Migliore successo dell'ablazione transcatetere di vie accessorie a difficile localizzazione grazie al mappaggio epicardico arterioso o venoso

Failure of radiofrequency catheter ablation for atrioventricular reciprocating tachycardia may be related to imprecise location of accessory pathways. We have tested the safety and efficacy in improving successful rate of the procedure of a new technique of epicardial mapping of the atrioventricular sulcus by means of a small diameter (2.5F) 16 polar electrode catheter with a soft tip and a minor interelectrode and intercouple distance (2-6-2). The catheter was advanced via a right femoral approach into the coronary sinus or its branches, and the right coronary artery. We report 5 patients who underwent epicardial mapping-guided radiofrequency catheter ablation who had been previously treated with 1 or more (range 1-4) unsuccessful traditional mapping of the atrioventricular sulcus. Epicardial mapping was performed by means of selective catheterization of the coronary sinus in 4 cases, and of the right coronary artery in 1. The accessory pathways was precisely localized and ablated in all patients (mean 8 +/- 1.5 radiofrequency pulses, and 32 +/- 6 min fluoroscopy duration). No procedure or catheterization-related complications were observed. In conclusion, the technique of epicardial mapping used in this study proved to be safe and effective in localizing accessory pathways in selected cases, thereby enhancing radiofrequency catheter ablation success rate. The main advantage of this atraumatic catheter as compared to the traditional ones are the femoral approach and the possibility to advance the catheter to the most anterior aspect of the great cardiac vein. The epicardial mapping is thus a feasible alternative to traditional mapping, particularly in cases in which previous procedures have failed due to a complex arrhythmogenic substrate and or congenital abnormalities

Analisi delle alterazioni della ripolarizzazione per la diagnosi differenziale delle tachicardie sopraventricolari a QRS stretto e della sede della via accessoria

In view of the growing role of catheter ablation techniques for the treatment of supraventricular tachycardia, noninvasive determination of tachycardia mechanism and preliminary localization of the accessory pathway (AP) can simplify the cardiac catheterization procedure and reduce fluoroscopic exposure. The purpose of this study was to analyze the diagnostic value of repolarization changes during narrow QRS complex tachycardia ( or = 1 mm in at least 6 leads; 3) the presence of ST segment depression > or = 2 mm and/or T wave changes (inversion, notching); 4) the duration of retrograde atrial activation during tachycardia (right atrium-coronary sinus interval, in ms); the latter parameter, as well as tachycardia mechanism and accessory pathway location, were determined during an electrophysiologic study. There were no significant differences in mean cycle length among the groups. ST segment depression > or = 2 mm and/or T wave changes were present more often in AV reciprocating tachycardias (51/89) than in the other groups (AV node reentrant tachycardias: 14/57; atrial tachycardias: 1/13; p < 0.001), independently from the cycle length. Distinct patterns of repolarization changes during tachycardia were associated with different location of accessory pathway: ST segment depression from V3 to V6 in left lateral AP; T wave inversion in inferior leads in posterior-posteroseptal AP; T wave changes in V2 in all cases of anteroseptal AP location. The magnitude of ST segment depression, significantly more marked in the AV reciprocating tachycardias (1.3 +/- 1.6 mm) than in AV node reentrant tachycardias (0.7 +/- 0.8 mm, p < 0.005), was directly related to the duration of atrial activation time during tachycardia (80 +/- 20 ms, and 32 +/- 12 ms, p < 0.001, respectively). The finding of ST segment depression and/or T wave changes during narrow QRS tachycardia suggest the presence of an AV reciprocating tachycardia; this phenomenon may be related to a different pattern of retrograde atrial activation. In conclusion, analysis of repolarization changes during narrow QRS tachycardia constitutes an additional electrocardiographic criterion to differentiate the tachycardia mechanism and, furthermore, can guide preliminary location of the AP, even in the absence of ventricular preexcitation

Modulation of the atrioventricular node conduction to achieve rate control in patients with atrial fibrillation: long-term results

Modulation of the AV node reduces the ventricular rate during AF, without affecting AV conduction during sinus rhythm. Acute and long-term results of AV node modulation in 75 patients with AF and severe related symptoms of heart failure are presented in this study. The procedure involved, in all cases, the selective ablation of the posterior inputs to the AV node; in a subgroup of 15 patients with poor modification of AV conduction properties, a sequential approach involving subsequent anterior input ablation was performed. The procedure caused acutely a prolongation of the Wenckebach cycle length (38 patients in sinus rhythm) from 334 +/- 88 to 470 +/- 80 ms (P 120 beats/min) that caused severe palpitations; these patients were considered as late clinical failures (8/75; 11%). All patients reported a substantial subjective improvement and an increased exercise tolerance, as documented by a semiquantitative questionnaire. There were no episodes of late AV block or sudden cardiac deaths. In conclusion, modulation of the AV node--either by slow pathway ablation, or by a "sequential" posterior and anterior approach in refractory patients--allows a long-term control of the ventricular rate and prevents the recurrence of severe clinical symptoms in more than 75% of patients with drug refractory AF

Electrophysiological characteristics and outcome in patients with idiopathic right ventricular arrhythmia compared with arrhythmogenic right ventricular dysplasia

Background: Idiopathic right ventricular arrhythmias (IRVA) are responsive to medical and ablative treatment and have a benign prognosis. Arrhythmias caused by right ventricular dysplasia (ARVD) are refractory to treatment and may cause sudden death. It is difficult to distinguish between these two types of arrhythmia. Objective: To differentiate patients with IRVA and ARVD by a conventional electrophysiological study. Methods: 56 patients with a right ventricular arrhythmia were studied. They had no history or signs of any cardiac disease other than right ventricular dysplasia. They were classified as having IRVA (n = 41) or ARVD (n = 15) on the basis of family history, ECG characteristics, and various imaging techniques. They were further investigated by standard diagnostic electrophysiology. Results: The two groups were clearly distinguished by the electrophysiological study in the following ways: inducibility of ventricular tachycardia by programmed electrical stimulation with ventricular extrastimuli (IRVA 3% v ARVD 93%, p < 0.0001); presence of more than one ECG morphology during tachycardia (IRVA 0% v ARVD 73%, p < 0.0001); and fragmented diastolic potentials during ventricular arrhythmia (IRVA 0% v ARVD 93%, p < 0.0001). Data from the clinical follow up in these patients supported the diagnosis derived from the electrophysiological study. Conclusions: Patients with IRVA or ARVD can be distinguished by specific electrophysiological criteria. A diagnosis of ARVD can be made reliably on the basis of clinical presentation, imaging techniques, and an electrophysiological study