31 Clinical Trials for Various Conditions
The goal of this clinical trial is to determine if a machine learning/artificial intelligence (AI)-based electrocardiogram (ECG) algorithm (Tempus Next software) can identify undiagnosed cardiovascular disease in patients. It will also examine the safety and effectiveness of using this AI-based tool in a clinical setting. The main questions it aims to answer are: 1. Can the AI-based ECG algorithm improve the detection of atrial fibrillation and structural heart disease? 2. How does the use of this algorithm affect clinical decision-making and patient outcomes? Researchers will compare the outcomes of healthcare providers who receive the AI-based ECG results to those who do not. Participants (healthcare providers) will: Be randomized into two groups: one that receives AI-based ECG results and one that does not. In the intervention group, receive an assessment of their patient's risk of atrial fibrillation or structural heart disease with each ordered ECG. Decide whether to perform further clinical evaluation based on the AI-generated risk assessment as part of routine clinical care.
1. Determine agreement (accuracy) of resting heart rate measured by Vitalpercept when compared to an FDA-cleared electrocardiograph (ECG) device, LifeSignals Wireless Biosensor. 2. Determine agreement (accuracy) of resting respiratory rate measured by Vitalpercept when compared to an FDA-cleared capnographer, Capnostream 20.
The objective of this study is to determine if a non-invasive technique, using an innovative analysis of electrocardiogram (ECG) data, would allow for detection of respiratory events during sleep and discrimination between central and obstructive apnea. Obstructive Sleep Apnea (OSA) is the most common respiratory disturbance seen during sleep, with an estimated prevalence of 10 % in the population and is strongly associated with the development of cardiovascular disease. In patients with underlying cardiac disease, particularly in heart failure (HF), central respiratory events such as Cheyne-Stokes Respiration (CSR) are often seen during sleep. The presence of CSR is also associated with increased cardiovascular morbidity and mortality. Currently, the identification and classification of sleep related respiratory disturbances is performed during over-night sleep studies (polysomnography), which are labor-intensive, time-consuming, expensive and difficult for patients. Thus, the development of alternative techniques to assist in the identification of those events in the outpatient setting is of marked importance for widespread screening of sleep apnea.
The investigators are conducting a prospective, observational study to examine the ECG waveforms captured by the new medical device as compared to a traditional Holter monitor for subsequent use in visual diagnoses of atrial and ventricular arrhythmias as well as cardiac impulse and/or conduction disorders by qualified clinicians. The hypothesis is that this new medical device prototype is non-inferior to traditional Holter monitoring for capturing ECG waveforms that can be visually assessed for atrial and ventricular arrhythmias as well as disorders of cardiac impulse formation and/or conduction.
The goal of this study is to compare the time required for accurate heart rate measurement of the preterm newborn when using pulse oximetry versus electrocardiography leads.
The purpose of this study is to see whether individuals who access the "911" emergency medical system with a heart attack or severe chest pain will receive more timely hospital treatment and better outcomes if hospital clinicians are provided with earlier and more complete electrocardiography (ECG) information.
The primary objective of this study is to evaluate the effects of therapeutic and supratherapeutic doses of avacopan on the heart rate corrected QT interval, using Fridericia's formula (QTcF).
The objective of the study is to compare electrocardiograms using ambulatory holter monitor with dry electrodes in a harness versus using an ambulatory holter with standard sticky electrodes (Red Dot) on monitored patients within the hospital. Patients will be simultaneously be hooked up to two ambulatory Holter monitors for the period of time to be not less than one hour. One holter will use standard electrodes in a standard electrode distribution. The second holter will use dry electrodes in a derived.
The goal of this clinical trial is to investigate how the friendship experiences of maltreated (i.e., abused and/or neglected) and non-maltreated adolescents differentially influence their risk for adverse outcomes. The main questions it aims to answer are: 1. How do the friendships of maltreated adolescents differ from those of non-maltreated adolescents? 2. Which friendship experiences influence the associations between maltreatment and ability to regulate stress, as well as future mental health difficulties and revictimization? Participants will: * Attend the initial study visit on the campus of the University of South Carolina with their primary caregiver and a best friend during which they will: * Complete study questionnaires * Be connected to a device that records their physical ability to manage stress * Complete a task during which they will be audio and video recorded and complete a brief assessment rating how they are feeling at different times during task completion * Depending on which research group they are placed in, be assigned to discuss their experience doing this task with their friend (intervention group) or sit quietly in a room for 5 minutes (comparison group) * The follow-up study visit will involve completion of study questionnaires online or via mail 6 months later Additionally, the participant's caregiver and friend will complete study questionnaires. Researchers will compare the intervention group (debriefs with a friend) and comparison group (sits quietly for 5 minutes) to see if the presence of and discussion with the friend influences their physical ability to regulate stress and future outcomes.
Patients with heart failure and left bundle branch block benefit from Cardiac Resynchronization Therapy (CRT) that delivers pacing from right ventricle (RV) and left ventricle (LV) synchronously, resulting in electrical ventricular resynchrony followed by revere structural cardiac remodeling and thereby reduced heart failure symptoms, hospitalizations and death. It is not known if programming an individually optimized RV-LV pacing offset to maximize electrical resynchrony can improve benefit from CRT. The proposed study is a randomized controlled trial in patients undergoing implant of a CRT pacemaker/defibrillator device for clinical indications to evaluate benefit of RV-LV offset programming using electrocardiogram (ECG) vs. standard nominal CRT programming without RV-LV offset. Patients receiving CRT devices will be randomized to either (A) active intervention of programming RV-LV pacing offset to optimize ECG or to (B) active control of nominally programming CRT device without RV- LV offset. The patients will be followed to evaluate change in echocardiogram, quality of life, functional evaluation and a blood marker for heart failure.
This study is being conducted in order to understand more about how the body responds to a mind/body practice called yoga nidra. Results from this study will be used to inform the design of future studies that investigate the effects of yoga nidra on sleep quality and insomnia. Yoga nidra is a simple guided meditation technique that involves lying still on a mattress while listening to a voice. Participants will follow simple instructions that involve becoming aware of their body and breath, as well as various memories, emotions, and images. This practice is not religious in nature. The investigators do not believe it will conflict with any religious beliefs. The goal of this practice is to help get rid of mental, physical and emotional tensions.
Our primary aim with this trial is to measure participant blinding following two simulated/sham or genuine/real high velocity, low amplitude (HVLA) manual chiropractic adjustments to assess if participants are able to identify their un-disclosed treatment group. Our secondary aims with this trial are to utilize electrocardiography (ECG), impedance cardiography (ICG), and gait analysis before either treatment session and after both treatment sessions to assess if there are any changes with the participants' measurements before and after a sham or genuine HVLA chiropractic treatment.
This proof-of-concept trial will explore the effects of manual chiropractic adjustments on nervous system function in individuals with post-concussion syndrome. This study will aim to recruit 10 individuals to receive 6 weeks of chiropractic care with 3 assessment periods. The participants will undergo a baseline assessment, mid-trial assessment, and post-trial assessment. The participants will wear an electroencephalography (EEG) cap for a neural assessment during an event related potential. They will wear electrical diodes to measure electrocardiography (ECG), impedance cardiography (ICG), and electrodermal activity (EDA) throughout the study and during an orthostatic challenge. Additional sensors will be placed on the participant to measure interlimb symmetry patterns during gait while walking on a treadmill.
This study is a cross-sectional observational study conducted in patients referred for routine ECG, to compare output from the everbeat finger-worn ECG device to standard of care (SOC) 12-lead electrocardiography. No intervention is involved in this study. Patients visiting the study site during the study period will be assessed for eligibility on a convenience basis, and observational data will be recorded on those eligible.
Cardiac resynchronization therapy (CRT), or atrial-synchronized biventricular (BiV) pacing, is an FDA-approved device therapy option for heart failure (HF) patients with reduced left ventricular ejection fraction and electrical dyssynchrony. A traditional CRT device has pacing leads implanted within the right atrium (RA), the right ventricle (RV), and within a coronary vein overlying the lateral or posterior left ventricle (LV). Within the past decade, various multi-center randomized controlled trials have reported improved quality of life, aerobic exercise capacity, LV systolic function and structure, as well as decreased hospitalization rates and mortality among patients with HF. Despite improvements in CRT technology with multipoint pacing, quadripolar leads, and adaptive pacing algorithms, approximately 30% of patients do not clinically benefit and are considered non-responders. This study looks to optimize CRT device programming in patients considered non-responders to CRTusing information obtained from standard ECG machines, and to assess acute and chronic effects of CRT optimization using cardiac magnetic resonance imaging (CMR).
Cardiac resynchronization therapy (CRT), or atrial-synchronized biventricular (BiV) pacing, is an FDA-approved device therapy option for heart failure (HF) patients with reduced left ventricular ejection fraction and electrical dyssynchrony. A traditional CRT device has pacing leads implanted within the right atrium (RA), the right ventricle (RV), and within a coronary vein overlying the lateral or posterior left ventricle (LV). Within the past decade, various multi-center randomized controlled trials have reported improved quality of life, aerobic exercise capacity, LV systolic function and structure, as well as decreased hospitalization rates and mortality among patients with HF. Despite improvements in CRT technology with multipoint pacing, quadripolar leads, and adaptive pacing algorithms, approximately 30% of patients do not clinically benefit and are considered non-responders. This study looks to optimize new CRT device recipients using information obtained from standard ECG machines.
The purpose of this study is to determine, among a large cohort of 300 consecutive patients with hypertrophic cardiomyopathy, if extended ambulatory monitoring using the iRhythm Technologies, Inc. Zio XT device results in identifying a greater burden of nonsustained ventricular tachyarrhythmia (nsVT) compared to current ACCF/AHA guideline recommended 48-hour monitoring.
The purpose of this study is to prospectively collect a comprehensive, multi-modality set of diagnostics on patients who have had a concussion, repeating some of these tests serially over time, so that the investigators may then in the future perform retrospective data mining to determine if there were a biomarker or risk calculator that could be used to guide return-to-play and other medical decisions.
Torsades de pointes (TdP) is a potentially fatal ventricular arrhythmia associated with corrected QT (QTc) interval prolongation. More than 50 commonly used drugs available on the US market may cause QTc interval prolongation and TdP. While TdP occurs more commonly in women, 33-45% of all cases of TdP have occurred in men. Older age is a risk factor for drug-induced TdP in men, possibly due to declining serum testosterone concentrations. Available evidence shows an inverse relationship between QTc intervals and serum testosterone concentrations. In addition, experimental data, including those from the investigators' laboratory, suggest that both exogenous testosterone or progesterone administration may be protective against prolongation of ventricular repolarization and TdP. Specific Aim: Establish the influence of transdermal testosterone administration and oral progesterone administration as preventive methods by which to diminish the degree of drug-induced QT interval prolongation in men 65 years of age or older. Hypothesis: Transdermal testosterone administration and oral progesterone administration both effectively attenuate drug-induced QT interval response in older men. To test this hypothesis, transdermal testosterone, oral progesterone or placebo will be administered in a 3-way crossover study to men 65 years of age or older. QTc interval response to low-dose ibutilide will be assessed. The primary endpoints will be Fridericia-corrected QT interval (QTF) response to ibutilide, in the presence and absence of testosterone, and in the presence or absence of progesterone: 1) Effect on pre-ibutilide QTF, 2) Effect on maximum post-ibutilide QTF, 3) Effect on % change in post-ibutilide QTF, and 2) Area under the QTF interval-time curves.
Female sex is an independent risk factor for the potentially fatal drug-induced arrhythmia (irregular heartbeat) known as torsades de pointes (TdP), which is associated with prolongation of the corrected QT (QTc) interval on the electrocardiogram (ECG). Mechanisms for this increased risk in women are not well-understood. QTc interval duration has been shown to fluctuate throughout the phases of the menstrual cycle. Evidence indicates that the QTc interval response to drugs that may cause TdP is greater during the menses and ovulation phases of the menstrual cycle, during which serum progesterone concentrations are lowest, and lesser during the luteal phase, during which serum progesterone concentrations are highest. Additional evidence from our laboratory suggests that progesterone may be protective against TdP. Specific Aim 1: Establish the influence of oral progesterone administration as a preventive method by which to diminish the degree of drug-induced QT interval prolongation in women. Working hypothesis: Oral progesterone administration effectively attenuates enhanced drug-induced QT interval response in women. To test this hypothesis, progesterone or placebo will be administered in a crossover fashion to women during the menses phase of the menstrual cycle. QTc interval response to low-dose ibutilide, a drug known to lengthen the QT interval, will be assessed. The primary endpoint will be individually-corrected QT interval (QTcI) response to ibutilide, in the presence and absence of progesterone, which will be assessed by: 1) Effect on maximum change in QTcI, and 2) Area under the QTcI interval-time curves (AUEC). At the conclusion of this study, we will have established that oral progesterone administration is a safe and effective method of attenuating drug-induced QT interval prolongation.
Polymorphic ventricular tachycardia, known as Torsades de Pointes (TdP), is a specific form of ventricular arrhythmia with a characteristic twist of the QRS complex around the isoelectric baseline. TdP can degenerate into ventricular defibrillation followed by sudden cardiac death. A predictor for the development of TdP is the length of the QT interval measured on an EKG recording. The QT interval is known to be prolonged by many medications used in a perioperative setting as well as by other conditions such as hypothermia and electrolyte imbalance. General anesthesia exposes most of the investigators patients to a combination of several of those medications and conditions and therefore might increase the risk for the development of QT prolongation. Moreover, patient related risk factors are well known and aggravate the individual risk for potential life threatening TdP events when exposed to QT prolonging medications perioperatively. Previous research suggests that more than 20% of the patients might develop QT prolongations perioperatively and are consequently on an increased risk for TdP; yet, no study has systematically investigated the magnitude of the problem and associated risk factors. The proposed pilot study is designed as a prospective observational cohort study to investigate the QT interval before, during and after general anesthesia. It aims to determine the incidence of perioperative QT prolongations. A customary long term EKG recording device will be connected to a random sample of patients undergoing general anesthesia. Using these continuous EKG tracings, the lengths of the QT interval will be analyzed during the perioperative period.
The overall hypothesis of this study is that subtle interactions between structural (substrate) and functional (trigger) abnormalities of the heart, some of which are genetically-determined, can be used to identify patients at high risk of sudden cardiac death (SCD). Such information may be used to better define patients most likely to benefit from replacement of an internal defibrillator (ICD). The prospective, observational study to enroll, categorize and follow patients who receive an ICD pulse generator replacement for primary prevention of SCD (PROSe-ICD) was established to : 1. to gain a better understanding of the biological mechanisms that predispose to SCD 2. to develop readily determined clinical, electrocardiographic, genetic and blood protein markers identify patients with an increased risk of dying suddenly
An electrocardiogram (ECG) is a test that evaluates the electrical activity of the heart and can be used to detect heart problems. By analyzing ECGs collected over a 20-year period, this study will examine ECG abnormalities and the differences in ECG findings between black and white people, from young adulthood through middle age.
The aim of this study is to improve the detection of heart attack in people who come to a hospital emergency room (ER) with cardiac symptoms. We are testing a novel technology that calculates the heart's electrical activity at points all around the upper body torso and develops a map showing areas indicating heart attack. Our hypothesis is that this new body mapping technique will be better than the standard electrocardiogram (ECG) in detecting heart attack.
The purpose of this study is to evaluate the clinical outcomes (clinical efficacy and safety) of using supplemental non-invasive computational ECG and cardiac imaging analysis tools to help guide ablation of ventricular tachycardia.
This prospective study aims to compare the diagnostic yield, or ability to detect an arrhythmia, of the traditional Holter monitor versus the novel Zio patch monitor in pediatric patients referred for ambulatory electrocardiographic (ECG) monitoring. Children will wear both devices simultaneously for 48 hours and the incidence of clinically significant arrhythmias will be compared.
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 purpose of this research is to simplify the standard recording system of the heart rhythm. The investigators desire to improve the ease of monitoring the cardiac rhythm for 24 hours. The investigators intent is to use a very small, innovative monitoring patch system that relieves the patient of wearing a cumbersome and uncomfortable recording system. This research trial will carry the title "The Simple ECG Monitoring" for Comparison of a Sternal ECG Recording System with a Standard ECG Recording System for Holter Monitoring. The data from the investigational device is for comparative purposes only. It will not be used by medical personnel for study subject treatment or diagnostic purposes.
Phase I * determine the location of the peripherally inserted central catheter (PICC) tip upon observation of maximum p-wave amplitude Phase II * determine the precision of PICC placement in the Sherlock 3CG group versus the standard PICC placement
To determine if there is a difference between wireless ECG and wired ECG findings.