Clinical Research Directory

Interaction Between Intraventricular Flow and Cardiac Mechanics Using 3D Echocardiography in Athletes and Sedentary Subjects

Exercise-induced cardiac remodeling, known as the "athlete's heart," corresponds to morphological and functional adaptations of the left ventricle in response to prolonged physical training. It is characterized in particular by physiological hypertrophy and improved myocardial function. Intraventricular blood flow interacts with cardiac mechanics. Regional shape (e.g., sphericity, wall curvature) and myocardial deformations guide flow patterns to create an optimal hemodynamic environment. The interaction between these different parameters in the athlete's heart remains insufficiently explored. In this context, 3D echocardiography makes it possible to combine indices derived from fluid dynamics, regional myocardial function, and cardiac geometry, enabling a comprehensive assessment of cardiac performance. Primary and secondary objectives: In this context, the aim of this project is to investigate the relationship between intraventricular flow and cardiac mechanics based on combined measurements of intraventricular flow (e.g., vorticity, pressure gradients), regional myocardial function (e.g., myocardial strain), and global/regional LV geometry (e.g., sphericity, wall curvature) in the athlete's heart. Since these parameters are interdependent, analyzing their interaction through the development of new echocardiographic tools based on 4D assessments will enable a comprehensive evaluation of functional improvements in the athlete's heart. The secondary objectives are to analyze the impact of dyssynchrony on intraventricular flow, to evaluate the influence of primary and secondary deformations on intraventricular flow, and to study cardiac function from an energetic perspective using non-invasive reconstruction of pressure-volume loops for cardiac work estimation. Methodology: The study will include 80 endurance athletes (ENT group) and 80 control subjects (CONT group). The main inclusion criteria common to both groups are: men and women aged 18-45 years, with no known heart disease and no cardiovascular risk factors (e.g., body mass index \> 30 kg/m², arterial hypertension). Athletes must train at least 10 hours per week for the past 5 years. Control subjects must not engage in more than 3 hours of physical activity per week. Athletes will be recruited from elite groups of various federations, during local long-distance races, or during clinical evaluations at Montpellier University Hospital (Dr. C. Hédon's department). Control subjects will be recruited in the Avignon area and in the cardiology department of Montpellier University Hospital during routine visits. Echocardiographic examinations will be performed in the left lateral decubitus position using Vivid systems with 4D probes. 4D and tri-plane acquisitions with color Doppler will allow assessment of cardiac structure and intraventricular flow. Data analysis will be performed using TOMTEC software, and scripts developed in Matlab and RStudio will process information related to shape, mechanical dispersion, and dyssynchrony. Intraventricular hemodynamics will be analyzed in collaboration with the CREATIS laboratory (D. Garcia), particularly through measurements of intraventricular pressure gradients and vorticity indices.

Role of CMR-FT in Assessment of HCM and Athlete's Heart.

Using cardiac MRI feature tracking to asses myocardial motion differences in athlete's heart and discovered hypertrophic cardiomyopathy patients to increase diagnostic accuracy of hypertrophic cardiomyopathy.

Risk of Sudden Cardiac Death in UN Athletes

The detection of sudden cardiac death risk in athletes is a topic of great relevance in the field of sports physiotherapy and physical activity. High-performance sports practice involves anatomical and physiological changes that can modify the mechanical and electrical properties of the heart, increasing the risk of potentially fatal cardiac events. Therefore, it is essential to implement early detection strategies to identify at-risk athletes and prevent tragedies during sports practice. Methodology: This study focuses on the prevalence of sudden cardiac death risk, using a 12-lead electrocardiogram as the primary detection tool. This examination will allow for the evaluation of the heart's electrical activity and the detection of potential anomalies that could predispose athletes to adverse cardiac events during sports practice. In addition to the electrocardiogram, cardiovascular screening questionnaires will be administered to collect information on personal and family health histories, as well as other relevant risk factors. In conjunction with the project's researchers, the sports medical team of the Universidad Nacional de Colombia will be responsible for conducting the evaluations, ensuring the precision and reliability of the obtained results. A detailed analysis of the collected data will be performed using statistical tools to identify possible correlations between the evaluated risk factors and the presence of sudden cardiac death risk in athletes. Logistic regression models will be employed to determine the strength of association between the studied variables and cardiovascular risk in this specific population. Expected Results: It is anticipated that implementing pre-participation evaluations, including the electrocardiogram and cardiovascular screening questionnaires, will enable the identification of athletes at higher risk of sudden cardiac death. These results will allow for the establishment of individualized risk profiles and the design of personalized prevention strategies for each athlete. Additionally, it is expected that the findings of this study will contribute to the development of early detection protocols for sudden cardiac death risk in athletes, which can be effectively implemented in sports settings. The information generated from this study will provide a solid foundation for clinical decision-making and the implementation of preventive measures to benefit the health and well-being of high-performance athletes.

Prospective Athlete's Heart Study

The Pro@Heart (Prospective Athlete's Heart) study is an international multicentre long-term prospective trial. The primary objective of the Pro@Heart study is to investigate the impact of training load (i.e. accurately evaluated in term of type, frequency, duration and intensity) and genotype on the variability of structural, functional and electrical exercise induced cardiac remodeling (EICR) in young competitive endurance athletes. The second objective is to determine how EICR, training load and genotype are associated with physical performance, health benefits and cardiac pathology (e.g. exercise-related cardiomyopathies and arrhythmias) during follow-up over several decades.