View clinical trials related to Arrhythmias, Cardiac.
Filter by:In this study, we will evaluate the diagnostic yield of the new AliveCor device versus a 14 day event monitor with the use of both devices simultaneously. We will also examine by means of a questionnaire the compliance, ease of use and patient satisfaction for each device. Hypothesis: 1. The AliveCor monitor will be non-inferior to the 14 day event monitor with respect to diagnosis of the arrhythmia responsible for a patient's symptoms. 2. The AliveCor monitor will have better compliance and acceptability compared to the 14 day event monitor, and thus there will be a greater number of days with recordings from the AliveCor monitor.
This study is a prospective, non-randomized, unblinded case series of patients with permanent pacemakers and implantable cardioverter-defibrillators undergoing medically-required magnetic resonance imaging (MRI) scanning, at St. Mary's Medical Center, Essentia Health. Patients will be enrolled over a 60-month period and followed for 12 months, with data collected to evaluate the study's primary endpoint, change in pacing thresholds over time, as well as a series of secondary endpoints, including: adverse events, symptoms, need to make pacemaker programming changes, and possible artifacts created by the pacemaker systems on the MRI scans. This study will allow for carefully monitoring of the safety MRI scanning in this population and improve practice models and protocols in the future.
People with chronic diseases such as diabetes, hypertension (high blood pressure) and cardiac (heart) arrhythmias tend to go to the doctor more often and have more tests done than those without those diseases. This can lead to increasing costs of healthcare and extra visits to doctors and healthcare facilities. There are now medical devices that can be used at home to monitor blood sugar, blood pressure, heart rhythms as well as other measurements. There have been some studies which show that when people take their own health readings, they are better able to control their disease, stay healthier and go to the doctor less often. In order to participate in the study participants will have been diagnosed with 1 or more of the following: Diabetes, Hypertension, Cardiac Arrhythmias. This study is designed to test those devices and see if they can help participants stay healthier through the recording and tracking of health measurements. Investigators will also be testing how easy it is to use these devices and whether or how easy it is to fit them in their daily schedule. Participants will be given an iPhone for use during the study and their recordings will be stored and displayed on the phone.
Our primary hypothesis is that a risk score comprised of approximately 10 single nucleotide polymorphisms (SNPs) that are associated with atrial fibrillation at the Genome Wide Association Study (GWAS) level is associated with the development of atrial fibrillation among previously undiagnosed patients at high risk for atrial fibrillation. A current example of these SNPs is shown in Table 1. As a secondary hypothesis, we will test the association between atrial fibrillation diagnosed in this study with a subset of SNPs reported to be associated with atrial fibrillation and with fine-mapping SNPs. We will also test the association between atrial fibrillation of less than and greater than 30 seconds and a panel of approximately 10 SNPs.
Bioequivalence of propafenone hydrochloride capsules manufactured at two different sites
Patients with difficult-to-treat epilepsy ("refractory epilepsy") are at high risk of sudden death: sudden unexpected death in epilepsy (SUDEP). Cardiac arrhythmias are one of the possible causes of SUDEP. When monitoring in the hospital setting, the frequency of cardiac arrhythmias in people with epilepsy is low: 0,4%. However, when a subcutaneous implantable device (Reveal XT) is used to monitor heart rhythm continuously for an extended period of time, the frequency of clinically relevant arrhythmias appeared much higher in two small observational studies (n=19): 6-20%. The aim of this study is to analyze the frequency and underlying mechanism of cardiac arrhythmias in a larger group of 50 people with refractory epilepsy with Reveal XT. In the future, this may help us to identify those epilepsy patients at high risk of cardiac arrhythmias, so that we can timely institute preventive measures (e.g. pacemaker implantation).
Worldwide three million people a year die from sudden cardiac death (SCD). In most cases there is no warning and the heart is stopped by a sudden arrhythmia. We know that some people are at high risk of sudden cardiac death and can prevent their deaths with an implantable cardioverter defibrillator (ICD) that is implanted in a minor operation. However, most people who die from sudden cardiac death are not found to be at high risk by our current risk markers and 40% of the people who have ICDs do not have therapy within the first 4 years after implant. We need new and better ways of identifying people who are at high risk of sudden cardiac death so that we can prevent their deaths with ICDs. Our understanding of the electrical signals in the heart has increased considerably in recent years; in no small part this is due to our Principal Investigator Professor Andre Ng's basic science work. This study aims to take the understanding of action potential duration (APD) restitution gained through our work and other studies in humans and in computer simulations and translate it into a fresh way of assessing risk of sudden cardiac death. This study will carefully examine electrical activity, using APD restitution, in the hearts of patients who are having ICDs fitted because of their high risk of sudden cardiac death and combine this with a detailed heart scan, assessment of autonomic nervous system and gene expression data. We will then follow these patients up to see who benefits from their ICD. This wide ranging information will give us as complete a picture as possible of the factors that cause sudden cardiac death. We hope to use this to identify better predictors of sudden cardiac death. The study hypotheses are as follows: Primary 1. Regional Restitution Instability Index (R2I2) will be significantly higher in patients reaching the endpoint of ventricular endpoint / sudden cardiac death than in those not. 2. An R2I2 cut-off of 1.03 will partition patients into high and low risk groups. Secondary 3. Peri-infarct zone mass in grams will be significantly higher in patients reaching the endpoint of ventricular endpoint / sudden cardiac death than in those not.
The purpose of this study is to assess the ability of common genetic variants in aggregate to predict drug-induced QT prolongation in healthy subjects using moxifloxacin.
The study is aiming to document the long-term safety and effectiveness of renal denervation in patients with hypertension and other diseases characterized by elevated sympathetic drive. Catheter-based renal denervation will be performed using CE marked, percutaneous, systems.
A prospective, post market, non-randomized study to evaluate the reduction in time to interrogation for patients with St. Jude Medical remote care compatible devices interrogated by the unpaired Merlin@home transmitter in the Emergency Department (ED). Two sites will enroll up to 100 patients total. Expected duration of the study is 6 months. Once enrolled the patient will participate in the study for the duration of the Emergency Department stay, until discharged or admitted to the hospital.