View clinical trials related to Athletes Heart.
Filter by:The aim of this study is the investigation of acute cardiovascular responses of marathon runners after the completion of a marathon race (42.2 km), as well as of the determinants of these changes.
COVID-19 can cause myocarditis, which can cause myocardial fibrosis. This has been shown to increase mortality and morbidity among athletes. Several efforts have been made to guide sports participation after COVID-19, but not much scientific evidence is present to back-up those guidelines. The current initiative aims gain a heightened insight in this matter.To identify the presence of fibrosis athletes who recovered from COVID-19 will undergo CMR (Cardiac MRI). All athletes will also undergo echocardiography, 5-day Holtermonitoring among others. This will allow to determine whether differences between those with and those without fibrosis are present. If fibrosis is present, athletes will be offered an implantation of a very small monitoring device that will be able to detect arrhythmias with a much higher sensitivity. Also an exercise echocardiography will be performed, to determine the safety of continuation of athletic efforts. Amendment: Recently myocarditis and pericarditis have also been observed after the administration of mRNA-vaccines, specifically after the second dose. The effect of vaccination on exercise capacity is less clear. To investigate this we propose to amend the inclusion criteria for COVIDEX with "athletes undergoing or having undergone COVID vaccination"
The primary objective of this research protocol is to advance the understanding of cardiopulmonary and right ventricular (RV) performance among individuals with cardiomyopathy (heart failure with reduced ejection fraction [HFrEF], heart failure with preserved ejection fraction [HFpEF]), as well as athletes engaging in endurance/prolonged exercise, who are at a high risk of an acquired cardiomyopathy during/following completion of an endurance event.
Feasibility of Improving Risk Stratification in Brugada Syndrome (BrS), retrospective cohort study To study the reproducibility and specificity of V-CoS for activation heterogeneities predisposing to VT/VF in a larger series of BrS patients and determining the incidence of low V-CoS score in a larger cohort of control patients. Population of 10 patients undergoing ablation for non-VT arrhythmia, 10 patients with atrial fibrillation, 10 relatives of BrS sufferers, who have confirmation of no pathology,10 patients with previous out-of-hospital cardiac arrest due to ischaemia, but with full revascularisation and recovery of left ventricular function, 10 elite athletes, 50 BrS sufferers with previous sudden cardiac death or appropriate Implantable cardioverter-defibrillator (ICD) therapy for VT/VF. DURATION 3 years
Recent developments in football have seen the sudden death of young football player due to aortic rupture hence reinforcing the controversy of football as a field with substantial risk for sudden cardiac arrest and death. Moreover, there is an argument that aortic dilatation and the subsequent event of thoracic aortic aneurysm may be an occupational disease due to the nature of some vocations (i.e., military and security personnel, blue collar workers, weightlifters, athletes etc.). Of particular importance, there is some evidence that elite athletic training is associated with small but significantly larger aortic root diameter. The purpose of this study was to investigate aortic root adaptation to physical workload and to determine if aortic root's and left ventricle sizes are contingent upon the physical workload
The purpose of this research is to compare four different heart rate monitors (Apple Watch Nike III,Fitbit Iconic, Garmin Vivosmart HR, Tom Tom Spark 3) to an Electrocardiograph (ECG) machine to determine the accuracy of the devices. Over the last two decades, there has been a proliferation of commercially available heart rate monitors. Elite athletes often use heart rate measurements to monitor training and fitness levels. In response, fitness companies have offered a variety of heart rate monitors to the general public. Previously, chest strap monitors that measured electrical activity were mainly used to track heart rates. More recently, wrist-worn monitors that use an optical sensor (light) to measure heart rate have gained in popularity. While the accuracy of chest strap monitors has been studied, there is currently no data concerning the accuracy of wrist-worn heart rate monitors. Assessment of the monitors' accuracy is important for subjects who rely upon the heart rate measurements to guide their athletic activity.
Dark chocolate (DC) is rich in epicatechin which augments nitric oxide (NO) production through endothelium-dependent influences. The increased bioavailability and activity of NO have been demonstrated to statistically increase flow-mediated dilation in healthy subjects and in hypertensive patients. DC supplementation has been hailed for its positive effects on cardiovascular health and it has been proposed as a booster of physical performance in athletes, however the mechanisms by which DC improves oxidative stress, vascular function and athletic performance are not fully understood. The investigators designed a human study assessing how DC improves NO bioavailability and activity in elite athletes. Twenty-four elite soccer players (aged 18-35 years old, all males) are divided in 2 groups and randomly assigned to receive DC (85% cocoa), 40g per day or white/milk chocolate (<35% cocoa) for 30 days. The primary outcome measure is the evaluation of Soluble NOX2-derived peptide (sNOX2-dp), a direct marker of NADPH oxidase activation. The secondary outcome measures are other markers of oxidative stress, as the soluble P-selectin (sPs), Vitamin E, soluble CD40 Ligand (sCD40L), a marker of in vivo platelet activation and flow-mediated dilation assessed by vascular ultrasound. All parameters are assessed at baseline and after 30 days in both groups.
This is a study supported by Duke Sports Cardiology and Duke Sports Medicine with the intent to enhance the cardiovascular screening of collegiate athletes from a regional to nationally recognized program to understand and eventually reduce cardiovascular events in athletes. The data from this ongoing registry will be used to better understand, refine, and improve the current cardiovascular Duke Athlete Screening process and use this experience as a role model to expand across the ACC.
Background: Stress echocardiography (SE) has an established role in evidence-based guidelines, but recently the breadth and variety of applications has extended well beyond coronary artery disease (CAD). Purpose: To establish a prospective research study of SE applications, in and beyond CAD, also considering a variety of signs in addition to regional wall motion abnormalities. Methods: In a prospective, multicenter, international, observational study design, > 100 certified high-volume SE labs will be networked with an organized system of clinical, laboratory and imaging data collection at the time of physical or pharmacological SE, with structured follow-up information. The study is endorsed by the Italian Society of Echocardiography and organized in 10 subprojects focusing on: contractile reserve for prediction of cardiac resynchronization or medical therapy response; stress B-lines in heart failure; hypertrophic cardiomyopathy; heart failure with preserved ejection fraction; mitral regurgitation after either transcatheter or surgical aortic valve replacement; outdoor SE in extreme physiology; right ventricular contractile reserve in repaired tetralogy of Fallot; suspected or initial pulmonary arterial hypertension; coronary flow velocity, left ventricular elastance reserve and B-lines in known or suspected CAD; identification of subclinical familial disease in phenotype-negative healthy relatives of inherited disease (such as hypertrophic cardiomyopathy). Expected Results:To collect about 10,000 patients over a 5-year period (2016-2020), with sample sizes ranging from 5,000 for known or suspected CAD to around 250 for hypertrophic cardiomyopathy or repaired Fallot. This data base will allow to investigate technical questions such as feasibility and reproducibility of various SE parameters and to assess their prognostic value in different clinical scenarios. Conclusions: The study will create the cultural, informatic and scientific infrastructure connecting high-volume, accredited SE labs, to obtain original safety, feasibility, and outcome data in evidence-poor diagnostic fields, also outside the established core application of SE in CAD based on regional wall motion abnormalities. The study will standardize procedures, validate emerging signs, and integrate the new information with established knowledge, helping to build a next-generation SE lab without inner walls.
The aim of the present proposal is to investigate the development of distinct morphological, functional, biochemical and molecular aspects of short- and long-term sport-induced changes in the heart, to get a better understanding on the (patho)physiology of athlete's heart. The main goal of our research is to deepen our knowledge on the proper differentiation between beneficial (physiological) and harmful (pathological) consequences of professional sport, thereby effectively preventing potential cardiovascular complications of athletes.