62 Clinical Trials for Arrhythmia
To investigate the effect of VTA ablation at the time of LVAD implant to see if it can reduce the incidence of VTA after surgery
The purpose of this pragmatic study is to evaluate the safety, performance and effectiveness of the FARAPULSE catheter system (FARAWAVE catheter used in combination with the FARASTAR generator), to treat patients with atrial fibrillation during clinically-indicated ablation procedures
This is a research study that aims to understand if giving a lower dose of treatment all at once is as effective and safe as dividing it into three smaller doses for patients with a heart condition called refractory ventricular tachycardia (VT). These patients have not exhibited positive responses to conventional medications or procedures. This study aims to explore whether an alternative approach could yield more beneficial outcomes.
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. ...
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.
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)
Patients post acute myocardial infarction (AMI) have a high risk of mortality but the use of an implantable defibrillator in the early aftermath of an AMI has not been shown to improve patients' survival. The VEST trial recently demonstrated an improved overall survival in post AMI patients with the use of a wearable defibrillator. The same improvement was not demonstrated for the risk of sudden cardiac death. Monitoring patients after AMI using an implantable cardiac monitor (ICM) may document findings that can impact patient management and eventually improve their outcomes. We are therefore conducting the AID MI trial to examine the impact of ICM on patient management in the post AMI setting.
Ventricular tachycardia and ventricular fibrillation (VT/VF) are the most common causes of sudden cardiac death in patients with diseased hearts. The factors contributing to these deadly arrhythmias are not well understood. The presence of a wide variety of microbial flora in the human GI tract, particularly colon has been well recognized for a long time. There are also emerging links showing the effect of an intact gut microbiome having effects on left ventricular remodeling after myocardial infarction and hypertension. Gut microbiota has also been associated with outcomes in atrial fibrillation. There is little available in current literature showing a relationship between gut microbiome characteristics and ventricular arrhythmia burden. The gut microbiome has particularly strong interactions with neuroendocrine and immunologic mediators and has effects on the modulation of the autonomic nervous system. These systems are also hypothesized to influence ventricular arrhythmias. The investigators propose to study the relation and interaction between gut microbiome and ventricular arrhythmogenesis.
Fetal research and clinical practice has been hampered by a lack of suitable investigational techniques. Currently, ultrasound is the only widely used method of studying fetal anatomy and physiology, but it has significant limitations for assessment of cardiac rhythm. The proposed study will allow the investigators to evaluate fetal magnetocardiography (fMCG) as a new tool for the study of normal and abnormal fetal heart rate and rhythm.
Biorepository of blood and or tissue samples from patients presenting with cardiac arrhythmia syndromes.
A Multi-Center Registry Study Evaluating Participants Who Receive EluPro Antibiotic-Eluting BioEnvelope During CIED Implantation
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.
The purpose of the study is to see if the Sentinel® Cerebral Protection System may prevent occurrence of stroke during an ablation procedure for atrial fibrillation (AF). The secondary purpose of this study is to study if cognitive function after AF ablation differs between those treated with the Sentinel cerebral protection device and those who do not receive the device.
The primary objectives for the registry is to evaluate the overall incidence of serious complications or adverse events for primary implants and replacement devices, and assess the cost and time efficiency for both physicians and patients. The Registry is a multi ASC data collection registry. Data collection will occur at the time of screening, implant, and 2 weeks after implant at the time of wound check.
The main purpose of the Product Performance Report (formerly referred to as System Longevity Study) is to evaluate long-term performance of Medtronic market-released cardiac rhythm products by analyzing product survival probabilities.
This prospective, acute, first-in-human, non-significant risk study is intended to evaluate a modified version of the ViewFlex X ICE Catheter, Sensor Enabled (ViewFlex X SE) and ViewMate Multi Ultrasound Console (VMM) ICE data integration with the EnSite X EP System (hereafter referred to as the ViewFlex X ICE System).
The purpose of this study is to examine the use of a point ablation catheter (Farapoint, Boston Scientific) in the mapping and ablation of focal ventricular arrhythmias (premature ventricular contractions or ventricular tachycardia) using pulsed field energy.
A single center pilot trial investigating the feasibility of using actigraphy and salivary melatonin levels to measure the sleep and circadian rhythm of critically ill children aged 3 to 6 years old. This study will also measure the feasibility of providing daytime light exposure as well as restricting all provided nutrition to during daytime hours.
The proposed research is to address the accessibility and affordability of technology to capture symptomatic and asymptomatic cardiac events via Long-Term Continuous Electrocardiogram Monitoring (LTCM), and to provide physicians with full access to their patients' recorded data in a timely manner. We adopt an FDA cleared single- lead OEM patch Holter made of flexible material to make long-term wearing more comfortable and more patient compliant. The patch transmits the recorded data to our cloud-based platform: ZBPro™, where our innovative technologies reside. Our proprietary AI algorithms with innovative human interaction tools, which were developed under the National Science Foundation (NSF) Small Business Innovation Research (SBIR) Phase I (Award #: 2025951) Award analyze and interpret the recorded data to detect and annotate arrhythmia/cardiac events, and generates daily reports for physician review. The feasibility of our algorithms has been verified using ZBeats' proprietary ECG database based on the standard ANSI/AAMI EC57. Data collection and transmission has been verified in the office environment. This proposed observational study will utilize a multidisciplinary collaboration of ZBeats Inc. (ZBTS), Stony Brook University (SBU), and Lankenau Medical Center (LMC). The study will enroll patients undergoing ECG monitoring. The primary outcome measure will be the ability to capture cardiac arrhythmias and events from participants. The prescribed FDA-cleared device will serve as the ground truth (GT) for our analyses. The detected arrhythmias and events from our solution will be compared with the findings from the ground truth to obtain our system's detection rate. The goal is to achieve a detection rate of \>80% to be deemed successful.
The study is designed to collect data on Cardiovascular Implantable Electronic Device (CIED) information, implant procedure details, and/or patient characteristics to support development of future CIED products and procedures.
Congenital heart disease (CHD) affects approximately 1% of newborns in the US, with 25% of those affected having critical conditions requiring open heart surgery within one year of birth. Surgical and medical advances have allowed many patients to live beyond their fourth and fifth decades of life. Unfortunately, cardiac arrhythmias are a relatively common sequela due to cardiac anomalies and surgical scars in addition to residual volume and pressure load on the heart. Atrial arrhythmias, including sinus node dysfunction and intra-atrial re-entrant tachycardia (IART) are among the more common abnormalities found in adults with repaired CHD. The presence of IART significantly increases morbidity and mortality, and anti-arrhythmic medications have been shown to be a sub-optimal treatment strategy with the majority of patients requiring multi-drug therapy. Catheter ablation procedures remain a treatment option, but are less successful for some patient demographics. In the mid-1990's, pacemakers with atrial anti-tachycardia pacing (ATP) capabilities were developed, primarily for the management of atrial flutter and fibrillation in adults with structurally normal hearts. Given the need for pacemakers in the CHD population to manage sinus node dysfunction and atrioventricular node conduction block, the adoption of atrial anti-tachycardia pacemakers began to gain favor. However, there is limited data available comparing the safety and effectiveness of ATP therapy between various demographics of CHD patients. In the current study, the investigators aim to determine if ATP is an effective treatment strategy for IART, specifically within particular sub-populations of CHD patients. Additionally, investigators hope to delineate any significant differences in efficacy of ATP treatment between adult and pediatric congenital heart patients. The research team will accomplish our goals with a retrospective, multi-center study in which data is collected from existing electronic medical records and pacemaker interrogations. Following data collection, the investigators will employ statistical analyses to determine if certain CHD demographics are statistically significant predictors of ATP therapy outcomes. The purpose of this prospective/retrospective study is to determine how effective atrial anti-tachycardia therapies are with the congenital heart patients who are known to have atrial arrhythmias. As this population ages, we know that arrhythmic burden increases and medications are increased or changed for symptomatic improvement. Patients will be enrolled at the time of anti tachycardia device (ATD) placement or when device therapies are turned on. Patients will need a minimum of 5 years of clinical history prior to implantation and after implantation (unless patient is very young). Data will be collected both retrospectively and prospectively. The research team will consent patients at the time of clinical evaluations and scheduled follow-ups (usually 3 - 6 months). If therapy is effective, investigators will determine the specific programming which was successful. If therapy was ineffective, investigators will also determine if a change in programing was made and if this improved ATP efficacy. Investigators will also determine the arrhythmia burden. Cardioversion and medications before and after ATD implantation will be the key determinants of arrhythmia burden in this study.
Socioeconomically disadvantaged populations with multiple chronic conditions have high rates of nonadherence to essential chronic disease medications after hospital discharge. Medication nonadherence after hospital discharge is significantly associated with increased mortality and higher rates of readmissions and costs among these patients. Major patient-reported barriers to essential medication use after hospital discharge among low-income individuals are related to social determinants of health (SDOH) and include: 1) financial barriers , 2) transportation barriers, and 3) system-level barriers. Although, medication therapy management services are important during care transitions, these services have not proven effective in improving medication adherence after hospital discharge, highlighting a critical need for innovative interventions. The Medication Affordability, Accessibility, and Availability in Care Transitions (Med AAAction) Study will test the effectiveness of a pharmacy-led care transitions intervention versus usual care through a pragmatic randomized controlled trial of 388 Medicaid and uninsured hospital in-patients with MCC from three large healthcare systems in Tennessee. The intervention will involve: 1) medications with zero copay, 2) bedside delivery then home delivery of medications, and 3) care coordination provided by certified pharmacy technicians/health coaches to assist with medication access, medication reconciliation, and rapid and ongoing primary care follow-up. We will examine the impact of the intervention during 12 months on 1) medication adherence (primary outcome) and 2) rapid primary care follow-up, 30-day readmissions, hospitalizations and emergency department visits, and costs. We will conduct key informant interviews to understand patient experience with the acre received during and after care transitions. By examining effectiveness of the intervention on outcomes including medication adherence, health care utilization, costs, and patient experience, this study will provide valuable results to health systems, payers, and policymakers to assist in future implementation and sustainability of the intervention for socioeconomically disadvantaged populations.
Hypothesis: BR's Gen3 DL algorithms, combined with its subxiphoid body sensor, can accurately diagnose OSA, categorize its severity, identify REM OSA and supine OSA, and detect central sleep apnea (CSA). Primary Objective: To rigorously evaluate the overall performance of the BR with Gen3 DL Algorithms and Subxiphoid Body Sensor in assessing SDB in individuals referred to the sleep labs with clinical suspicion of sleep apnea and a STOP-Bang score \> 3, by comparing to the attended in-lab PSG, the gold standard. Secondary Objectives: To determine the accuracy of BR sleep stage parameters using the Gen3 DL algorithms by comparing to the in-lab PSG; To assess the accuracy of the BR arrhythmia detection algorithm; To assess the impact of CPAP on HRV (both time- and frequency-domain), delta HR, hypoxic burden, and PWADI during split night studies; To assess if any of the baseline HRV parameters (both time- and frequency-domain), delta heart rate (referred to as Delta HR), hypoxic burden, and pulse wave amplitude drop index (PWADI) or the change of these parameters may predict CPAP compliance; To evaluate the minimum duration of quality data necessary for BR to achieve OSA diagnosis; To examine the performance of OSA screening tools using OSA predictive AI models formulated by National Taiwan University Hospital (NTUH) and Northeast Ohio Medical University (NEOMED).
The purpose of this coverage with evidence development (CED) study is to evaluate complications and long-term health outcomes of the single-chamber Aveir Atrial Leadless Pacemaker device (aka Aveir™ AR LP system).
Durable left ventricular assist devices (dLVAD) have been increasingly utilized since the mid to late 1990s, with an uptick of utility starting in 2010 following expanded indications for therapy to not only include a bridge to transplantation strategy, but also for those individuals who suffer from advanced heart failure (HF) and do not qualify for cardiac transplantation. Despite the decreasing size of the newest generation devices leading to a lessened occurrence of adverse events, bleeding and infection still remain a concern for clinicians, as well as a general lack of predictability towards adverse events in individuals with a dLVAD in place. There is a lack of description in the literature currently, regarding the interface between what the pump data provides and what is seen in clinical practice. There also is little known about the effects of what is provided in the pump data, in correlation to quality-of-life following dLVAD implantation. Therefore, the purpose of this study is to prospectively analyze normal and abnormal pump data through pump operations such as suction events, low flow alarms as well as other adventitious alarms, PI events and power cable disconnects greater than 20 seconds, from the HeartMate 3 ® dLVAD in order to clinically correlate this data to quality of life, frailty and other various medical conditions and adverse events as defined by the Interagency Registry for Mechanically Assisted Circulatory Support (Intermacs). This will be achieved through two aims: 1) Evaluate the effectiveness of dLVAD pump operations data on clinical practice application (quality of life, frailty and various medical conditions, and adverse events such as GIB, RHF, infection, hypertension, arrhythmias and stroke); and 2) Evaluate correlations and relationships of longitudinal normal and abnormal dLVAD pump operations data, to demographic and clinical variables. This study is the first study to evaluate HeartMate 3 ® dLVAD pump operations data over time for effectiveness in the clinical practice.
The purpose of this post-approval study is to evaluate the long-term safety of the dual-chamber Aveir DR leadless pacemaker using real-world evidence methods.
The purpose of this coverage with evidence development (CED) study is to evaluate complications and long-term health outcomes of the dual chamber Aveir Leadless Pacemaker device (aka Aveir™ DR LP system).
The purpose of this coverage with evidence development (CED) study is to evaluate complications and long-term health outcomes of the single-chamber Aveir Single-Chamber Leadless Pacemaker device (Aveir VR LP).
The purpose of this post-approval study is to evaluate the long-term safety of the single-chamber Aveir VR leadless pacemaker using real-world evidence methods.