View clinical trials related to Ventricular Dysfunction.
Filter by:The purpose of this study is to determine if patients with pulmonary hypertension and mildly elevated heart pressure known as PCWP will exhibit different patterns on echocardiography and that these patterns will predict treatment response to sildenafil, a drug given for this condition.
The study aims to use cardiac MRI scans and analysis techniques to evaluate differences in cardiac function after 12 months of pacing in patients with pacing leads placed in different positions within the right ventricle (apically or septally).
Elderly patients are the fastest growing surgical population and have an increased risk of postoperative cardiac problems. Diastolic dysfunction, or the reduced ability of the heart' s ventricles to fill completely, is common in the elderly population and increases the risk of major adverse cardiac events after surgery. This study will measure diastolic filling and implement fluid and drug management during surgery to determine whether this reduces serious cardiac events related to diastolic dysfunction after surgery in this high-risk population.
Acute respiratory distress syndrome (ARDS) and mechanical ventilation can lead to right ventricular dysfunction and ultimately right ventricular failure by increasing pulmonary vascular resistances and pressure load. This can be prevented by modifying ventilator settings, using vasopressors or inotropes or even by prone positionning.But to do so, right ventricular dysfonction has to be detected. Echocardiography has emerged as a first line tool to diagnose right heart failure. Recently, strain analysis showed promising results to detect early right ventricle abnormalities in other settings such as pulmonary hypertension or scleroderma. We therefore decided to determine whether 2D strain could help detect early right ventricular dysfunction in ARDS.
Previous experimental and clinical studies have consistently suggested that right ventricular (RV) apical pacing has important adverse effects. Ventricular pacing, however, is required, and cannot be reduced in many patients with atrioventricular block. The SAFE-LVPACE study is a randomized controlled trial that compare the effects of conventional right ventricular (RV) pacing vs. left ventricular (LV) in patients with AV block.
The purpose of this post-approval study of the EXCOR® Pediatric VAD is to evaluate whether safety and outcomes of the device use in the commercial setting are comparable to the safety and outcomes of the device use in the IDE study.
Low Cardiac Output Syndrome occurs frequently after cardiac surgery, especially when pre-operative LVEF is altered (LVEF≤45%). The correction of hemodynamic failure requires adapted treatments: fluid expansion and/or inotropic or vasoactive drugs. Predictive indices of a response to fluid challenge may allow an earlier hemodynamic optimization, which has not been showed until now when LVEF is altered.
Patients with pacemakers often have undiagnosed heart muscle weakness. When a pacemaker battery has run down, it is easily replaced by a short procedure. In those with heart muscle weakness, who use their pacemaker most of the time (rather than acting just as a back-up) the investigators want to find out if adding a further lead to their pacemaker system improves their heart's function, kidney function and exercise capacity.
Cardiac pacing is the only effective treatment for symptomatic bradycardia. The right ventricular apex (RVA) has become the most frequently used ventricular pacing site. However, RVA pacing has been shown to cause left ventricular (LV) dyssynchrony wich can lead to LV dysfunction and development of heart failure. Recent studies in animals have demonstrated that pacing at the LV septum induces significantly less ventricular dyssynchrony than RVA pacing and is able to improve LV function to a similar degree as biventricular (BiV) pacing. In addition it was shown that a LV septum lead can be placed permanently by driving a lead with extended helix from the RV side through the inter-ventricular septum into the LV endocardial layer. This was shown to be a feasible and safe procedure and lead stability was shown during four months of follow-up in otherwise healthy and active canines. LV septum pacing may therefore be a good treatment alternative in patients with symptomatic bradycardia, as well as patients with an indication for cardiac resynchronization therapy (CRT). The purpose of this study is to translate the findings from preclinical studies to the clinical situation by investigating the feasibility, long-term lead stability and safety of LV septum pacing by transvenous approach through the inter-ventricular septum in patients.
The purpose of this study is to evaluate the use of a device called CoSeal™. CoSeal™ is an FDA approved synthetic (man-made) surgical sealant which is currently used to help stop leaks in blood vessels during surgery. This study is evaluating CoSeal™ when it is applied to various areas of the heart during the surgery to implant a Left Ventricular Assist Device (LVAD). the investigators are looking for evidence which indicates that CoSeal™ may be useful in reducing or stopping bleeding, the occurrence of micro emboli (small particles of air or blood), and the formation of cardiac adhesions (scar tissue strands that may form around the heart in the area of a previous LVAD operation) in patients who undergo LVAD implantation surgery.