Regional refractoriness within the ventricular conduction system. An evaluation of the "gate" hypothesis

We studied the refractoriness of Purkinje fibers with the intent of localizing critical sites of block of premature impulses. To preserve the ventricular conducting system (VCS) nearly intact in vitro, we used a modification of the Elizari preparation. This was superfused with a physiologic salt solution. Action potential durations increased progressively from the His bundle to the distal Purkinje fibers along three pathways: (1) the main right bundle branch and moderator band; (2) the anterior border fibers of the left bundle and anterior false tendons; (3) the posterior border fibers of the left bundle and posterior false tendons. The action potential durations near the terminations of the false tendons were the longest ones found. The interior fibers of the left bundle branch had action potentials of shorter duration and greater variability than those of simultaneously activated fibers in the right bundle branch or the border fibers of the left bundle branch. Similarly, on the right side, the septal branches of the right bundle had action potentials of shorter duration than those of the moderator band. We also found that the fibers with short action potential durations provided the quickest pathways to septal myocardium. When extrastimuli were applied to the His bundle, block in a bundle branch always occurred in the proximal 1 or 2 cm of the main bundle branch. Experiments performed in vivo in which extrastimuli were delivered to the atrium or His bundle and recordings made from the terminations of false tendons and the distal ends of the main right bundle branch confirmed the finding that the critical sites of block were located in the proximal main bundle branches.     

The retrograde His bundle deflection: its recognition and value in the analysis of tachyarrhythmias induced by stimulation on the T wave

Interpretation of deflections presumably retrograde His bundle in origin has to be performed in context considering the coexisting changes in simultaneously recorded intracardiac and surface leads. His bundle electrocardiography thus conceived is helpful in the analysis of the runs of ectopic beats elicited by premature ventricular stimulation during the antecedent T wave in patients without coronary artery or primary myocardial disease. Identification of AV nodal echoes within the paroxysms as well as the subsequent runs of reciprocating tachycardias, was possible in patients with and without preexcitation, although a thorough study of these cases also requires recording of coronary sinus and low lateral right atrial electrograms. The behavior of the retrograde H deflection in respect to the first extra beat following the premature QRS complex helped in excluding bundle branch reentry. The latter is improbable in patients with 'complete' bundle branch block pattern, if extra beats show a contralateral bundle branch morphology. However, in absence of bundle branch block, retrograde H deflections were not helpful in elucidating the mechanisms of pacemaker-induced intraventricular (bundle branch, fasicular or vulnerability-related) reentry.     

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In 34 successive patients with Wolff-Parkinson-White syndrome premature beats were induced from the right ventricular apex during reciprocating tachycardia (RT) at progressively shorter coupling intervals. The presence of an accessory pathway was confirmed by a reduction in the atrial cycle length (A-A interval) during which the premature ventricular beat was introduced. This retrograde preexcitation occurred at a time when the His-AV node pathway was refractory; i.e. there was premature activation of the atria over a pathway other than the His-AV node. 3 patients were excluded because of unsatisfactory or unstable H-H intervals. In the remaining 31 patients with constant preceding H-H intervals, the A-A interval shortened; (a) 35-65 msec in 4 patients with right-sided pathways and normal conduction during RT and by 110 msec in a 5th patient with a right-sided pathway, in whom bundle branch block aberration persisted during RT, (b) 45 msec in the single patient with both a right-sided and a septal accessory pathway, (c) 35-65 msec in 5 patients with septal pathways, and (d) 15-35 msec in only 4/20 patients with left-sided pathways and normal conduction during RT. Left-sided ventricular premature beats were introduced in 5 patients with left-sided pathways and normal conduction in RT. In 4/5, left-sided premature beats shortened the A-A interval 40-75 msec whereas right-sided premature beats at the same coupling interval failed to do so. In the fifth case, the left-sided premature resulted in a 65 msec abbreviation of the A-A interval compared to 30 msec from the right ventricular outflow tract and 15 msec from the right ventricular apex. In 5 patients with left-sided pathways, right ventricular premature beats were introduced during RT with left bundle branch block aberration, and shortened the A-A interval 30-50 msec in all of these, whereas right-sided premature beats in 4 of the 5 during normal conduction failed to do so. This technique is useful to confirm the participation of accessory pathways in reciprocating tachycardias associated with the preexcitation syndromes, and emphasizes the importance of the site of stimulation used relative to the location of the accessory pathway. Because of the possibility of multiple accessory pathways, stimulation of the left ventricle should be performed in patients undergoing surgery for preexcitation unless the left ventricle is already inplicated by right-sided studies.     

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Interrelations between QRS morphology, duration, and HV interval changes in a model of "complete" bundle branch block following right bundle branch radiofrequency ablation have not been subjected to systematic study. This article describes these interrelations in patients who underwent right bundle ablation. Over a period of 42 months, 16 patients underwent radiofrequency ablation of the right bundle for treatment of bundle branch reentrant tachycardia. All 16 patients had prolonged HV interval at baseline (minimum = 60 ms; mean = 68 +/- 8 ms). After ablation, one patient developed complete heart block; the remaining 15 patients developed complete right bundle branch block (RBBB) and further prolongation of the HV interval (increment = 24 +/- 16 ms). In 14 of these 15 patients, QRS duration was 138 +/- 26 ms before ablation and increased to 168 +/- 13 ms after ablation. In the remaining patient, the QRS duration was 160 ms before ablation and shortened to 144 ms following ablation despite further HV prolongation. Larger increases of HV interval after ablation were associated with smaller or negative changes in QRS duration (r = -0.77). Three was a direct relationship between QRS duration at baseline and the increment in HV interval after ablation (r = 0.70), and an inverse relationship between QRS duration before and after ablation (r = 0.84). Radiofrequency ablation of right bundle may be associated with an increase in HV interval and QRS duration. However, HV interval prolongation is not necessarily associated with QRS duration widening. A large change in HV interval is more likely to be associated with an already prolonged QRS duration before ablation and a lesser increase or even decrease in QRS duration after ablation. A shorter QRS duration before ablation is associated with a smaller HV interval increase following ablation but a greater increment in QRS duration. These findings are consistent with the concept that narrowness of QRS duration is due to synchronized activation of ventricular endocardium; whereas, QRS duration widening seen with His-Purkinje damage is due to reduced synchronization of endocardial activation.     

Fragments of artifactually created tissue intraoperatively retrieved from pericardial cavity

A case is presented in which low right ventricular pressure was calculated erroneously from the Doppler-derived velocity of flow through a ventricular septal defect. This is thought to be due to the presence of right bundle branch block. Reasons for this error and a way to avoid errors in calculation are discussed.     

Left anterior and left posterior hemiblock in tricuspid atresia and transposition of the great vessels: observations and electrocardiographic nomenclature and electrophysiologic mechanisms

A patient with tricuspid atresia and characteristic electrocardiographic features of counterclockwise and superiorly oriented frontal plane QRS loop (left anterior hemiblock) is presented. Operative intervention resulted in a clockwise and inferior rotation of the frontal QRS loop (left posterior hemiblock) without the development of complete left bundle branch block. This observation suggests that the electrocardiographic pattern of left anterior hemiblock may result from other mechanisms in addition to block of the left bundle branch fibers oriented toward the anterior part of the left ventricle. The case further suggests that electrocardiographic patterns of apparent A-V conduction defects may not be at all associated with true block in the A-V conduction system. Further, it emphasizes the fact that various electrophysiologic mechanisms may account for identical electrocardiographic patterns.     

Right ventricular radiofrequency ablation of ventricular tachycardia after myocardial infarction

Radiofrequency transcatheter ablation of ventricular tachycardia in the setting of a prior myocardial infarction is typically performed with application of energy to the left ventricular endocardium. In this article, two cases are described in which successful radiofrequency transcatheter ablation of ventricular tachycardia occurred with energy delivery to the right ventricular septum after failed ablation attempts from the left ventricle. Both patients had tachycardias with a left bundle branch block morphology and markedly presystolic activity recorded from the right ventricular septum. Right ventricular septal activation mapping during ventricular tachycardia should be performed in patients with left bundle branch block tachycardia morphology and coronary artery disease to maximize efficacy of the catheter ablation procedure.     

Verapamil-sensitive left anterior fascicular ventricular tachycardia: results of radiofrequency ablation in six patients

INTRODUCTION: Verapamil-sensitive left ventricular tachycardia (VT) with a right bundle branch block (RBBB) configuration and left-axis deviation has been demonstrated to arise from the left posterior fascicle, and can be cured by catheter ablation guided by Purkinje potentials. Verapamil-sensitive VT with an RBBB configuration and right-axis deviation is rare, and may originate in the left anterior fascicle. METHODS AND RESULTS: Six patients (five men and one woman, mean age 54+/-15 years) with a history of sustained VT with an RBBB configuration and right-axis deviation underwent electrophysiologic study and radiofrequency (RF) ablation. VT was slowed and terminated by intravenous administration of verapamil in all six patients. Left ventricular endocardial mapping during VT identified the earliest ventricular activation in the anterolateral wall of the left ventricle in all patients. RF current delivered to this site suppressed the VT in three patients (ablation at the VT exit). The fused Purkinje potential was recorded at that site, and preceded the QRS complex by 35, 30, and 20 msec, with pace mapping showing an optimal match between the paced rhythm and the clinical VT. In the remaining three patients, RF catheter ablation at the site of the earliest ventricular activation was unsuccessful. In these three patients, Purkinje potential was recorded in the diastolic phase during VT at the mid-anterior left ventricular septum. The Purkinje potential preceded the QRS during VT by 66, 56, and 63 msec, and catheter ablation at these sites was successful (ablation at the zone of slow conduction). During 19 to 46 months of follow-up (mean 32+/-9 months), one patient in the group of ablation at the VT exit had sustained VT with a left bundle branch block configuration and an inferior axis, and one patient in the group of ablation at the zone of slow conduction experienced typical idiopathic VT with an RBBB configuration and left-axis deviation. CONCLUSION: Verapamil-sensitive VT with an RBBB configuration and right-axis deviation originates close to the anterior fascicle. RF catheter ablation can be performed successfully from the VT exit site or the zone of slow conduction where the Purkinje potential was recorded in the diastolic phase.     

Successful radiofrequency current catheter ablation of accessory atrioventricular pathway after tricuspid replacement in Ebstein's anomaly

A 15-year-old female with Ebstein's anomaly was referred to hospital for radiofrequency (RF) current catheter ablation of her refractory paroxysmal supraventricular tachycardia (PSVT) after tricuspid valve replacement. A surface ECG showed ventricular preexcitation of type B Wolff-Parkinson-White (WPW) syndrome. In a baseline electrophysiological study, two types of PSVT with left and right bundle branch block (LBBB and RBBB) configurations were induced. The LBBB type was antidromic and the RBBB type was orthodromic atrioventricular reciprocating tachycardia (AVRT) with a right posterolateral accessory pathway. RF current was successfully delivered at the posterolateral site above the prosthetic valve (V-delta interval = -30 msec). The patient has been free from arrhythmias during a follow-up period of 9 months. RF current ablation seems to be useful for AVRT patients with corrected Ebstein's anomaly.     

Congenitally corrected transposition with atrioventricular septal defect

We describe 4 cases of congenitally corrected transposition associated with atrioventricular septal defect, diagnosed by echocardiography and angiocardiography. Two had usual atrial arrangement and two had mirror imaged atrial arrangement . All cases were associated with subpulmonary valvar stenosis. All patients presented with cyanosis and were in sinus rhythm. Atrioventricular septal defect with common atrioventricular junction was easily diagnosed on the basis of a common atrioventricular valve permitting interatrial and interventricular communications. All patients had balanced right and left ventricles. The echocardiographic recognition of the ventricles was based on the presence of the moderator band within the morphologically right ventricle, the characteristics of the apical septal trabeculations, and the shape of the ventricles. Angiocardiographic recognition of the ventricles was achieved on the basis of right and left ventriculography. In one case with usual atrial arrangement, we recorded two His bundle potentials, one anteriorly and another posteriorly. Atrial stimulation revealed blocked atrioventricular conduction at the level of the posterior bundle, and normal atrioventricular conduction through the anterior bundle. In both cases with atrial mirror-imagery, only a posterior His bundle potential was found, with normal atrioventricular conduction revealed by atrial stimulation The clinical course with this combination depends on the other lesions present in addition to the common atrioventricular valve. Our electrophysiological studies show that the conduction system in presence of a common atrioventricular valve is as expected for congenitally corrected transposition with two atrioventricular valves.     

Radiofrequency catheter ablation of sustained monomorphic ventricular tachycardia in hypertrophic cardiomyopathy

INTRODUCTION: Incessant monomorphic ventricular tachycardia (VT) with a right bundle branch block morphology and a northwest axis is a rare arrhythmic complication in a patient with hypertrophic cardiomyopathy and apical left ventricular aneurysm. METHODS AND RESULTS: The origin of this VT was localized using the following criteria: the presence of entrainment without fusion, equal intervals from the stimulus to the beginning of the QRS complex and from the electrogram to the QRS complex during VT, and the first postpacing interval identical to the tachycardia cycle length. Radiofrequency energy applied to the septoapical part of the apical left ventricular aneurysm terminated the tachycardia within 2 seconds. CONCLUSION: Using criteria to guide radiofrequency (RF) ablation of VT in patients with coronary artery disease, an incessant monomorphic VT in a patient with hypertrophic cardiomyopathy was successfully ablated.     

Electrophysiologic effects of anterior septal arterial occlusion

The effect of reduction in anterior septal arterial flow on the conduction system was studied in seven anesthetized dogs. After 2 hours of occlusion P-Q, A-H, and H-V intervals as well as atrioventricular nodal effective and functional refractory periods were significantly prolonged, sinoatrial conduction time was prolonged and the heart rate was decreased. The duration of the His bundle electrogram was significantly prolonged and the configuration altered. However, QRS duration did not prolong significantly. Fifteen minutes after reperfusion, A-H interval, duration of the His bundle electrogram, effective refractory period and functional refractory period returned toward control values. However, the H-V and QRS intervals as well as sinoatrial conduction time were unchanged after reperfusion. Thus, reduction of anterior septal arterial flow influences not only the distal but also the proximal portion of the conduction system; the most vulnerable part is probably the His bundle. The distal portion of the conduction system is directly influenced by ischemia itself, whereas the proximal portion is influenced through other mechanisms induced by reduction of anterior septal arterial flow.     

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The present experiments were conducted on isolated dog hearts to demonstrate that conduction disturbances can be induced in the bundle branches by transection of about 50 per cent of the cross-sectional area of the His bundle on the right or left side. The His bundle, the posterior and anterior divisions of left bundle, and the right bundle were exposed by careful dissection, and microelectrode techniques were used to record action potentials from the three bundle branches. Pacing stimuli were applied to the nonbranching portion of His bundle proximal and then distal to the site of transection to study the effect of such lesions on impulse conduction to the bundle branches. It was demonstrated that conduction to the bundle branches was not affected by such lesions in the His bundle at pacing rates slower than 100 per minute; however, conduction disturbances were rate-dependent and manifested at faster pacing rates. In nine out of all 16 experiments, partial or complete block occurred in all three bundle branches regardless of the side of the lesion. In the remaining seven experiments, they were observed in the bundle branch on the same side as the lesion. It was assumed that conduction disturbances of the bilateral bundle branches resulted from decremental conduction in the uncut portion of His at the level of lesion, and those of the ipsilateral branch from the functional failure of transverse crossover connections between the longitudinal His bundle fibers. The results indicate that localized lesions in the nonbranching portion of His bundle can indeed produce the pattern of bundle branch block under certain conditions.     

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The sequential ECG changes were studied by the Sodi-Pallares' method in 10 dogs before and after experimentally induced myocardial infarction of the left ventricle during right and left artificial stimulation. Right ventricular endocardial stimulation produced patterns of left bundle branch block in 9 dogs and of right bundle branch block in one, while left ventricular stimulation caused right bundle branche block patterns in 9 animals. Records during right ventricular stimulation after myocardial infarction showed in the peripheral leads myocardial necrosis only in two animals, while in the epicardial leads necrosis was certain in 2 animals (Q wave) probable in 6 (S-T segment elevation) and suggestive in 2 (T wave negatively). Myocardial necrosis during left ventricular stimulation was evident in the peripheral leads in 2 animals, probable in 6 and suggestive in one. The experimental data suggest that myocardial necrosis can be diagnosed in some cases during right and left ventricular artificial stimulation.     

Correlative studies on electrocardiogram and histopathology of the conduction system. (1) Right bundle branch block with left axis deviation and prolonged P-R interval

The conduction system was examined histologically in three cases whose electrocardiograms showed right bundle branch block and left axis deviation with or without PR prolongation. In two cases histological lesions were found in the right bundle branch and anterior division of the left bundle branch. In the third case histological lesions were found in the right bundle branch and anterior and posterior divisions of the left bundle branch. This case sufferred an Adams-Stokes attack. In the two patients with right bundle branch block and left axis deviation with PR prolongation, the PR prolongation was attributed to delay in atrioventricular node or His bundle in one case and to delay in left bundle branch in the other.     

Severe atrioventricular block in 2 cases with pre-excitation syndrome

In two patients with WPW syndrome Type A suffering from syncopes and dizziness intermittent high degree A-V block was observed. The analysis of the surface Ecg revealed in the first case a complete A-V block within the normal conduction system at the level of the A-V node. In the second case there was a constant left bundle branch block with intermittent block in the right fascicle (intermittent trifascicular block). In both cases the preexcitation syndromes could be best explained by accessory tracts bypassing the normal nodal system left side. One-to-one conduction through the bypass occurred only at a distinct range of cycle lengths, at lower frequencies the accessory tracts were refractory and a IInd or IIIrd degree A-V block occurred. However, outside this frequency zone some P waves were conducted through the accessory tracts without changes in cycle lengths. The findings support the thesis of at least two functionally different atrioventricular pathways in patients with preexcitation syndrome.     

Tetralogy of Fallot in adults--107 cases

Clinical and haemodynamic profile of 107 adult patients above the age of 15 years with TOF was analysed. Cardiac catherization and selective cine-angiography were performed in all cases. Infundibular pulmonary stenosis, mal-alignment type of ventricular septal defect, mitral-aortic fibrous continuity and equal systolic pressures in both the ventricles and aorta were considered mandatory for the diagnosis of Tetralogy of Fallot. Aortic regurgitation was seen in 26 cases (24%), tricuspid regurgitation in 22 cases (21%), absent pulmonary valve in 3 cases (3%), branch pulmonary artery stenosis in 9 case (8.4%), major aortopulmonary collaterals in 15 cases (14%), right atrial pressure was more than 10 mmHg in 10 cases (11%) and right ventricular end diastolic pressure more than 9 mmHg in 73 cases (68%). The left ventricular end diastolic pressure was above 13 mmHg in 58 cases (54%).     

Correlation of Electrophysiology and morphology in myocardial sarcoidosis. A case report

A 44-year-old man with systemic sarcoidosis for 11 years developed myocardial sarcoidosis with left bundle branch block and recurrent ventricular tachycardia prior to death. Autopsy showed granulomas and fibrosis in the myocardium including the left ventricular free wall, septum and His bundle, particular the left bundle branch. This is in accordance with the ECG findings.     

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Four patients, three with type B Wolff-Parkinson-White Syndrome and right ventricular preexcitation and one with type A Wolff-Parkinson-White Syndrome with left ventricular preexcitation, were studied echocardiographically. One of the patients with type B Wolff-Parkinson-White Syndrome was also studied while in intermittent normal conduction and right ventricular posterior preexcitation. Three patients with right ventricular preexcitation demonstrated early posterior systolic ventricular septal motion shortly after the on set of the delta wave of the QRS complex and later systolic paradoxic ventricular septal motion. During normal conduction in the patient with intermitten right ventricular preexcitation the early systolic posterior septal movement disappeared and the later systolic septal movement became posterior; ventricular septal systolic movement became normal. The type a Wolff-Parkinson-White Syndrome patient demonstrated normal systolic ventricular septal movement while in preexcitation.     

Differences between proximal left and right bundle branch block action potential durations and refractoriness in the dog heart

To date the electrophysiological mechanism responsible for aberrant intraventricular conduction of critically timed premature supraventricular impulses has not been documented. Microelectrode techniques were used to measure in vitro action potential and refractory period durations of the canine proximal right and left bundle branches equidistant from the distal bundle of His. Both measurements in the right bundle branch were statistically significantly longer than these parameters of the left bundle branch. Transection of the bundle branches immediately distal to the distalmost recording sites effected no change in the proximal right bundle action potential but caused marked prolongation of proximal left bundle branch action potential and refractory period durations. We conclude that functional right bundle branch aberrancy is most likely due to the longer proximal right bundle action potential duration and refractoriness. Our data also suggest that the shorter proximal left bundle branch action potential durations and refractory periods may be due to the proximity of the low ohmic resistance Purkinje fiber-muscle junctions on the left septal surface, effecting electrotonic foreshortening of these proximal left bundle branch parameters.