View clinical trials related to Ventricular Function, Left.
Filter by:Heart failure due to coronary artery disease represents a significant cause of mortality. The detection of patients eligible for bypass surgery is a pivotal concern. Nevertheless, the optimal approach for patient selection based on conventional imaging scans remains unclear. The proposed method (Hyperpolarized 13C MRI) has gained extensive use in evaluating in vivo metabolism. This method avoids ionizing radiation and provides critical insights into cardiac function. The feasibility study aims to investigate this method for patient selection before bypass surgery. This innovative imaging technique facilitates the identification of two simple molecules, bicarbonate and lactic acid, produced at high rates by normal heart metabolism. Both bicarbonate and lactate originate from the same precursor molecule, pyruvate. The data generated from this study holds the potential to refine diagnostic precision.
Assessment of left ventricular function is an essential determinant of overall hemodynamics and heart function and therefore of central interest in intra-operative transesophageal echocardiography. Currently, the most frequently used methods for quantification of left ventricular function are fractional shortening (FS) and fractional area change (FAC). Radial strain is a new parameter to asses left ventricular function. The investigators want to assess left ventricular function with radial strain, fractional shortening (FS) and fractional area change (FAC) in non-cardiac patients during non-cardiac operations. The aim of this study is to show that radial strain is as reliable as FS and FAC in left ventricular function assessment and more robust to changes in preload and afterload conditions.
The aim of the study is to evaluate urine NT-proBNP levels and new Echocardiographic Findings in VLBW infants. The investigators hypothesize that high urine NT-proBNP concentrations are associated with a hemodynamically significant ductus arteriosus. The investigators also hypothesized that new echocardiographic parameters such as isovolumic relaxation time (IVRT)is useful for the prediction of ductus intervention.
Cardiovascular magnetic resonance (CMR) imaging will be used to assess the impact of common colds and physical training in high-performing athletes. Healthy individuals from the general public will serve as a comparison group. CMR has previously been shown to accurately assess cardiac function, edema, inflammation, and injury. Athletes competing at National level and Developmental Canadian teams will be prospectively recruited. All participants will have CMR scans at low and high intensity training. Participants will be re-scanned immediately after clinical evidence of a common cold, as determined by respiratory and flu-like symptoms. After 4 weeks, a follow-up CMR scan will be performed. On the day of each CMR scan, electrocardiograms and blood samples will be drawn from each participant. Blood samples will provide markers of systemic inflammation, such as leukocyte counts. At each CMR scan, athletes will be asked to describe there recent history of physical exertion in questionnaires, which will reflect the degree of physical exertion performed.
This research study is designed to evaluate the accuracy of the techniques that are used to analyze heart function. The main purpose of this study is to analyze and compare three different methods of assessment of regional and overall heart function.
The purpose of this study is to determine which pacing mode after coronary artery bypass grafting in patients with reduced left ventricular function is hemodynamically favorable.