View clinical trials related to Arrhythmias, Cardiac.
Filter by:FLECAPRO is a randomized controlled crossover trial assessing the effect and safety of adding flecainide to standard beta-blocker therapy to reduce the burden of ventricular arrhythmias in patients with arrhythmic mitral valve prolapse. The primary endpoint of will be assessed using an implantable loop recorder with blinded endpoint adjudication.
ATHENA is a prospective, multicenter, non-randomized post-market study. All patients will be treated according to the standard care followed by each center. The protocol requires enrollment of consecutive patients from each center, according to eligibility criteria. During the 12 months follow-up period, clinical atrial fibrillation recurrence, occurrence of all kind of atrial arrhythmias and of all Adverse Events in the study population will be collected. The purpose of this study is to prospectively evaluate during time a large population of patients with an indication for ablation of AF, collecting data on procedural success in the acute and medium- to long-term follow-up. The primary objective of the study is the determination of up to 20 clinical and procedural parameters predicting the recurrence-free at the medium-long term follow-up in consecutive patients undergoing atrial fibrillation ablation through a standard of care pathway. The success of the ablation is defined in terms of percentage of patients free from any clinical atrial arrhythmia at a 12-month follow-up from the procedure.
AliveCor (www.alivecor.com) has developed an ECG device (KardiaMobile) that interfaces with iOS and Android smartphones and tablets. This ECG consists of a lightweight hardware case with two metal electrodes that can snap onto the back of the phone and a software application. By holding the right finger(s) on the right electrode and the left finger(s) on the left electrode, an electrical circuit is completed and a lead-I, 30 second rhythm strip is created. KardiaMobile and a newer device, KardiaMobile 6L, were approved by FDA for ECG rhythm recording. Recently, AliveCor developed a new device: Kardia 12L to record 12-lead ECGs. However, the data generated from the new device has not yet been validated for accuracy. The specific aim of this study is to evaluate the accuracy and safety of the AC 12L ECG System. The ECGs collected by the AC 12L ECG System will be compared to simultaneous standard- of-care 12-lead ECG, recorded using the GE CardioSoft 12-lead ECG System. The ECGs will be analyzed for accuracy based on statistical difference using root-mean-square error, and cross correlation between the simultaneous 10 second recordings as well as the median beats of all 12 leads.
A prospective study in paediatric, adolescent and young adult patients aged 7 to 18 years to evaluate the agreement between QTc measured using 12 lead electrocardiogram (ECG) and the wearable device ECG.
This clinical study will be conducted with funding from European Innovation Council(EIC) after approval of the fund grant and is part of our organization's European Pathfinder Project(Ref: HORIZON-EIC-2022-PATHFINDERCHALLENGES-01). The clinical study step of this project will be started in a retrospective time prospective manner by gathering the phenotypic(clinical measuring factors) data from patients who underwent ICD implantation therapy. The study will be done as a case-control type in which patients who did not get any shocks in 6 months post-implantation will be allocated to the control group. A customized and highly specific cardiogenomics panel will be designed and ordered to be specially manufactured as a standard kit by Illumina® (San Diego, California, U.S.) following an exhaustive investigation for collecting genetic variants which correlated to cardiovascular development. Mentioned kit bears the standard and validated technology which is part of the genetic tests routine and is being produced by Illumina® incorporate. However, as an option manufacturer is designing custom kits for research purposes by getting the desired variant lists using the same technology. Accordingly, enrolled patients in the study will be prospectively sampled ( Non-Invasive saliva sampling) for getting genetically analysed by Illumina®'s Infinium Assay Microarray platform with fully customized 700,000 single nucleotide polymorphism kits. The result of this sampling will be data and statistically analysed in a genome-wide association study(GWAS) manner by considering the 5x10-8 p.value and will be associated with each phenotypic parameter. Accordingly, the study will assess the genetic risk stratification in ICD patients in a much more detailed fashion. Following this assessment genophenotypic statistical analysed will be done to combine both parameters and generate a formula for scoring the indicator factors based on each odds ratio. Correspondingly, this new scaling formula will be analysed, verified and validated further by a randomized sampling of the population in our study before being stated. Additionally, This study will not only help to improve current genetic polymorphism clinal significant status (pathogenicity and significance of variant) but also can associate new markers with high significance that can be directly used in clinical screening, diagnosis or clinical approaches.
The study includes two parts: Part 1: - 100 examinations of patient referred for echo evaluation, containing clips that were acquired from the 4CH apical view were collected retrospectively. Each study includes 10 clips that represent typical user scanning errors - Offline evaluation of the system (by batch processing) shall be performed by comparing the system output to preliminary quality tagging by experienced sonographers Part 2: - Live scans of apical 4CH clips of patients with indication for POCUS examination will be performed by POC physicians - LVivo IQS shall be used (on Lumify) during the scan for patients that meet inclusion criteria until 50 exams will be collected. 3 sec of each scan shall be saved, and Image quality score (IQS) shall be documented - Saved scans shall be reviewed by an expert physician to determine whether they are clinically interpretable
Mitral valve prolapse (MVP) is associated with malignant ventricular arrhythmias (VA) and sudden cardiac death. A proper electrophysiological and echocardiographic characterization of this population is missing. Moreover, the effects of mitral valve repair on the arrhythmic burden are still matter of debate. The investigators sought to explore the role of the arrhythmic substrate in the risk stratification of patients with MVP and to assess whether mitral surgery is followed by a significant modification of the baseline arrhythmic pattern.
This data collection is designed to provide evidence for the safety, performance, and clinical benefit of BIOTRONIK's EP products. Additionally, residual risks will be monitored and newly emerging risks identified.
Exercise has many well-documented effects in the prevention or treatment of disease, but recently some studies have raised awareness of the possible negative effects of too much exercise. In former elite endurance athletes, an increased risk of cardiac fibrosis and arrhythmias have been described. Whether exercise itself is the culprit remains to be explored. The right cardiac ventricle can be overloaded during long-term intense exercise, due to increased volume load and possibly an increased afterload. In a subgroub of athletes the appearance with morphological and functional changes resembling an ARVC like phenotype. Furthermore, atrial fibrillation among male middle-aged athletes is up to 5 times more common compared to age-matched non-athletes. The working hypothesis of this study is that male athletes remodel more than females and that some of thise changes are already measureable early after end of elite sporting carreer. In this prospective cohort study, of 50 elite athletes at retirement, after 3 months and thereafter yearly for five years, to determine the characteristics of remodeling of the heart focusing on the left atrial and right ventricle.
Atrial fibrillation (AF) is the most common rhythm disturbance of the heart. It can affect people of any age but usually happens as we get older. It can cause palpitations, breathlessness, lethargy, and fainting attacks. It is also associated with an increased risk of strokes. The best treatment for it at the moment involves burning or freezing (ablation) the heart muscle in a part of the heart called the left atrium. The ablation injures the heart muscle around the so-called pulmonary veins and the procedure is called a 'pulmonary vein isolation'. This procedure work in about 60% of people. The study team have found that there are nerve endings in the heart that also cause AF and have shown that ablating these nerve endings also prevents AF. These Nerve endings are known as ganglionated plexuses (GPs). The study team would now like to perform a trial in people who still have AF after the usual pulmonary vein procedure. The study team hope that ablating the nerve endings that cause AF (GPs), we will stop their AF coming back. The study team will compare this procedure to the normal approach of doing the pulmonary vein isolation again