View clinical trials related to Tachycardia.
Filter by: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''.
Local abnormal ventricular activity (LAVA) is composed of high-frequency, mainly low voltage signals that represent near-field signals from slow-conducting tissue and thus potential VT isthmuses. The identification of LAVA potentials and their modification have usually been a complimentary component of the substrate-based modification of scar related ventricular arrhtyhmias. With better identification through technical solutions and improved algorithms, LAVA modification may be feasible for treatment in therapy refractory VT.
The SWAF study will compare the performance of a smartwatch combined with Cardiologs Platform algorithm in the detection of Atrial Fibrillation and other arrhythmias with that measured on a manually read 12-lead ECG in subjects hospitalized for cardioversion or AF ablation.
The PASS PULL EV-ICD Study is a prospective, multi-center, single-arm study without concurrent or historical controls. This initial concept feasibility study is primarily intended to demonstrate that the EV-ICD Lead can be safely positioned within the anterior mediastinum as intended using the AtaCor delivery system. The study will secondarily characterize the ability for the EV-ICD Lead to facilitate VF sensing and defibrillation.
It is aimed to examine the effect of the decrease in blood pressure that occurs during the ventricular tachycardia ablation process on cerebral oxygenation and awareness. Patient's age, cardiac measurements (ejection fraction-EF), basal vital values, procedure time (especially activation and pacing mapping), and localization of the arrhythmia, may affect the NIRS and BIS response to blood pressure drop. In addition to the effects of patients' demographic information, cardiac capacity and procedure time on NIRS and BIS values (downtrend and duration), correlations of these values with other monitoring parameters (ETCO2 and SpO2) intended to be displayed.
This study aims at comparing the recurrence rates of ventricular tachycardia ablated after being mapped by 2 different techniques.
The purpose of this study is to assess the performance and safety for the use of the OPTRELL Catheter for intracardiac mapping in the atria and ventricles.
Sympathetic tone is important in cardiac arrhythmogenesis. The simultaneous recording of sympathetic nerve activity (SNA) and electrocardiogram (ECG) was obtained by invasive method. The purpose of this protocol is to further develop this recording method to turn it into a new non-invasive tool for arrhythmia prediction and detection. This method may also be useful in validating the results of surgical procedures aimed at sympathetic denervation
This research will investigate the PPG signal morphology related to physiological and non- physiological changes in arrhythmia-related heart rate as well as the performance of the PPG-based features previously developed within the framework of the Mini-Holter study to discriminate between several cardiac arrhythmias. To this end, clinical data will be recorded on patients by using a wrist-based PPG monitor simultaneously with 12-lead ECG and intracardiac electrogram (EGM) signals at the university hospital in Lausanne. Importantly, this study will remain purely observational as it will not change the diagnostic and therapeutic management of the included patients, nor will it interfere with the time course of the procedures. The aim of enHEART study is to validate on a larger database the ability of several previously developed PPG-based features to detect a variety of cardiac arrhythmias.
Anti alfa-3 and alfa-7 ganglionic cholinergic receptors (anti-AChRs) antibodies (Abs) plasma removal by plasmapheresis (1,2) acutely improved dysautonomia symptoms in case reports with Pure Autonomic Failure (PAF) (3). We shall assess the prevalence of anti-AChRs Ab and the relationship among Ab titer, cardiovascular autonomic profile and symptoms in neurodegenerative diseases characterized by similar dysautonomia symptoms such as PAF, Amyotrophic Lateral Sclerosis (ALS) and Postural Orthostatic Tachycardia Syndrome (POTS) (4). Ab positive patients will undergo selective immunoabsorption once a week up to achievement of Ab titer lower than 65% of baseline followed by immunosuppressive therapy with prednisone. Both Ab positive and negative groups will undergo anti-AChR Abs, autonomic profile and dysautonomia symptoms assessment, every 4 months up to 3 years. Evidence of correlation among reduced Ab titer and autonomic profile and symptoms improvement may result in new effective therapy.