on slow and fast pathway properties and tachycardia initiation.

DESIGN

Consecutive patients, prospective study.

SETTING

Referral centre for cardiology, academic hospital.

PATIENTS

24 patients suffering from common type atrioventricular nodal reentrant tachycardia (AVNRT).

INTERVENTIONS

Programmed electrical stimulation and radiofrequency catheter ablation of the slow pathway.

MEASUREMENTS AND MAIN RESULTS

AVNRT was induced before and after the administration of isoprenaline in nine patients (group 1), before isoprenaline only in five (group 2), and after isoprenaline only in 10 (group 3). The anterograde effective refractory period of the fast pathway was prolonged significantly during isoprenaline administration in group 1 (405 (31) v 335 (34) ms, p < 0.001) and shortened in group 2 (308 (57) v 324 (52) ms, p = 0.005). There was also significant shortening in group 3 (346 (85) v 395 (76) ms, p < 0.001). Isoprenaline administration did not result in a significant change of the anterograde effective refractory period of the slow pathway in groups 1 and 3, but eliminated slow pathway conduction in group 2. Isoprenaline significantly shortened the minimal and maximal atrial to His bundle conduction interval recording in response to each extrastimulus of the slow pathway (210 (24) v 267 (25) ms, p < 0.001 and 275 (25) v 328 (25) ms, p < 0.001, respectively) in group 1 and significantly prolonged these intervals (331 (34) v 274 (34) ms and 407 (33) v 351 (33) ms, respectively) in group 3. In all groups only minimal changes in the refractory period of the atrium occurred after isoprenaline administration. The effect of isoprenaline was also measured on the ventricular effective refractory period and on the minimal and maximal length of the ventriculoatrial (V2-A2) interval during ventricular pacing. Isoprenaline did not result in a significant change of the ventricular effective refractory period in groups 1 and 2 nor of the shortest and longest V2-A2 interval. In group 3, however, the ventricular effective refractory period and the shortest and longest V2-A2 interval shortened significantly after isoprenaline administration.

CONCLUSIONS

In group 1 isoprenaline did not affect inducibility of AVNRT because it prolonged the fast pathway refractory period without affecting slow pathway conduction. In group 2 isoprenaline shortened the fast pathway refractory period and appeared to abolish slow pathway conduction. Consequently, isoprenaline prevented induction of AVNRT. In group 3 isoprenaline facilitated induction of AVNRT. This effect seemed primarily to be the result of shortening of retrograde refractoriness of the fast pathway with prolongation of slow pathway anterograde conduction and refractory period.

Pharmacologic management of supraventricular tachycardias in children. Part 1: Wolff-Parkinson-White and atrioventricular nodal reentry

OBJECTIVE

To review the literature regarding the use of antiarrhythmic agents in the management of Wolff-Parkinson-White (WPW) syndrome and atrioventricular nodal reentry tachycardia (AVNRT) in infants and children, and to discuss the advantages and disadvantages of specific agents in each arrhythmia in an effort to develop treatment guidelines.

DATA SOURCES

A MEDLINE search encompassing the years 1966-1996 was used to identify pertinent literature for discussion. Additional references were found in the articles that were retrieved via MEDLINE.

STUDY SELECTION

Clinical trials that address the use of antiarrhythmic agents for the treatment of the supraventricular tachycardias WPW and AVNRT in children were selected. Literature pertaining to dosage, pharmacokinetics, efficacy and toxicity of antiarrhythmic agents in children were considered for possible inclusion in the review, and information judged to be pertinent by the authors was included in the discussion.

DATA EXTRACTION

Although there are numerous reports of antiarrhythmic use in children, very few large studies are designed to evaluate an individual antiarrhythmic agent for a specific arrhythmia. Controlled, comparison trials of antiarrhythmic agents in children are virtually nonexistent. Ideally, controlled clinical trials are used to develop clinical guidelines; however, in this situation, most data and information must be obtained from case series of children treated. Although the results from these type of studies may be useful in developing guidelines for the optimal use of these agents, controlled trials are required for establishing standard treatment guidelines for all patients.

DATA SYNTHESIS

Despite limited scientific evaluation of conventional agents in the treatment of WPW and AVNRT in children, they continue to be used as standard of care. Most information regarding the use of conventional agents in children has been extrapolated from the adult literature. Little justification for the use of agents or dosing in children is available. Controlled trials regarding the use of new antiarrhythmic agents (propafenone, amiodarone, flecainide) are available; however, the variance in dosing schemes, presence of structural heart disease, and patient age make the development of recommendations difficult.

CONCLUSIONS

Because of greater clinical experience with these conventional antiarrhythmic agents, they continue to be first-line therapy in the management of most supraventricular tachycardia (SVT) in children. The management of SVT in children with WPW syndrome should begin with the use of a beta-blocker with the addition of digoxin or procainamide for treatment failures. The use of digoxin monotherapy, although frequently used by many practitioners in infants and children with WPW, cannot be recommended. For failures to conventional agents, flecainide is the preferred agent, while therapy with propafenone, amiodarone, and sotalol remains to be elucidated. The management of AVRNT is similar to that of WPW; however, digoxin is the agent of first choice. Trials of beta-blockers and procainamide should follow for treatment failures with flecainide again being the preferred "newer" antiarrhythmic for use in resistant cases. Additional well-designed, controlled trials are needed to further evaluate the comparative efficacy of antiarrhythmics in the management of WPW and AVNRT in children, as well as to evaluate dosing and toxicity in various age groups.

Electrophysiology in a district general hospital

OBJECTIVE

To investigate the feasibility of performing electrophysiological studies at a district general hospital and to evaluate the importance of such studies in the management of patients with suspected arrhythmias.

DESIGN

Retrospective study of patients having had electrophysiological studies during a three year period.

SETTING

District general hospital.

SUBJECTS

93 patients (50 men, 43 women, mean age 45.9 years) with suspected arrhythmias.

RESULTS

The patients were divided into two groups according to symptoms. Group 1 (34 patients) presented with syncope. Group 2 (59 patients) presented with palpitation. All had previously undergone non-invasive investigations. All had had multiple hospital admissions and outpatient attendances. In group 1 nine patients with no documented arrhythmias had inducible ventricular tachycardia and three of six with suspected bradyarrhythmias had ventricular tachycardia. Fourteen patients had suspected ventricular arrhythmias before electrophysiological studies, which were confirmed in all, four receiving automatic implantable cardioverter defibrillators. Electrophysiological studies were used to guide drug treatment in all patients. Group 2 consisted of 32 patients with reentrant supraventricular tachycardia and 15 with ventricular tachycardia; 12 had no documented arrhythmias. In those with supraventricular tachycardia, accessory pathways were identified in all. In 23 patients drug treatment (guided by electrophysiological studies) was successful. In nine, drug treatment guided by electrophysiological studies were ineffective and radiofrequency ablation was successful. In 15 patients with ventricular tachycardia and palpitations, 10 had their drugs changed after electrophysiological studies and their ventricular tachycardia was suppressed. In five patients electrophysiological studies showed that ventricular tachycardia was unsuppressed and they were referred for an operation or implantation of an automatic cardioverter defibrillator. In 12 patients with no documented arrhythmias electrophysiological studies identified significant arrhythmias in six. There were no complications.

CONCLUSIONS

Diagnostic electrophysiological studies can safely and effectively be performed in a district general hospital. These studies are especially effective in investigating patients with syncope, and also provide a strategy for future arrhythmia management.

Differential effect of esmolol on the fast and slow AV nodal pathways in patients with AV nodal reentrant tachycardia

INTRODUCTION

AV nodal reentrant tachycardia (AVNRT) usually involves anterograde conduction over a slowly conducting ("slow") pathway and retrograde conduction over a rapidly conducting ("fast") pathway. A variety of drugs, such as beta blockers, digitalis, and calcium channel blockers, have been reported to prolong AV nodal refractoriness in both the anterograde and retrograde limbs of the circuit. However, few data are available that address whether the fast and slow pathways respond in a quantitatively different manner to drugs such as beta-adrenergic antagonists. In addition, it is not known whether the effects of these agents on refractoriness parallel the effects on conduction in the fast and slow pathways. The present study was performed to measure the effect of the intravenous beta-adrenergic agent, esmolol, on refractoriness and conduction in both the fast and slow AV nodal pathways in patients with AVNRT.

METHODS AND RESULTS

Thirteen patients with discontinuous AV nodal conduction properties and typical AVNRT were studied. Anterograde and retrograde AV nodal functional assessment was performed at baseline and following steady-state drug infusion of intravenous esmolol at a dose of 500 micrograms/kg for 1 minute, 150 micrograms/kg per minute for the next 4 minutes, followed by a continuous maintenance infusion of 50 to 100 micrograms/kg per minute. The anterograde effective refractory period of the fast pathway increased from 381 +/- 75 msec at baseline to 453 +/- 92 msec during the infusion of esmolol (P = 0.003). The anterograde effective refractory period of the slow pathway was also prolonged by esmolol, from 289 +/- 26 msec to 310 +/- 17 msec (P = 0.005). However, the absolute magnitude of the change in the anterograde effective refractory period of the fast pathway (+72 +/- 59 msec) was significantly greater than the change in anterograde effective refractory period of the slow pathway (+21 +/- 16 msec, P = 0.01). The mean retrograde effective refractory period of the fast pathway increased from 276 +/- 46 msec to 376 +/- 61 msec during esmolol infusion (P = 0.03). Retrograde slow pathway conduction that could not be demonstrated at baseline became manifest in three patients during esmolol infusion. In contrast to the effects of esmolol on refractoriness, the AH interval during anterograde slow pathway conduction prolonged to a far greater extent (+84 msec) than the HA interval associated with retrograde fast pathway conduction (+5 msec, P = 0.04).

CONCLUSION

The beta-adrenergic antagonist, esmolol, has a quantitatively greater effect on anterograde refractoriness of the fast than the slow AV nodal pathway. However, the effects on conduction intervals during AVNRT are greater in the anterograde slow pathway than in the retrograde fast pathway. These observations suggest that the fast and slow pathways may have differential sensitivities to autonomic influences. This difference in the response to beta-adrenergic antagonists may be exploited as a clinically useful method for demonstrating slow pathway conduction in some individuals with AVNRT.

Dynamic behavior of the atrioventricular node: a functional model of interaction between recovery, facilitation, and fatigue

The wide variety of delays that the atrioventricular node can generate in response to an increased rate are explained by dynamic interactions between the three intrinsic properties of recovery, facilitation, and fatigue. The functional model presented suggests that any deviation of nodal conduction time from its minimum basal value represents, at any given time, the net sum of the effects produced by these properties. When a constant fast atrial rate is suddenly initiated, the node first "sees" a shortening in recovery time and responds by an increase in conduction time. This increase further shortens the recovery time of the ensuing beat, which is accordingly further delayed, and so on until a steady state is reached or a block occurs. However, these events do not occur alone. The second beat at the fast rate is conducted with a shorter conduction time than expected from the recovery time alone, and is therefore facilitated. These facilitatory effects develop within one short cycle and dissipate within one long cycle. They affect increasingly the conduction time of beats occurring with shorter cycle lengths. While steady-state effects of recovery and facilitation occur within seconds, nodal conduction time continues to increase slowly over several minutes when a rapid rate is maintained. This effect is attributed to fatigue, which develops and dissipates with a slow, symmetric time course. The dynamics of these properties can now be directly studied with selective stimulation protocols, and have many implications for the understanding of nodal behavior in the context of supraventricular tachyarrhythmias.

Radiofrequency catheter ablation for paroxysmal supraventricular tachycardia: a report of 135 procedures

BACKGROUND

Paroxysmal Supraventricular Tachycardia (PSVT) is a common condition which until recently has been treated with anti-arrhythmic drugs or surgery. Radiofrequency (RF) catheter ablation is a new mode of treatment which provides a cure of this condition.

AIMS

To present our early experience of RF catheter ablation for PSVT.

METHODS

One hundred and thirty-five procedures were performed in 117 patients. The diagnostic study and therapeutic catheter ablation were performed as a combined electrophysiological procedure in 74 patients (63%). In 58 patients (50%), PSVT was due to Atrio-ventricular junctional (nodal) re-entrant tachycardia (AVJRT). Twenty-five of the 58 patients underwent a fast pathway ablation while 33 had ablation of their slow pathway. The mean number of radiofrequency pulses delivered was ten for a mean duration of 25 seconds. Radiofrequency ablation of accessory pathways was attempted in 58 patients; pathways were left-sided in 29 patients, postero-septal in 21, midseptal in five, Mahaim connection in two, antero-septal in one and right free wall in one patient. One patient with incessant automatic atrial tachycardia also underwent a successful RF ablation.

RESULTS

Using RF ablation cure of PSVT was achieved in 90% of patients. Cure of AVJRT was achieved in 95% (55/58) of patients using either fast or slow pathway ablation. Only one patient required permanent pacemaker implantation for Mobitz type I AV block following fast pathway ablation. The overall success rate for ablation of accessory pathways was 85%. There is an operator learning curve for this procedure suggested by the fact that the success rate for accessory pathway ablation at first attempt was 63% in the first 29 patients and 93% in the remaining 29. There was no significant morbidity or mortality during or after the procedure. In a mean follow-up of nine months in the patients with successful ablation only two patients with AVJRT had a recurrence of documented PSVT. Both these patients had successful repeat RF ablation. Catheter ablation using radiofrequency energy is an effective and safe therapeutic option for patients with symptomatic PSVT.

Electrophysiology and long-term efficacy of pentisomide in patients with supraventricular tachycardia

The electrophysiologic effects of pentisomide were investigated after intravenous (5 mg/kg) and oral (900-1200 mg three times a day) application in 9 patients with drug refractory atrioventricular nodal tachycardia and 6 patients with orthodromic atrioventricular re-entrant tachycardia. Pentisomide did not change sinus cycle length, effective refractory period of the right ventricle and the atrioventricular node. AH, HV interval, effective refractory period of the right atrium, QRS duration and QTc duration were (p less than or equal to 0.01) increased. Tachycardia cycle length was only increased after intravenous application of pentisomide, antegrade effective refractory periods of the accessory pathways and shortest fully pre-excited R-R intervals during atrial fibrillation were increased after the oral treatment phase (p = 0.054). Intravenous pentisomide prevented tachycardia in 6/9 patients with atrioventricular nodal tachycardia and in 2/6 patients with atrioventricular re-entrant tachycardia. If intravenous pentisomide did not prevent induction of the tachycardia, oral pentisomide was not effective either. During long-term follow-up 2/7 patients with atrioventricular nodal tachycardia and 1/4 patient with atrioventricular re-entrant tachycardia had a recurrence. Long-term treatment with pentisomide had to be discontinued because of possible side effects in 2 patients. It is concluded, that the electrophysiological effects of pentisomide are similar to those of flecainide and propafenone.

Intravenous 3-methoxy-O-desmethyl-encainide in reentrant supraventricular tachycardia: a randomized double-blind placebo-controlled trial in patients undergoing EP study

Encainide is an agent effective in atrioventricular and atrioventricular nodal reentrant tachycardia. The metabolites O-desmethyl encainide and 3-methoxy-O-desmethyl encainide (MODE) are responsible for the clinical effects of encainide in most patients. In this study, intravenous MODE was evaluated in eight patients with reentrant supraventricular tachycardia undergoing electrophysiological testing. After tachycardia was induced at least twice to ensure reproducibility, MODE (30 micrograms/kg/min x 15 min, then 7.5 micrograms/kg/min) or placebo was administered in a double-blind fashion. If tachycardia remained inducible, the infusion was unblinded; in nonresponding subjects who received placebo, MODE was then administered. Placebo was ineffective in 3/3 patients. MODE prevented tachycardia induction in 5/8 patients and increased the tachycardia cycle length from 302 +/- 38 to 413 +/- 67 msec in the other three. At a mean concentration of 774 +/- 229 ng/ml, MODE prolonged PR, AH, HV, QRS, and QT intervals, right ventricular and accessory pathway effective refractory periods, and slowed or blocked antegrade accessory pathway conduction. Changes in intracardiac conduction were rate independent between cycle lengths 400 to 600 msec, while changes in ventricular effective refractory periods were most pronounced at rapid pacing rates. No adverse effects, hemodynamic changes, or conduction disturbances occurred. Thus, MODE can modify or suppress induction of reentrant atrioventricular or atrioventricular nodal tachycardia. The study design used here is well suited for the evaluation of newer antiarrhythmic agents by electrophysiological testing.

Diagnosis and cure of the Wolff-Parkinson-White syndrome or paroxysmal supraventricular tachycardias during a single electrophysiologic test

BACKGROUND

We conducted this study to determine the feasibility of an abbreviated therapeutic approach to the Wolff-Parkinson-White syndrome or paroxysmal supraventricular tachycardia, in which the diagnosis is established and radiofrequency ablation carried out during a single electrophysiologic test.

METHODS

One hundred six consecutive patients were referred for the management of documented, symptomatic paroxysmal supraventricular tachycardias (66 patients) or the Wolff-Parkinson-White syndrome (40 patients). All agreed to undergo a diagnostic electrophysiologic test and catheter ablation with radiofrequency current. No patient had had such a test previously.

RESULTS

Among the 66 patients with paroxysmal supraventricular tachycardias, the mechanism was found to be atrioventricular nodal reentry in 46 (70 percent) (typical in 44 and atypical in 2), atrioventricular reciprocating tachycardia involving a concealed accessory pathway in 16 (24 percent), atrial tachycardia in 2 (3 percent), and noninducible paroxysmal supraventricular tachycardia in 2 (3 percent). A successful long-term outcome was achieved in 57 of 62 patients (92 percent) with paroxysmal supraventricular tachycardia in whom ablation was attempted and in 37 of 40 patients (93 percent) with the Wolff-Parkinson-White syndrome. The only complications were one instance of occlusion of the left circumflex coronary artery, leading to acute myocardial infarction, and one instance of complete atrioventricular block. The mean (+/- SD) duration of the electrophysiologic procedures was 114 +/- 55 minutes.

CONCLUSIONS

The diagnosis and cure of paroxysmal supraventricular tachycardia or the Wolff-Parkinson-White syndrome during a single electrophysiologic test are feasible and practical and have a favorable risk-benefit ratio. This abbreviated therapeutic approach may eliminate the need for serial electropharmacologic testing, long-term drug therapy, antitachycardia pacemakers, and surgical ablation.

Electrophysiological effects of nicainoprol in patients with paroxysmal supraventricular tachycardias

The electrophysiological effects of nicainoprol, a new class I antiarrhythmic drug, were evaluated in 29 patients with supraventricular reentrant tachycardias, due to accessory pathways in 15 and dual atrioventricular nodal pathways in 14 patients. Nicainoprol was administered intravenously as a bolus followed by continuous infusion of 1.5 mg/kg in two and of 2 mg/kg in 27 patients over one hour. Nicainoprol was given as a bolus of 1.5-2 mg/kg during sinus rhythm in 11 patients or during induced supraventricular tachycardia in 18. The drug successfully terminated the tachycardia in 17 patients due to block in the retrograde tachycardia limb in 15 and the antegrade limb in 2 patients. Prolongation of the cycle length preceded the termination in each case. In one case, the termination could not be achieved despite the administration of 3 mg/kg. The sinus cycle length, heart rate corrected QT interval as well as right atrial and right ventricular effective refractory periods remained unchanged. In contrast, the intranodal and infranodal conduction times, as well as QRS duration, were prolonged significantly. In patients with dual atrioventricular nodal pathways, there was a significant (P less than 0.05) increase of the effective refractory periods of the anterograde slow pathways. The changes of the anterograde fast pathways, however, did not reach significance level. More pronounced effects were found on effective refractory periods of the retrograde pathways, which were blocked in 4 patients and significantly (P less than 0.05) prolonged in the remainder. Similarly, in patients with accessory pathways the effect on the retrograde conduction was more marked with complete block in 5 patients and significant prolongation of effective refractory periods and shortest paced cycle lengths in the remainder.(ABSTRACT TRUNCATED AT 250 WORDS)

Electrophysiologic and clinical effects of oral encainide in paroxysmal atrioventricular node reentrant tachycardia

The electrophysiologic effects of oral encainide (75 to 150 mg daily) were evaluated in 14 patients (6 male and 8 female, aged 49 +/- 9 years) with atrioventricular (AV) node reentrant tachycardia of the slow-fast type. The patients were studied in control conditions and after 2 to 12 days of treatment. Encainide increased the AH interval from 67 +/- 10 to 82 +/- 23 ms (p less than 0.02). Anterograde Wenckebach cycle length was increased in three patients, reduced in four, unchanged in one; it was not measurable in the remaining patients because tachycardia was induced. Retrograde Wenckebach periodicity increased from 307 +/- 71 to 401 +/- 92 ms (p less than 0.005) in all nine patients in whom it was measurable; complete retrograde block was observed in one patient. At the control study, tachycardia was induced in all patients, with a mean cycle length of 341 +/- 50 ms; after encainide, tachycardia was inducible in only 1 patient, with an increase in cycle length from 270 to 320 ms; in the other patients, tachycardia was not inducible because of a lack of retrograde (11 patients) or anterograde (2 patients) conduction. The mean plasma concentrations of encainide and its metabolites O-demethyl-encainide and 3-methoxy-O-demethyl-encainide measured in 13 patients during the repeat study were 161 +/- 304, 128 +/- 100 and 95 +/- 85 ng/ml, respectively; three poor metabolizers who presented a high concentration of the parent compound were observed in this series. All patients were discharged on encainide at a mean daily dose of 112 +/- 39 mg.(ABSTRACT TRUNCATED AT 250 WORDS)

Treatment of atrioventricular node reentrant tachycardia with encainide: reversal of drug effect with isoproterenol

To determine the efficacy of encainide in the treatment of atrioventricular (AV) node reentrant tachycardia, Holter electrocardiographic (ECG) monitoring, exercise treadmill testing and programmed electrical stimulation were performed in 16 patients while they were taking no medication and after steady state levels were reached during treatment with encainide (75 to 200 mg/day; mean 117 +/- 47). In addition, to study the possible reversal of drug effects by sympathetic stimulation, AV node conduction and tachycardia induction were reassessed during isoproterenol infusion (1 to 3 micrograms/min), a dose calculated to increase the rest heart rate by 25 +/- 10%. Sustained AV node reentrant tachycardia could be initiated in all 16 patients in the control state, in 2 patients after encainide and in 10 patients during isoproterenol infusion. The shortest mean atrial paced cycle length sustaining 1:1 AV conduction was 358 +/- 57 ms during the control study, which increased to 409 +/- 59 ms with encainide (p less than 0.01 versus control) and decreased to 313 +/- 31 ms during isoproterenol infusion (p less than 0.01 versus control and encainide). The shortest mean ventricular paced cycle length with 1:1 ventriculoatrial conduction was 337 +/- 56 ms in the control study, 551 + 124 ms with encainide infusion (p less than 0.01 versus control) and 354 +/- 72 ms during isoproterenol infusion in the encainide-loaded state (p less than 0.01 versus both control and encainide). During a mean follow-up period of 19 +/- 10 months, significant clinical recurrences occurred in 4 of the 10 patients in whom tachycardia could still be initiated with encainide (with or without isoproterenol).(ABSTRACT TRUNCATED AT 250 WORDS)

Comparison of encainide and quinidine for supraventricular tachyarrhythmias

The antiarrhythmic efficacy and tolerability of encainide and quinidine were compared in an open-design study in which 50 patients with recurrent supraventricular tachyarrhythmias received intravenous encainide in an initial phase and oral encainide and quinidine in a subsequent, randomized crossover phase. Oral encainide (75 to 200 mg/day), administered to 47 patients for an average of 4.7 months, was effective in 77%, and oral quinidine (1,200 mg/day), administered to 44 patients for an average of 3.2 months, was effective in 66% of the patients (difference not significant). When the duration of therapy at each crossover period was compared, the percentage of patients who continued to take encainide was consistently higher than the percentage who continued to take quinidine (p less than 0.01). Twenty-nine percent of the patients discontinued encainide treatment, 23% because of clinical inefficacy and 6% because of adverse effects. Fifty-nine percent of the patients discontinued quinidine treatment, 20% because of inefficacy and 39% because of adverse effects. Based on antiarrhythmic efficacy, encainide is at least as effective as quinidine in the treatment of patients with supraventricular tachyarrhythmias. However, because of encainide's much greater tolerability, it was distinctly superior in terms of clinical use. This study was an open-design, randomized crossover trial to compare the efficacy and tolerability of encainide with those of quinidine in the treatment of supraventricular tachyarrhythmias.

Efficacy and electrophysiologic effects of encainide for atrioventricular nodal reentrant tachycardia

To prospectively determine the clinical efficacy and electrophysiologic effects of encainide in atrioventricular nodal reentrant tachycardia (AVNRT), 49 patients refractory to 2.7 +/- 1.5 previous antiarrhythmic drug trials underwent electrophysiologic study before and 47 did so after administration of oral encainide (75 to 240 mg/day). Encainide prolonged the minimum atrial pacing cycle length maintaining 1:1 atrioventricular (AV) nodal conduction from 334 +/- 55 to 391 +/- 55 ms (p = 0.0001). Encainide induced ventriculoatrial (VA) block in 12 patients (25%) and slowed the minimum ventricular pacing cycle length maintaining 1:1 VA conduction from 315 +/- 46 to 485 +/- 89 ms (p = 0.0001) in the remaining 35 patients. After encainide, AVNRT was not inducible in 32 of 47 patients (68%) primarily because of the effects on retrograde AV nodal conduction. In the remaining 15 (32%) patients, AVNRT remained inducible; however, the tachycardia cycle length slowed from 397 +/- 86 to 492 +/- 90 ms (p = 0.0001). There was no significant difference in the baseline minimum ventricular pacing cycle length maintaining 1:1 VA conduction in patients whose inducible tachycardia was or was not suppressed. Forty-seven patients were treated for 18.9 +/- 12.9 months (range 1 to 50) with oral encainide. Encainide was completely effective in eliminating recurrences of supraventricular tachycardia in 26 of 47 patients (55%) and partially effective in an additional 42%. Recurrences of arrhythmia occurred in 15 of 32 patients (47%) whose inducible tachycardia was suppressed by encainide and 7 of 15 patients (47%) whose inducible tachycardia was not suppressed by encainide (p = not significant).(ABSTRACT TRUNCATED AT 250 WORDS)

Role of adrenergic stimulation by isoproterenol in reversal of effects of encainide in supraventricular tachycardia

Reversal of the electrophysiologic effects of oral encainide with isoproterenol was evaluated in 16 patients with atrioventricular (AV) nodal reentry (group A) and in another 16 patients with Wolff-Parkinson-White syndrome (group B). Sustained AV nodal reentry was induced in all group A cases before administration of encainide, in 2 cases after oral encainide, and in 12 patients during infusion of isoproterenol. Among group B cases, 14 of 16 had sustained AV reentry during control, 6 of 16 after receiving encainide, and 8 of 16 with addition of isoproterenol. During a mean follow-up of 19 +/- 10 months in group A and 17 +/- 9 months in group B, clinical tachycardia recurred in 8 patients (4 from each group). These 8 patients were among the 20 patients who demonstrated (1) isoproterenol-induced reversibility of encainide-suppressed tachycardia, or (2) acceleration of tachycardia rate slowed by encainide. No recurrences were seen among any of the 12 cases in which isoproterenol failed to reverse the encainide-induced tachycardia suppression. Patients with clinical recurrences were controlled with a variety of means, which included beta blockers in 3 and nonpharmacologic methods in the remaining 5. In patients with AV junctional tachycardia treated with oral encainide, our findings suggest that lack of tachycardia inducibility with isoproterenol predicts freedom from clinical recurrences. Furthermore, addition of a beta blocker to oral encainide may prevent clinical recurrence in some who demonstrate adrenergic reversal of encainide effect.

Use of intracardiac recordings to determine the site of drug action in paroxysmal supraventricular tachycardia

Paroxysmal supraventricular tachycardia most often results from atrioventricular (AV) reentry using an accessory AV pathway (Wolff-Parkinson-White syndrome) or reentry within the region of the AV node. In AV reentry, using an accessory pathway, suppression of the tachycardia may be achieved by depressing either anterograde AV nodal conduction or retrograde accessory pathway conduction. Intracardiac recordings and programmed electrical stimulation have established that beta-adrenergic antagonists and calcium channel blockers principally affect AV nodal conduction (anterograde limb of the reentrant circuit), whereas class IA and IC agents principally affect the accessory AV pathway (retrograde limb). Pharmacologic therapy has been more effective when directed at the limb in which conduction is most marginal at the tachycardia rate (weak limb). In individual patients, intracardiac recordings and programmed electrical stimulation can be used to identify the weak limb, indicating the class of agents most likely to be effective. Specialized techniques allowing direct recording of accessory pathway activation suggest that limitations in accessory pathway conduction may be explained by anatomic impediments. Conduction is most limited at the atrial interface of the accessory pathway in some patients, whereas in others the ventricular interface may be the limiting factor. Class IA and IC agents appear to have the greatest effect at sites where conduction is most tenuous, i.e., at the anatomic impediments. Similar considerations apply to AV nodal reentry. Anterograde slow AV nodal pathway conduction is most often depressed by digitalis preparations, beta-adrenergic antagonists, and calcium channel blockers, whereas retrograde fast AV nodal pathway conduction is more often depressed by class IA and IC agents. Intracardiac recordings and programmed electrical stimulation can also be used in these patients to identify the weak limb and direct pharmacologic therapy. Direct catheter recordings of AV nodal conduction remain elusive, limiting knowledge of the different conduction properties of the anterograde and retrograde limbs and the site(s) of drug action. Studies in progress, comparing the retrograde AV nodal conduction time during tachycardia with that during ventricular pacing at the same rate, suggest that the His bundle may be incorporated in the reentrant circuit in some patients. It appears that verapamil more readily depresses retrograde fast pathway conduction in these patients than in those in whom the His bundle does not form part of the reentrant circuit, but the reasons for this are unknown.

Effects of upright posture on atrioventricular nodal reentry and dual atrioventricular nodal pathways

The electrophysiologic effects of upright posture (45 degrees upright tilt) were studied in 17 patients with dual atrioventricular (AV) nodal pathways, AV nodal reentry or both. Discontinuous AV nodal conduction curves were observed in 16 patients while supine, but in only 11 patients while upright. Fast pathway refractoriness was shortened: the anterograde fast pathway effective refractory period decreased from 360 +/- 22 to 275 +/- 14 ms (mean +/- standard error of the mean), the anterograde fast pathway block cycle length shortened from 448 +/- 28 to 348 +/- 20 ms and the retrograde fast pathway block cycle length shortened from 425 +/- 29 to 338 +/- 24 ms (all p less than 0.01). The anterograde slow pathway block cycle length shortened from 378 +/- 29 to 316 +/- 17 ms (p less than 0.05). AV nodal reentrant tachycardia was induced in 5 patients while supine (2 sustained, 3 nonsustained) and in 6 patients while upright (4 sustained, 2 nonsustained). Tachycardia cycle length shortened during upright posture, from 413 +/- 30 to 345 +/- 22 ms (p less than 0.01), primarily due to shortened anterograde slow pathway conduction time, from 322 +/- 23 to 268 +/- 20 ms (p less than 0.05). Upright posture thus enhances conduction in patients with dual AV nodal pathways, facilitating AV nodal reentry. Electrophysiologic testing in the upright position may yield additional clinical important information in patients with dual AV nodal pathways.

Usefulness of isoproterenol in facilitating atrioventricular nodal reentry tachycardia during electrophysiologic testing

In some patients with documented atrioventricular (AV) nodal supraventricular tachycardia (SVT), the arrhythmia is not inducible during a standard stimulation protocol. In these patients the level of sympathetic activity may be an important factor. This study evaluates the influence of isoproterenol on anterograde and retrograde pathway properties in patients with AV nodal SVT and the mechanism by which this SVT is facilitated. Group 1 consisted of 8 consecutive patients, ages 23 to 85 years (mean +/- standard error, 57 +/- 8) who had no inducible AV nodal SVT during electrophysiologic testing until isoproterenol (0.5 to 3.0 micrograms/min) was infused. These patients were compared with 6 patients in the same age range (45 to 78 years, mean +/- standard error, 64 +/- 5) who had inducible AV nodal SVT without isoproterenol and who comprised group 2. In comparing group 1 (before isoproterenol) with group 2, there was no significant difference in the refractory periods of the anterograde slow and fast pathways, although the anterograde block cycle length was longer in group 1 patients (421 +/- 18 vs 362 +/- 14 ms, p less than 0.05). The retrograde block cycle length was also longer in 7 of the 8 group 1 (before isoproterenol) patients in whom it could be measured versus those in group 2 (411 +/- 14 vs 318 +/- 27 ms, p less than 0.05). During isoproterenol, the anterograde and retrograde block cycle lengths in group 1 were not different from group 2. Therefore, AV nodal SVT may not be inducible in some patients during routine electrophysiologic testing.(ABSTRACT TRUNCATED AT 250 WORDS)

Control of cardiac arrhythmias by calcium antagonism

In recent years calcium channel blockers have emerged as a new class of antiarrhythmic agents for the control of certain supraventricular and ventricular arrhythmias. Electrophysiologically, they are heterogeneous but their main action is mediated through a depressant effect on the slow calcium channel in cardiac muscle. In isolated muscle, their actions are modulated by their reflex actions and by their interaction with the autonomic nervous system due to the nonocompetitive adrenergic blocking actions that some of the compounds exhibit. The major agents exerting antiarrhythmic actions are verapamil, diltiazem, gallopamil, tiapamil, and bepridil; the dihydropyridines are devoid of significant electrophysiologic actions in vivo. Calcium antagonists prolong intranodal conduction time, lengthen the effective and functional refractory periods in the AV node, but exert little or no effect on atrial, ventricular, His-Purkinje, or bypass tract conduction or refractoriness (except in the case of bepridil, which has additional electrophysiologic properties). These effects form the basis of the clinical antiarrhythmic effects of this class of agents. The most striking action is the predictable and prompt termination of reentrant supraventricular tachycardia by intravenous verapamil and diltiazem and the slowing of the ventricular response in atrial flutter and fibrillation. These agents may also be of value in the chronic control of ventricular response in atrial flutter and fibrillation; their role in multifocal atrial tachycardia and other ectopic tachycardias is less well defined. Calcium antagonists reverse ischemic ventricular arrhythmias due to coronary artery spasm but exert little or no action in the usual forms of sustained ventricular tachyarrhythmias associated with severe structural heart disease. They are poor suppressants of premature ventricular contractions. Recent data have established their role in exercise-induced tachycardia occurring in the context of ischemic heart disease; they are also of value in ventricular tachycardia occurring in young subjects developing tachycardia with a right bundle branch block with left axis deviation morphology, an arrhythmia thought to be due to triggered automaticity. The role of calcium antagonists in reducing the incidence of sudden death in the survivors of acute myocardial infarction remains uncertain.

An approach to therapy for paroxysmal supraventricular tachycardia

A variety of options are available for managing recurrent paroxysmal supraventricular tachycardia. These options include empirical drug therapy on a trial and error basis, drug therapy based on the results of electrophysiologic testing and nonpharmacologic treatment including operative therapy, catheter ablation and antitachycardia devices. Empirical drug therapy is appropriate when the tachycardia is relatively well tolerated and the patient has access to a medical facility. Therapy guided by electrophysiologic testing is more appropriate for patients with severe symptoms during tachycardia, patients with a potential for more serious arrhythmias such as atrial fibrillation in the Wolff-Parkinson-White syndrome and in patients who have failed to respond to empirical trials of drug therapy. Electrophysiologic testing usually provides information about the precise mechanism responsible for the tachycardia and allows verification of drug efficacy. It is a strict prerequisite for operative, ablative or antitachycardia device therapy. The choice of therapy depends a great deal on local expertise, patient preference and individual considerations. Operative therapy is very successful in patients with supraventricular tachycardia associated with the Wolff-Parkinson-White syndrome and should be given high priority as an option in younger patients facing a lifelong commitment to antiarrhythmic drugs.

Long-term efficacy and safety of beta-adrenergic receptor antagonists for supraventricular tachycardia

The efficacy and safety of nadolol and atenolol, 2 new long-acting beta-adrenergic receptor antagonists, were evaluated in patients with recurrent supraventricular tachycardia (SVT). Intravenous and oral drug therapy was administered to patients with atrioventricular reentrant tachycardia and atrioventricular nodal reentrant tachycardia. Efficacy was judged on a short-term basis by programmed electrical stimulation and on a long-term basis by clinical parameters and serial ambulatory electrocardiographic recordings during long-term follow-up. In addition, the usefulness of programmed electrical stimulation to predict long-term efficacy was evaluated. Intravenous nadolol prevented induction of SVT in 6 of 8 (75%) patients with atrioventricular nodal reentrant tachycardia, and oral nadolol prevented induction of SVT in 5 of 6 (83%) responders to intravenous nadolol. No episodes of sustained SVT recurred in these 5 patients during follow-up. Intravenous nadolol also prevented induction of SVT in 2 of 17 (11%) patients with atrioventricular reentrant tachycardia. Both patients remained non-inducible during treatment with oral nadolol, and neither experienced recurrence of SVT during follow-up. Intravenous atenolol prevented induction of SVT in 5 of 6 (83%) patients with atrioventricular nodal reentrant tachycardia. Oral atenolol prevented induction of atrioventricular nodal reentrant tachycardia in 4 of 5 (80%) patients responding to intravenous atenolol, and none of these 4 patients experienced a clinical recurrence. Intravenous atenolol prevented induction of SVT in 1 of 4 (25%) patients with atrioventricular reentrant tachycardia. Oral atenolol prevented induction of SVT in this patient and the arrhythmia has not recurred during follow-up. During follow-up (1 to 37 months), drug tolerance and compliance have been excellent with a low incidence of adverse reactions (11%).(ABSTRACT TRUNCATED AT 250 WORDS)

Efficacy and safety of intravenous nadolol for supraventricular tachycardia

In a double-blind, placebo-controlled, parallel trial of intravenous nadolol in the treatment of sustained supraventricular tachycardia (SVT), 29 patients (20 men, 9 women) were studied. Mean age was 55 years and all patients were required to have well-documented SVT with a ventricular rate greater than or equal to 120/min that was sustained for at least 30 minutes. Patients received sequential doses of 0.01, 0.02 and 0.04 mg/kg of nadolol or placebo at 10 minute intervals. The maximum total dosage of nadolol was 10 mg. Measurements taken during 10 minute monitoring periods after each administration included heart rate, ventricular rate and systolic and diastolic blood pressures. A positive response was defined as a greater than or equal to 20% decrease in heart rate, heart rate less than or equal to 100 beats/min or conversion to normal sinus rhythm. Eleven (79%) of patients given nadolol and 3 (20%) of placebo-treated patients demonstrated a positive response. Of the 11 responders to nadolol, 9 patients responded after the first dose, one after the second dose and one after the third dose. Significant (p less than 0.001) mean reductions in heart rate and ventricular rate were observed with nadolol, but not with placebo. Five (36%) of the patients given nadolol and only 2 (14%) of the patients who received placebo were converted to normal sinus rhythm. Adverse effects were limited to 1 episode of asymptomatic hypotension and 1 episode of wheezing with nadolol and 1 episode of asymptomatic hypotension with placebo. Nadolol is effective in controlling ventricular response in patients with sustained SVT.(ABSTRACT TRUNCATED AT 250 WORDS)

Electrocardiographic and electrophysiologic effects of pirmenol in ventricular tachycardia

Twenty patients with ventricular tachycardia refractory to drug treatment underwent electrophysiologic study with pirmenol. Patients ranged in age from 39 to 84 years (mean 61); the presenting arrhythmia was sustained ventricular tachycardia in 15, nonsustained ventricular tachycardia in 3 and ventricular fibrillation in 2. After discontinuation of all antiarrhythmic drugs (for at least 5 half-lives) and assessment of electrocardiographic and electrophysiologic parameters in the drug-free state, patients underwent comprehensive intracardiac electrophysiologic evaluation with intravenous pirmenol (mean dose 195 +/- 46 mg). Programmed ventricular stimulation began at least 30 minutes after pirmenol infusion was started in each patient. There was significant shortening of sinus cycle length in all patients, from 746 +/- 155 to 683 +/- 107 ms (mean +/- standard deviation). In 7 patients in whom ventricular tachycardia could not be induced after intravenous pirmenol, an oral pirmenol regimen was begun. The dosage was 200 or 250 mg (both 3 times/day) in 2 and 5 patients, respectively. Seven hours after the third dose of oral drug was given, these patients underwent repeat electrophysiologic testing. Intravenous and oral pirmenol significantly prolonged the PR, QT, QTc and JT intervals compared with baseline. Intravenous pirmenol also significantly prolonged the QRS interval compared with baseline. Oral pirmenol significantly prolonged the sinus node recovery time compared with intravenous pirmenol. Intravenous pirmenol significantly increased the HV interval compared with control; oral pirmenol did not demonstrate a significant prolongation of the HV interval, but this is due to the smaller number of patients studied while taking oral drug.(ABSTRACT TRUNCATED AT 250 WORDS)

Electrophysiologic effects, clinical efficacy and safety of intravenous and oral nadolol in refractory supraventricular tachyarrhythmias

The electrocardiographic and electrophysiologic effects, clinical efficacy and safety of intravenous and oral nadolol therapy were examined in 34 patients with recurrent supraventricular tachyarrhythmias (SVT) undergoing electrophysiologic evaluation. Programmed electrical stimulation was performed in the control (drug-free) state, after infusion of intravenous nadolol (mean dose 0.09 +/- 0.03 mg/kg) and after chronic oral nadolol therapy in patients who responded to intravenous nadolol (mean dose 83 +/- 12 mg for 5 days). Intravenous nadolol administration prolonged mean sinus cycle length (p = 0.009), mean PR interval (p = 0.001) and mean AH interval (p = 0.001), with no significant electrophysiologic effects in the atrium, ventricle or accessory bypass tracts. Oral nadolol had similar electrocardiographic and electrophysiologic effects, but of lesser magnitude. Intravenous nadolol resulted in complete suppression of induced SVT in 78% of patients with sinus and atrioventricular nodal reentrant tachycardia and 11% of patients with atrioventricular (AV) reentrant tachycardia (p less than 0.001). Partial responses were frequent in intraatrial or AV reentrant tachycardia (37%). Oral nadolol suppressed induction of SVT in patients who responded to intravenous nadolol. Adverse reactions to intravenous and oral nadolol were infrequent--6% and 8%, respectively--and usually did not require drug withdrawal. Intravenous nadolol is highly effective in sinus and AV nodal reentrant tachycardia, and a successful electrophysiologic response to it predicts efficacy of long-term oral nadolol therapy. It has limited efficacy alone in AV reentrant tachycardia and should be considered in combination with other antiarrhythmic therapy in this type of SVT.

Use of calcium antagonists for cardiac arrhythmias

Calcium antagonists have emerged as a new class of antiarrhythmic agents for the control of certain supraventricular and ventricular arrhythmias. Electrophysiologically, these agents are heterogeneous but their main action is mediated through a depressant effect on the slow calcium channel in cardiac muscle, most readily demonstrated in isolated tissue preparations. In vivo, their actions are modulated by their reflex actions and by their interaction with the autonomic nervous system due to the noncompetitive adrenergic-blocking actions that some of the compounds exhibit. The major agents exerting antiarrhythmic actions are verapamil, diltiazem, gallopamil, tiapamil and bepridil; the dihydropyridines are devoid of electrophysiologic actions in vivo. Calcium antagonists prolong intranodal conduction time, lengthen the effective and functional refractory periods in the atrioventricular node but exert little or no effect on atrial, ventricular, His-Purkinje or bypass tract conduction or refractoriness (except in the case of bepridil, which has additional electrophysiologic properties). These effects form the basis of the clinical antiarrhythmic effects of this class of agents. The most striking action is the predictable and prompt termination of the reentrant supraventricular tachycardia by intravenous verapamil and diltiazem and the slowing of the ventricular response in atrial flutter and fibrillation. These agents may also be of value in the long-term control of ventricular response in atrial flutter and fibrillation; their role in multifocal atrial tachycardia and other ectopic tachycardias is less well defined. Calcium antagonists reverse ischemic ventricular arrhythmias caused by coronary artery spasm but exert little or no action in the usual forms of sustained ventricular tachyarrhythmias associated with severe structural heart disease. They are poor suppressants of ventricular premature complexes. Recent data have established their role in exercise-induced tachycardia occurring in the context of ischemic heart disease; they are also of value in ventricular tachycardia occurring in young patients who develop tachycardia with a right bundle branch block and left axis deviation morphology, an arrhythmia thought to be due to triggered automaticity.

Assessment of antiarrhythmic drug efficacy in the treatment of supraventricular arrhythmias

Few guidelines exist for judging the efficacy of antiarrhythmic drugs in patients with supraventricular arrhythmias. Useful definitions concerning the frequency and duration of supraventricular arrhythmias are offered, and complete and partial efficacy criteria are outlined for noninvasive electrocardiographic and invasive electrophysiologic techniques. Several open label, double-blind, parallel and crossover study designs are suggested for efficacy studies concerning the termination and prevention of supraventricular tachycardia. These recommendations are useful for designing new drug trials needed to evaluate properly the efficacy of antiarrhythmic agents in the treatment of various supraventricular arrhythmias.

Effect of pharmacologic autonomic blockade on ventriculoatrial conduction

To determine the influence of autonomic tone on retrograde ventriculoatrial (VA) conduction, incremental atrial and ventricular pacing was performed before and after pharmacologic autonomic blockade in 28 patients. VA conduction during ventricular pacing was demonstrated, with highest frequency in patients capable of 1:1 atrioventricular (AV) conduction at atrial paced cycle lengths of 300 ms or less (7 of 7, 100%). In subjects with 1:1 AV conduction at minimum cycle lengths of 300 to 500 ms, 14 of 21 (67%) demonstrated VA conduction in the control state; however, only 12 of 21 (57%) did so after autonomic blockade. The lowest frequency was observed in those capable of 1:1 AV conduction at minimum cycle lengths of 505 ms or more before and after autonomic blockade (2 of 7, [29%], p less than or equal to 0.02 compared with values in the first group). No change in the mean minimum ventricular paced cycle length at which 1:1 VA conduction could be maintained was demonstrated after autonomic blockade. In individual subjects, incremental change in this cycle length after autonomic blockade correlated positively with the corresponding change in minimum atrial cycle length at which 1:1 AV conduction could be maintained (r = 0.62, p less than 0.005), and was concordant in direction in 18 of 21. In conclusion, the sympathetic and parasympathetic modulation of VA conduction is balanced and concordant in direction to the effect on AV nodal conduction.

Long-term therapy with disopyramide phosphate: side effects and effectiveness

In this study, the safety and efficacy of long-term therapy with disopyramide phosphate were evaluated in 40 patients with documented, recurrent, symptomatic tachyarrhythmias. Twenty-one (53%) of the patients had organic heart disease, and nine of these patients had compensated congestive heart failure. The tachyarrhythmias which were treated were paroxysmal supraventricular tachycardia (21 patients), paroxysmal atrial fibrillation (six patients), and paroxysmal ventricular tachycardia (13 patients). In each patient there was evidence, from continuous ECG monitoring or electrophysiologic testing, that disopyramide would be effective therapy, and each patient was able to tolerate disopyramide (no side effects or tolerable side effects) during an initial trial period of 1 to 2 weeks. Dosages of disopyramide were 400 to 1600 mg/day (994 +/- 320 mm/day). During long-term therapy, side effects were reported by 28 (70%) of the patients. The side effects were usually anticholinergic, and were usually a continuation of side effects noted during the initial trial period. None of the patients had idiosyncratic reactions to disopyramide. Most of the patients found side effects to be tolerable; however, in seven patients it was necessary to discontinue disopyramide after 1 to 8 (6 +/- 3) months. Actuarial incidence of intolerable side effects was 21 +/- 7% at 12 months. Nine (22%) of the 40 patients had symptomatic recurrences of tachyarrhythmia after 3 to 32 (15 +/- 9) months of therapy. Actuarial incidence of drug ineffectiveness was 32 +/- 10% at 24 months. Disopyramide was both effective and tolerated in 24 (60%) of the patients, who were followed for 2 to 64 (23 +/- 16) months.(ABSTRACT TRUNCATED AT 250 WORDS)

The value of intracardiac electrophysiologic techniques in recurrent syncope of "unknown cause"

We prospectively evaluated and followed-up 45 patients with syncope in whom conventional cardiovascular and neurological investigations did not reveal the cause. All patients underwent electrophysiologic studies to assess the function of the sinus node and the integrity of atrioventricular conduction. These included the ajmaline test and the inducibility of supraventricular or ventricular tachycardia. Seven patients (15.5%) had evidence of sinus node dysfunction, 8 patients (17.7%) had evidence of infra-His atrioventricular block after ajmaline administration and 5 patients (11.1%) had inducible ventricular tachycardia. The remaining 25 patients (55.5%) had non-diagnostic studies. All patients with sinus node dysfunction and inducible infra-His atrioventricular block were asymptomatic during a mean follow-up period of 14.3 +/- 9.5 months after implantation of a permanent pacemaker. Patients with inducible ventricular tachycardia (except 1 with poor left ventricular function who died) were likewise asymptomatic while receiving laboratory guided anti-arrhythmic drug therapy. Twenty-five patients with non-diagnostic studies who were treated empirically are alive but the symptoms persist in 14 (56%). Provocative electrophysiological studies are of diagnostic and therapeutic utility in a significant number of patients with recurrent syncope of "unknown cause".