Background: The differential diagnosis of supraventricular tachycardias(SVTs) is essential during radiofrequency(RF) ablation. The Extracardiac Vagal Stimulation(ECVS), introduced in 2015, offers new insights for electrophysiologic studies and ablation by allowing a controlled vagal effect on the heart. Methods: A prospective study of 625 patients with SVT ablation indication. ECVS was performed using a regular electrophysiology catheter to study atrioventricular(AV) and ventriculo-atrial(VA) conduction and their effects on tachycardia. Baseline ECVS was performed to determine the optimal position for right or left ECVS, near the jugular foramen. ECVS was repeated during atrial and ventricular pacing(VP) to monitor the procedure’s progression and ensure successful endpoints. Results: ECVS was successful in 611/625 patients(98%), 381(62.3%) had AV node reentry tachycardia(AVNRT), and 230(37.6%) Accessory Pathway(AP), including 135(58.7%) manifest AP(WPW) and 95(41.3%) concealed AP. ECVS+VP in 33 patients with atypical AVNRT yielded VA block in 32(97%), suggesting VA conduction solely via the AV node. In contrast, 57 patients with concealed para-septal AP maintained VA conduction during ECVS, confirming AP. ECVS proved to be a fast, reliable, and practical additional EP tool: VA block indicated AVNRT, while persitent VA conduction suggested AP. Additionally, ECVS was highly effective in revealing and confirming successful AP ablation by demonstrating absence of AV and VA anomalous conduction. Conclusion: ECVS was a valuable tool in the diagnosis and ablation of SVTs. It allowed reproducible AV and VA block through normal pathways, easily identifying AVNRT and concealed, intermittent, or subtle AP. It was particularly useful in complex cases involving concealed AP and atypical AVNRT tachycardia.

Background Cardioneuroablation (CNA) is a novel therapeutic approach for functional bradyarrhythmias, specifically neurocardiogenic syncope or atrial fibrillation, achieved through endocardial radiofrequency catheter ablation of vagal innervation, obviating the need for pacemaker implantation. Originating in the nineties, the first series of CNA procedures was published in 2005. Extra-cardiac vagal stimulation (ECVS) is employed as a direct method for stepwise denervation control during CNA. Objective This study aimed to compare the long-term follow-up outcomes of patients with severe cardioinhibitory syncope undergoing CNA with and without denervation confirmation via ECVS. Method A cohort of 48 patients, predominantly female (56.3%), suffering from recurrent syncope (5.1±2.5 episodes annually) that remained unresponsive to clinical and pharmacological interventions, underwent CNA, divided into two groups: ECVS and NoECVS, consisting of 34 and 14 cases, respectively. ECVS procedures were conducted with and without atrial pacing. Results Demographic characteristics, left atrial size, and ejection fraction displayed no statistically significant differences between the groups. Follow-up duration was comparable, with 29.1 ± 15 months for the ECVS group and 31.9±20 months for the NoECVS group (p=0.24). Notably, syncope recurrence was significantly lower in the ECVS group (2 cases vs. 4 cases, Log Rank p=0.04). Moreover, the Hazard ratio revealed a five-fold higher risk of syncope recurrence in the NoECVS group. Conclusion This study demonstrates that concluding CNA with denervation confirmation via ECVS yields a higher success rate and a substantially reduced risk of syncope recurrence compared to procedures without ECVS confirmation.

Introduction: As the pulmonary vein isolation (PVI) is the cornerstone of the atrial fibrillation (AF) ablation procedure, esophagus overheating has become a subject of great concern. Objectives: To assess whether the mechanical displacement of the esophagus (MDE), performed by a regular transesophageal echocardiogram probe (TEEP) may prevent esophagus overheating during the procedure. Methods: A 55 patient prospective-controlled study with paroxysmal or persistent AF in which RF delivery was stopped, whenever a sinusoidal probe with multiple thermocouples detected a luminal esophageal temperature (LET) elevation ≥0.5°C. A LET elevation <0.5°C during RF delivery was considered the successful endpoint after performed the MDE. In some patients, diluted barium was instilled to highlight the esophagus boundaries. Esophagogastroduodenoscopy (EGD) was performed if there were any sign or symptom of esophagus injury after the procedure. Results: The MDE was necessary in 47 of the 55 subjects enrolled to correct LET elevation (≥0.5°C). After the MDE, 41 of those 47 patients had a LET elevation <0.5°C, and none of them, had a LET elevation ≥38.5°C. The average basal LET was 35.71 ± 0.12°C. Immediately before the MDE, the average LET was 37.03 ± 0.06°C and post-displacement was 35.83 ± 0.08°C. The displacement range average was 2.25± 1.19cm (maximum: 6.17cm). After displacement, 100% of the esophagus remained in the same position. Of the total 14 patients who underwent EGD, 6 were normal, erosion was detected in 1 and superficial hematoma in 7. Conclusion: the MDE was effective and safe in preventing its overheating during RF catheter AF ablation.