View clinical trials related to Ventricular Dysfunction.
Filter by:Clinical trial phase III, prospective, controlled, randomized, open. We hypothesize work that patients with chronic coronary occlusion and poor myocardial viability who failed to recover ventricular function after subjecting coronary revascularization with new techniques of recanalization, could achieve an improvement of ventricular function if given further regenerative treatment with mononuclear cells from autologous bone marrow. To test this hypothesis we designed a prospective, randomized clinical trial in patients with recanalized chronic occlusions and ventricular dysfunction.
Thirty (30) patients with chronic ischemic left ventricular dysfunction secondary to MI scheduled to undergo cardiac catheterization will be enrolled in the study. This is a phase II study intended to gain additional safety and efficacy assessments among two dose levels previously studied in a phase I setting.
All individuals who receive a heart transplant are at risk for developing antibody-mediated rejection (AMR). An antibody is a protein produced by the body's immune system when it detects a foreign substance, called an antigen. The mechanism of an antibody is to attack an antigen. In antibody mediated rejection, antibodies will attack the transplanted heart, causing injury to the heart. The purpose of this investigation is to determine if a study drug, called eculizumab (Soliris), is safe to use in heart transplant recipients, and determine if it reduces risk of antibody-mediated rejection.
The purpose of the INSPIRE-ELR study is to characterize arrhythmias in post MI low EF (≤35%) patients in the acute phase (at discharge from hospital after index MI) and chronic phase (at 8-10 weeks after index MI) and to correlate with patients at high risk of all-cause mortality or sudden cardiac death (SCD) at 1 year.
The purpose of this study is to evaluate the prevalence, during the enrolment, of Left Ventricular Dysfunction diastolic and/or systolic in patients with diabetes mellitus type 2 without known or documented heart disease history and recognize its predictive clinical, biohumoral and with non-invasive techniques parameters.
Sixteen Japanese subjects (6 adults/10 children) with peri- and post-operative pulmonary hypertension associated with cardiac surgery will be evaluated at approx. 6 sites for safety and efficacy of IK-3001.
The aim of the study is to assess the reproducibility of quantitative measurements of myocardial uptake of Iobenguane I 123 on planar and SPECT imaging following intravenous (iv.) administration of AdreView. Efficacy will be assessed based upon the absolute differences between quantitative analyses of imaging data on 2 scans performed 5 to 14 days apart.
This study will assess whether percutaneous coronary intervention (angioplasty of the heart arteries) can improve survival and reduce hospitalization in patients with heart failure due to coronary disease, who have been treated with the best contemporary medical therapy.
The study is intended to demonstrate the safe implant of small receiver-electrodes into the endocardial surface of the left ventricle and to demonstrate its utility in providing cardiac resynchronization therapy in heart failure patients.
Despite considerable effort the optimal site to place a pacemaker lead at the time of pacemaker implant remains unclear. Historically pacemaker leads have always been inserted at the bottom (apex) of the heart. It is suggested that a lead placed at the apex is associated with an increase in heart rhythm problems and also heart failure (impaired pumping function). The top of the ventricle (septum) has been investigated as an alternative site and is now routinely used by some centres. Previous estimation of the hearts pumping function (ejection fraction) has been limited to the use of echo (sound waves). Echo is not sensitive enough to detect small changes in the ejection fraction reliably (measure of pumping function of heart). The gold standard for measurement of ejection fraction is MRI (using magnets). Previous pacemakers have not been compatible with MRI scans. The latest generation of pacemakers are now able to be safely scanned within an MRI scanner. This allows a much more accurate estimation of the effects of a pacemaker on the ejection fraction which has not yet been studied. The investigators plan to study those patients undergoing a pacemaker implant and ablation procedure as part of their standard care. Individuals will have an exercise test, blood test used to measure biomarkers and fill in a symptom questionnaire. Individuals will have a Cardiac MR compatible pacemaker fitted and 2 ventricular leads will be inserted, one apically and one septally. Only one lead will be used at any given time. Individuals will then undergo their planned AV node ablation. Following this they will have a cardiac MR scan. Further MRI scans will be performed at 9 and 18 month intervals, as will symptom questionnaires, blood tests (BNP) to determine heart muscle strain, exercise testing and echocardiograms. The hypothesis is that a lead placed on the septum will produce superior cardiac performance over the short and long term.