View clinical trials related to Arrhythmias, Cardiac.
Filter by:Patients receiving dialysis for kidney failure suffer from very high rates of sudden cardiac death due to abnormal heart rhythms and perfusion defects associated with HD treatment. It has previously been recognized that patients suffer heart injury during the dialysis procedure which may be an important factor for investigation. The study uses a simple implantable device that can monitor heart rhythms over time to gather information on the type of abnormal rhythms that occur in dialysis patients. This information will be combined with ultrasound and x-ray scans of the heart that will also be collected. The goal is to understand the relationship between the abnormal rhythms and injury to the heart during dialysis and what causes these injuries. The information gathered in this study will be used to compare the accuracy of an in house personalized computational model to predict potential cardiac injuries when patients undergo HD treatment.
Background: Biphasic truncated exponential (BTE) waveforms are standard for cardiac defibrillation and synchronized cardioversion up to date. BTE waveforms differ by design characteristics and technologies for pulse commutation (rectilinear, standard truncated exponential, pulsed). Clinical evaluation of BTE waveforms can be planned during cardioversion (CVS) as a well-established procedure of atrial fibrillation patients who are able to give consent and also present a more controlled population. Scarce studies have been found to present the relative efficacy and safety of different BTE waveforms during CVS. The validity of significantly deviating results of the pulsed waveform in one CVS study is questionable. Objective: To compare the CVS efficacy and safety two different biphasic defibrillators - a standard truncated exponential waveform and a pulsed biphasic waveform. Experimental design: Patients will be recruited at the Intensive Cardiology Care Unit (ICCU), Cardiology Clinic, University National Heart Hospital (NHH), Sofia, Bulgaria, underwent the pre-CVS medical exams and check for eligibility. All eligible patients will sign a written informed consent prior to the CVS and will receive the standard hospital procedures during CVS, accepted in the NHH, and approved by the NHH Local Ethic Committee. Atrial fibrillation patients will be alternatively randomized to CVS using one of the two defibrillators, following the same energy selection protocol in both defibrillators. The statistical power analysis will consider a non-inferiority comparison between the cumulative energy actually delivered by both defibrillators. The secondary CVS outcome measures are: the cumulative success rate (measured at 1 minute post-shock) and number of delivered shocks. Delivered energy will be measured during each shock with a dedicated pulse recording device (approved by the NHH Local Ethic Committee). Heart rhythm will be monitoring in continuously recorded peripheral ECG. The secondary CVS safety outcome measures: Biochemical markers for myocardial necrosis (high sensitive troponin I - hsTnI, creatine kinase MB fraction - CK-MB) will be evaluated on blood samples taken before and 12 hours after cardioversion; ST-segment changes will be measured in lead II (baseline and 10 s post-shock) and 12-lead ECG; Complications after cardioversion will be measured during 2 hours follow-up period in the ICCU.
Goals: 1. To check for frequency and type of arrhythmia in patients undergoing a medical procedure under local anesthesia 2. To examine whether the addition of adrenaline to local anesthesia affects the incidence of arrhythmias
It is a prospective, randomized and double-blind clinical trial involving an invasive technique for isolation of pulmonary veins (PVAC gold) in relation to clinical treatment during an one year of segment. The patients included have paroxysmal atrial fibrillation (aged 65 years and older) refractory to antiarrhythmic treatments that do not have structural and / or ischemic heart diseases. This trial employed quality of life scores prior to the study and during the sixth and twelfth month of the segment, electrocardiograms and holter of 24 hours. The proposed imaging tests was the transesophageal echocardiogram before each procedure. The cerebral MRI was performed in the 24 hours post invasive procedure and Angio-tomography of the pulmonary veins in the 6-month segment.
The investigators hypothesise that patients with type 1 diabetes have clinically relevant, but often unrecognised, episodes of arrhythmias linked to episodes of hypoglycaemia and/or clinically significant fluctuations in plasma glucose.
The study focuses on patients who have already been diagnosed with an arrhythmia. This is a randomized control trial that will use measurements from the implanted devices to quantify changes in the number of cardiac events experienced. Subjects will present to the Long Island Heart Rhythm Clinic (LIHRC) at the New York Institute of Technology (NYIT) Academic Health Care Center for their scheduled appointment with Dr. Cohen. These patients are generally coming in for their electrophysiology cardiology checkup, postsurgical visit, or consultation concerning their cardiac health. Once confirmed the patients meet the inclusion criteria, they will be informed about this proposed study and asked if they would like to participate. They will then be consented and randomized according to the randomization procedure outlined below. Once enrolled, the patients will complete the study as outlined in the procedures below. They will have a baseline EKG taken, and then proceed to either Osteopathic manipulative medicine (OMM) treatment or control somatic dysfunction (SD) evaluation. The investigators will then analyze the CareLink data, or the web-based management service for the respective device, to quantify the effects the OMM or control SD evaluation had on any arrhythmia events. All investigators delivering OMM will be neuromuscular medicine/osteopathic manipulative medicine (NMM/OMM) board certified attending physicians and trained in the specific techniques that have been associated with arrhythmia SDs and treatment modalities to have consistency when treating subjects. Subject confidentiality will be maintained throughout the process as delineated in Question 5 of the protocol document.
The investigators will evaluate the diagnostic yield of the new AliveCor device versus a 12 lead ECG when used simultaneously to detect cardiac arrhythmia
This study aims to evaluate the electrophysiological properties of the heart conduction system in patients with unexplained polymorphic ventricular tachycardia (VT) and/or ventricular fibrillation (VF), in patients with specific genetic mutations regarding sudden cardiac death or sudden cardiac arrest, in their family members and in a control cohort. The electrophysiological properties will be measured with the relatively new technique ECG-Imaging (ECGI). Also a National Dutch registry for patients with unexplained polymorphic VT and/or VF and their family members will be created. By combining the data from the registry and the results of ECGI, The investigators hope to identity risk markers for patients at higher risk for apparently idiopathic ventricular fibrillation, and use these for an adapted flow chart for the 'general'population of patients at risk for unexplained polymorphic VT and/or VF. The investigators aim to be able to identify patients before the first arrhythmic event, and aim for better treatment strategies in the future.
The investigators hypothesise that following episodes of hypoglycemia, rebound hyperglycemia may result in a prolonged period of increased QTc and, thereby, increased susceptibility to serious cardiac arrhythmias in patients with type - 1 diabetes.
Study is conducted to assess the prevalence and structure of comorbidity among patients undergoing abdominal surgery and produce the stratification of the risk of postoperative complications by identifying independent predictors for its development.