View clinical trials related to Myocardial Stunning.
Filter by:Hemodialysis is a therapy that filters waste, removes extra fluid and balances electrolytes. In hemodialysis, blood is removed from the body and filtered through a man-made membrane called a dialyzer, and then the filtered blood is returned to the body. Hemodialysis is associated with injury to the heart muscle called myocardial stunning. This may occur for many reasons, including removal of fluid during dialysis or low blood pressure. Initial ischemia and subsequent white blood cell infiltration into the injured myocardium play a critical role in the degree of myocardial ischemia reperfusion injury. In this study an additional man made membrane (selective cytopheretic device) and tubing will be added to the dialysis circuit. The device shifts the circulating white blood cells pool to a less inflammatory phenotype. Researchers believe the selective cytopheretic device will alter the phenotype of circulating white blood cells which play a role in myocardial stunning. The purpose of this study is to evaluate whether the selective cytopheretic device will reduce myocardial stunning events in hemodialysis patients. It will also report the rate of adverse events.
Incomplete recovery from ischemia causes stunned myocardium. Ischemia may be due to coronary artery disease or aortic cross-clamping during surgery. Stunning leads to myocardial dysfunction. It has been suggested that the mechanism responsible for the contractile depression in stunned myocardium is a decreased sensitivity of the myofibrils to calcium. Levosimendan is a calcium sensitizer, which has been shown to improve the function of stunned myocardium without obvious impairment of diastolic function. Systemic vasodilation and need of vasoconstrictive medication is usually apparent after administration of levosimendan. Colucci et al have demonstrated that with intracoronary administration of milrinone, another inodilator, systemic vasodilation could be excluded. If this is true with levosimendan, it may be possible to improve left ventricular hypo/dyskinesia without afterload reduction by adding levosimendan into cardioplegia solution. The investigators hypotize that levosimendan, delivered together with cardioplegia, can improve LV dysfunction after opening of aortic cross-clamp in patients undergoing aortic valve and coronary artery bypass operation. Our primary endpoint is a change in cardiac output 15 min after separation from cardiopulmonary bypass compared to the baseline. Secondary endpoints are a change in LV ejection fraction from baseline to 5 min after sternal closure and cTnT/CK-MB on the first postoperative morning.