View clinical trials related to Atrial Tachycardia.
Filter by:Atrial fibrillation (AF) is the most common sustained heart rhythm abnormality. Its incidence is increasing partly due to the aging population and it has been referred to as a growing epidemic. AF results in irregular contractions of the heart causing unpleasant symptoms of palpitations and increasing the risk of stroke, heart failure and death. Percutaneous catheter ablation is a safe treatment option in symptomatic patients with AF. The success rate of these procedures have improved with time due to our better understanding of AF, development of new techniques and technology, and greater physician experience. However, the success rate of these procedures still only remains around 70%. This is secondary to our limited ability to find the areas that drive AF. STAR mapping is a novel mapping system that has been developed with a view of better identifying the sites that drive AF through taking into account the mechanisms of AF we have so far demonstrated. To validate this mapping system we aim to use it in patients with atrial tachycardia (AT), which is a heart rhythm abnormality of which the mechanism can be readily identified with the existing mapping systems used in clinical practice. We will demonstrate that the STAR mapping algorithm can effectively map AT.
Catheter ablation of atrial fibrillation (AF) or left atrial tachycardia (GAD) is usually performed in patients treated with vitamin K antagonists (VKAs) or direct oral anticoagulants (DOACs) that are increasingly used. In some cases, patients need to have an unfractionated heparin relay (UFH) for the procedure. There are no recommendations for adjusting UFH doses during an AOD/UFH relay. DOACs interfere with the biological assay of UFH which poses a problem of adaptation of UFH doses in pre- and intra-procedure. The aim of the study is to evaluate the interference of residual DOAC on the measurement of anticoagulant activity of UFH in pre- and intra-procedure of AF ablation or GAD.
Interventional, prospective, non-randomized, single-center, non-controlled clinical investigation as part of the premarket clinical evaluation of VX1+ medical device, aiming to verify that VX1+ in bidirectional configuration with auto-tagging function is both ergonomic and reliable for dispersed electrograms detection and automatic tagging on 3D-map in real-time.
Premature ventricular contractions (PVC) are common phenomenon and occasionally retrograde conduction from ventricle to atrium occurs and may cause pacemaker mediated tachycardia. In response certain Abbott (former St Jude Medical) pacemakers have a specific PVC response algorithm ''Atrial Pace''. In this algorithm the PVARP (Post Ventricular Atrial Refractory Period) is extended to 480ms but the initial 150ms of the PVARP is deemed absolute. If atrial sensed event occurs after absolute PVARP the PVARP terminates and atrial pace follows after 330ms alert period. Two case reports exists where patients atrial tachycardia were suspected to be induced by this algorithm. In Helsinki University Hospital an index patient with multiple atrial tachycardia episodes was recognized in late 2020 where the cause of the tachycardias was suspected to be the PVC response algorithm ''Atrial Pace''. After programming the algorithm from Atrial Pace to off mode the patient had none atrial tachycardias during 2021. After investigating all the patients with physiological ICD (Implantable Cardioverter Defibrillator) or CRT-D (Cardiac Resynchronization Therapy) device and analyzing remote monitoring transmissions from the year 2020 we found 25 patients with similar atrial tachycardia episodes possibly induced by the PVC response ''Atrial Pace''.
The POWER FAST I pilot study is a unicentric, observational, non-randomized controlled clinical study. In the control group pulmonary veins isolation was performded in consecutive patients with irrigated radiofrequency cateters without contact force-sensing capabilities and using conventional low-power and long-duration radiofrequency parameters (20-30 W, 30-60 s) under continuous intracardiac-echo image and esophageal temperature monitoring. The study group consist of consecutive patients distributed in three succesive subgroups. In the study group radiofrequency ablation was performed using a point-by-point technique with contact-force catheters with different high-power and short-duration parameters: - Subgroup 50W: power 50 W, application duration ≤ 30 s, target lesion index: LSI ≥ 5 or Ablation Index ≥ 350 (posterior wall) or ≥400 (anterior wall). - Subgroup 60W: power 60 W, application duration 7-10 s, contact force ≥5 g. - Subgroup 70W: power 70 W, application duration 9 s, contact force ≥5 g. The safety endpoint was evaluated with systematic esophageal endoscopy performed <72 h after the index procedure. The efficacy endpoint was evaluated: - during the ablation procedure: acute procedural efficacy, firts-pass isolation of ipsilateral pulmonary veins, total radiofrequency and procedural time, acute reconnections and dormant conduction, - during the follow-up: any atrial tachycardias documented and longer than 30 s were considered recurrences.
This study will test the ability of computer algorithms to predict successful ablation therapy for atrial arrhythmias.
Aims Amiodarone is the gold-standard medication to control heart rate in critically ill patients with atrial tachyarrhythmias (ATs); however, effective doses and covariates influencing its efficacy remain unknown. The investigators therefore performed pharmacodynamic modeling of heart rate reduction induced by amiodarone in these patients. Methods and Results This observational study included 80 consecutive severely ill patients receiving amiodarone to treat ATs. A total of 1348 time-heart rate observations with 361 amiodarone dose administrations were analyzed during a period of up to 6 days after hospital treatment initiation using a nonlinear mixed-effect model. Pretreatment with amiodarone before intensive care administration, paroxysmal versus persistent AT, catecholamine infusion, and fluid and magnesium loading were among the covariates assessed in the model. In case of paroxysmal AT in a patient not pretreated with amiodarone, a 300 mg intravenous loading dose combined with an 800 mg oral dose on the first day, followed by 800 mg/day orally for 4 days was effective in achieving a heart rate between 80 and 115 bpm within the first day, and to maintain it during the next 4 days. Corresponding doses were twice as high in patients with persistent AT. Use of intravenous magnesium (p\0.02) and fluid loading (p\0.02) was associated with an earlier and greater heart rate decrease, while use of dobutamine had an opposite influence (p\0.05). Conclusions In critically ill patients with AT, the dose of amiodarone required to control heart rate is influenced by the type of AT and by other easily measurable conditions which may allow better individualization of amiodarone dosing.
The aim of the study is to develop and validate a novel esophageal mapping system to improve the diagnostics of cardiac arrhythmias. Using a newly designed esophageal ECG catheter, esophageal ECGs (eECGs) will be recorded in 40 patients during an electrophysiological (EP) study and/or ablation procedure and in 12 healthy volunteers. In parallel acquired intracardiac electrograms will serve as reference for the developed mapping systems accuracy. Additionally, the esophageal mapping system will be compared to that of the standard 12-lead surface ECG in regard to its diagnostic performance.
In the treatment of symptomatic drug resistant persistent atrial fibrillation (Ps AF), catheter ablation has a class IIA indication. During the follow-up, a significant amount of patients (~50%) will experience atrial tachycardias (AT) recurrence. The endpoint of AT ablation during the second procedure has not been validated. At present, several strategies are considered as good clinical practice. Main objective: To evaluate if ablation of all inducible AT post AF ablation (ATPAFA) offers as substantial benefit in comparison with ablation of the clinical ATPAF only during a redo procedure post initial persistent AF ablation. Secondary objectives: To evaluate the prognosis of non-inducibility during a redo procedure for ATPAFA
This study is intended to compare the feasibility, safety and efficacy of a zero-fluoroscopic approach with conventional fluoroscopic approach as performing catheter ablation of right atrial arrhythmias.