453 Clinical Trials for Various Conditions
Ventricular tachycardia (VT, a potentially fatal condition where the ventricle of the heart beats rapidly) superimposed on non-ischemic cardiomyopathy (NICM, a disease of heart with broad etiologies except coronary artery disease). This disease has been associated with inflammation in the heart. The purpose of this study is to assess the benefit of immunosuppressive therapy to suppress the VT, improve heart function, avoid invasive intervention and hospitalization. Positron Emission Tomography (PET) imaging shows inflammation in the heart. After enrollment, baseline tests (including physical exams, blood tests, genetic test, electrocardiography, echocardiography) will be done. Next, will be an 8-week medication regimen which contains either immunosuppressive drugs or standard GDMT without immunosuppressant medication. Some of the examinations will be repeated during the study to evaluate the treatment response and monitor any adverse events.
The study is a prospective single-arm multicenter clinical trial. Adult patients will be consented and enrolled in an outpatient cardiology office or Arrhythmia Clinics.
The purpose of the Long term Evaluation of Cardiac Arrhythmias after Transcatheter Aortic Valve Implantation (LOCATE) Registry is to perform long-term ambulatory monitoring of patients with severe aortic stenosis who undergo trans-catheter aortic valve implantation (TAVI) and develop new onset conduction system abnormalities post-procedure that do not require urgent permanent pacemaker (PPM) implantation. The primary objectives of this study are to assess the incidence of late onset heart block necessitating PPM implantation and to evaluate the incidence of new onset atrial fibrillation (AF) following TAVI. This study aims to provide valuable insights into the long-term cardiac health of TAVI patients and inform the development of improved treatment strategies for aortic stenosis patients with conduction system abnormalities.
Background: Bruton s tyrosine kinase inhibitors (BTKi) are used to treat a form of leukemia. But taking BTKi can also increase a person s risk of developing an abnormal heart rhythm. This can cause sudden death. In this natural history study, researchers want to learn how BTKi affects the heart. Objective: To identify and monitor the effects of BTKi on the heart. Eligibility: People aged 18 and older currently receiving or planning to receive BTKi or venetoclax. Design: Participants who have not yet started BTKi will have 2 required clinic visits: 1 before they start taking BTKi, and 1 about 6 months later. Participants who are already taking BTKi will have 1 required visit. Participants will undergo multiple tests: A physical exam, including collection of blood and saliva. A test that measures heart activity via stickers placed on the chest. A test that uses sound waves to capture images of the heart. An exercise stress test that monitors heart activity and blood pressure while the participant works on a treadmill or stationary bike. Sound wave images of the heart may also be taken while the participant exercises. Stress magnetic resonance imaging (MRI) may be done in place of an exercise test. Participants will lie on a table that slides into a tube. They will be given drugs to stress the heart while images are taken. Participants may wear a device to monitor their heart at home. Participants may have repeat visits if they develop heart symptoms or if they need to stop taking BTKi. They will have follow-up phone calls each year for up to 3 years. ...
The Impulse Dynamics Optimizer Device is a Food and Drug Administration (FDA) approved; commercially available device indicated for patients with heart failure with reduced ejection fraction (HFrEF). Many candidates of this device have a previously implanted cardiovascular implantable electronic device (CIED)- internal cardioverter defibrillator (ICD) or permanent pacemaker (PM). Patients with heart failure are at high risk for both atrial and ventricular cardiac arrhythmias. The aim of this study is to evaluate patients for Atrial fibrillation (AF) burden episode data obtained from interrogation of their CIED 8 months or greater after Optimizer implant and compare arrhythmia burden 6 months before Optimizer Cardiac Contractility Modulation (CCM) device insertion to 8 months or greater after Optimizer insertion (after 2 month blanking period).
This study will enroll patients initiating Bruton Tyrosine Kinase (BTK) inhibitors without history of documented arrhythmia while on therapy using the Medtronic LINQ-2 insertable cardiac monitor (ILR). The incidence of new onset atrial fibrillation (AF) and other arrhythmia will be determined. Actions taken in response to device detected arrhythmia will be recorded.
The study will involve exposing individuals with a known past medical history of diabetes mellitus and/or cardiac arrhythmias to centrifuge-induced acceleration force (G-force) in the NASTAR AFTS-400 simulator to evaluate their response to such forces. Subjects without a history of these conditions will also undergo centrifuge-induced G-forces as controls. This study will contribute to the knowledge of how individuals with such medical conditions experience G-forces that may be experienced during commercial spaceflights.
This study is being done to determine the mechanism(s) contributing to the onset of symptoms (i.e. shortness of breath and/or palpitations) as well as changes in heart structure in patients with congenital heart disease (CHD)
It is an attempt to see the reliability of the Wearable Smart Watch in identifying atrial fibrillation and other arrhythmias compared to the data detected from ILRs.
Comparative analysis of available ILR devices models Abbot Confirm RxTM, Medtronic Reveal LINQTM, and Biotronik BIOMONITOR., evaluating detection performance and effective of transmission of these devices to better understand the differences between them.
Researchers are gathering information on the safety and effectiveness of proton radiation therapy in reducing the number of ventricular tachycardia (VT) episodes in subjects who continue to experience VT despite treatment with an implantable cardioverter defibrillator (ICD) and undergoing a previous catheter ablation.
The objective of the study is to estimate the frequency of cardiac arrhythmias and characterize the mode of death in patients with coronavirus disease (SARS-CoV-2; COVID-19). The study will also evaluate the long term cardiac outcomes in patients previously diagnosed with COVID-19. This is a single-center, retrospective/ prospective registry enrolling all COVID-19 positive patients at Mount Sinai Hospital. Cohort 1: Retrospective chart review: 1. Patients who have been diagnosed with COVID-19 infection at Mount Sinai Hospital will be included. 2. A cohort of 1000 influenza patients will also be evaluated for purpose of comparison. Cohort 2: Prospective data collection of 100 patients who: 1. Were hospitalized for COVID-19 and who had an abnormal echocardiogram during hospitalization. 2. A matched cohort (for age, gender, troponin level, and days since hospital discharge) who did not have abnormalities on their echocardiograms (or who did not undergo echocardiogram) to ascertain that in this unusual disease, subjects did not develop echo abnormalities following hospital discharge.
Subjects in this study will wear the VitalPatch with the added ECG Interpretation and arrhythmia detection features which will expedite the identification of patients whose condition may rapidly deteriorate as well as eliminate the majority of non-actionable alarms.
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.
This post-marketing study is conducted to characterize the ability of Apple Watch rhythm analysis software to identify Atrial Fibrillation (AF) and facilitate subsequent clinical evaluation among users who contact AppleCare.
Identifying the correct arrhythmia at the time of a clinic event including cardiac arrest is of high priority to patients, healthcare organizations, and to public health. Recent developments in artificial intelligence and machine learning are providing new opportunities to rapidly and accurately diagnose cardiac arrhythmias and for how new mobile health and cardiac telemetry devices are used in patient care. The current investigation aims to validate a new artificial intelligence statistical approach called 'convolution neural network classifier' and its performance to different arrhythmias diagnosed on 12-lead ECGs and single-lead Holter/event monitoring. These arrhythmias include; atrial fibrillation, supraventricular tachycardia, AV-block, asystole, ventricular tachycardia and ventricular fibrillation, and will be benchmarked to the American Heart Association performance criteria (95% one-sided confidence interval of 67-92% based on arrhythmia type). In order to do so, the study approach is to create a large ECG database of de-identified raw ECG data, and to train the neural network on the ECG data in order to improve the diagnostic accuracy.
The purpose of this trial is to determine if implantable cardiac device leads implanted in the His bundle are capable of detecting ventricular arrhythmias.
The Apple Heart Study (AHS) is a research study conducted to evaluate whether the Apple Heart Study App can use data collected on the Apple Watch to identify irregular heart rhythms, including those from potentially serious heart conditions such as atrial fibrillation. Up to 500,000 can participate in the study.
The purpose of this study is to compare two different types of three-dimensional electroanatomic mapping systems used for the treatment of cardiac arrhythmias. The systems will be compared in regards to its ability to successfully map and ablate a clinical arrhythmia, as well as the time invested in this activity.
The purpose of this study is to collect information about how often an abnormal heart beat happens in children who have been burned.
The purpose of this study is to test if catheter ablation is better than medication therapy at treating arrhythmias originating from the upper and/or lower chambers of the heart in order to allow the heart to beat properly.
Since the invention of electrocardiogram (ECG), ECG has been an important part of clinical practice. A primary reason for the popularity of the ECG is that it is non-invasive and can be performed in any patient by placing electrodes on the skin. The present methods of ECG recording focus on detecting electrical signals from the heart. the investigators propose that with high frequency sampling and high pass filtering, the investigators can also record SNA from the skin. The somata of the subcutaneous sympathetic nerves on the skin are located at the ipsilateral cervical and stellate ganglia. Because the left stellate ganglion nerve activity (SGNA) is known to trigger cardiac arrhythmias, including AF, VF and VF, It is possible that skin SNA can also be used for arrhythmia prediction. the investigators tested that hypothesis in our preclinical studies (supported by R01 HL71140) using canine models. The results showed that subcutaneous nerve activity (SCNA) recorded with implanted electrodes can be used to estimate stellate ganglion nerve activity(SGNA) in normal dogs and in a canine model of ventricular arrhythmia and sudden death. the investigators also showed that SCNA is more accurate than heart rate variability in estimating cardiac sympathetic tone in ambulatory dogs with myocardial infarction.Therefore, SKNA and SCNA may be useful in estimating cardiac sympathetic tone. In addition to studying the autonomic mechanisms of cardiac arrhythmia, these new methods may have broad application in studying both cardiac and non-cardiac diseases. For example, sympathetic tone is important in the pathogenesis of heart failure, atherosclerosis, peripheral neuropathies, epilepsy, vasovagal syncope, renal failure, hypertension and many others diseases. Direct SKNA and SCNA recording may provide new approaches to study the mechanisms of these common diseases. SKNA recording may also have immediate clinical applications by assisting in the diagnosis and treatment of hyperhidrosis (sweaty palms), paralysis, stroke, diabetes, and neuromuscular diseases. It may be used to assist biofeedback monitoring performed by neurologists to control neuropsychiatric disorders. Because of these potential clinical and commercial applications, the investigators propose that this research project is significant. b. Innovation * Using conventional electrodes on the skin to record SNA. The neuECG utilizes the conventional skin electrodes that are widely used in health care facilities. Skin SNA had been recorded using microneurography techniques, and had been estimated using cutaneous blood flow (vasodilator responses) skin temperature, skin conductance and sweat release. However, microneurography cannot be used in ambulatory patients. The other methods are not direct measurements of SNA. neuECG is the first method that can directly and non-invasively measure the SNA from the skin. * Automated real-time signal processing. the investigators will develop signal processing software to automatically eliminate noise, such as that generated by muscle contraction, electrical appliances, body motion, respiration, and radiofrequency signals. The remaining signals are then processed to separately display in real time to provide health care providers a new method to instantly estimate sympathetic tone. The ECG signals are used for automated arrhythmia detection while the SNA signals are available for risk stratification. This approach allows us to improve and broaden the clinical application of Einthoven's original invention by simultaneous detecting ECG and SNA from the skin. * SKNA patterns as new biomarkers. the investigators have identified unique SKNA patterns that precede the onset of human AF. If proven correct by Specific Aim 3, this new biomarker can help physicians to estimate the arrhythmia risk and to predict the efficacy of catheter ablation for AF.
This study will evaluate the feasibility of visualization and characterization of arrhythmia ablation lesions by MRI immediately following standard ablation techniques. The appearance of the ablation lesion will be correlated with clinical outcomes and risk of arrhythmia recurrence.
The primary purpose of this study is to improve the quality of Magnetic Resonance Imaging in patients with heart arrhythmia. Investigators will recruit 105 patients with arrhythmia and 30 control volunteers over 3 years and will use two arrhythmia-tolerant imaging methods for diagnosis.
The objective of this clinical investigation is to evaluate: 1. the safety and efficacy of the CyberHeart System, CardioPlan™ Software and Laptop, in treating patients with refractory ventricular tachycardia (VT) using the CyberKnife® Radiosurgical System. 2. The CyberHeart System performance with respect to the ability to contour myocardial targets that are transferred to the Multi-plan® Treatment Planning Software of the CyberKnife® system for the production and delivery of a safe radiosurgical treatment plan. Cardiac radiosurgery is a minimally-non invasive, painless, procedure. Tissue ablation can be accomplished precisely.
Human induced pluripotent stem cells (hiPSCs) have driven a paradigm shift in the modeling of human disease; the ability to reprogram patient-specific cells holds the promise of an enhanced understanding of disease mechanisms and phenotypic variability, with applications in personalized predictive pharmacology/toxicology, cell therapy and regenerative medicine. This research will collect blood or skin biopsies from patients and healthy controls for the purpose of generating cell and tissue models of Mendelian heritable forms of heart disease focusing on cardiomyopathies, channelopathies and neuromuscular diseases. Cardiomyocytes derived from hiPSCs will provide a ready source of disease specific cells to study pathogenesis and therapeutics.
This is a single-center, randomized controlled trial study design. Enrolled participants have a cardiovascular condition for which they are undergoing implantable cardioverter defibrillator (ICD) therapy and comorbid insomnia. Participants were randomized to a behavioral intervention for insomnia in ICD patients or a waitlist control. The treatment intervention period lasted 4 weeks with a telephone booster session administered at 3 month follow-up. The objective of the study is to examine the impact of a brief therapy combining established behavioral approaches to treating insomnia with novel components to target negative cognitions and anxieties associated with cardiac disease and ICD implantation. Primary patient outcomes include sleep, psychological functioning, daytime functioning, cardiac functioning, cognitive performance, and ICD adjustment.
The purpose of this study is to conduct an observational investigation of a novel care path used to manage emergency department (ED) presenting syncope patients on an outpatient basis.
The primary objective of this study is to evaluate the effect of eleclazine (GS-6615) compared to placebo on the overall occurrence of appropriate implantable cardioverter-defibrillator (ICD) interventions (antitachycardia pacing \[ATP\] or shock) in adults with ICD or cardiac resynchronization therapy-defibrillator (CRT-D).
The purpose of this study is to validate a novel method of diagnosing arrhythmias using the NAVA catheter-positioning screen in patients who have a NAVA catheter in place.