Active clinical trials for "Infarction"

This study is a first-in-human assessment of safety of using UCMSC in patients with AMI via a combination of IC and IV stem cell administration. The novelty of the current UMSC01 treatment study is the dual route of administration. Since dual administration of UCMSC via IC and IV had never been conducted in humans, there may be unknown risks to humans not predicted from the preclinical studies. However, the risk to patients in this trial will be minimized by rigorous adherence to the eligibility criteria, use of appropriate dose and concentration of stem cells, standardized techniques of stem cell infusion, and intensive patient monitoring during and after stem cell infusion.

The aim of this study was to measure the effect of low- and high-dose lipid-lowering treatment with rosuvastatin on the coronary physiology parameters.

The purpose of the study is to clarify wether body posture during ingestion of 60mg Efient, a thrombocytic inhibitor, has influence on the time to thrombocytic inhibition. The study aims to mimic the treatment Danish patients receive when admitted to the hospital with a ST-elevation myocardial infarction since these patients are refereed to acute Percutaneous Coronary Intervention (PCI) necessitating fast and efficient thrombocytic inhibition. Current guidelines recommend the administration of Efient right before the PCI procedure, while the patient is lying down, either in the ambulance or in the operating room. We, the investigators, believe that this is suboptimal for the patient, since any sort of prolonged inhibition time will possibly worsen the patients prognosis and make the patient more prone to later clotting issues. Our hypothesis is that by making the patients ingest the tablets in a 90 degrees upright position and making them sit up for 2 minutes after ingestion, the effect of the pills will commence faster than if taken in a supine position. This will possibly lead to faster inhibition of the thrombocytes, which we believe will lead to a lower incidence of clotting issues during and after the procedure.

This novel fibrinolytic agent is a 136 amino acid single chain protein secreted by some strains of Staphylococcus aureus and readily produced by recombinant DNA technology. Two natural variants of recombinant staphylokinase, THR-100 and SakSTAR, have been developed for investigational use in preliminary trials. Like SK, it forms an equimolar complex with plasmin which in turn activates plasminogen to plasmin. Unlike SK, the complexed, activated molecule (which undergoes proteolytic cleavage of the first ten amino acids to generate active staphylokinase) has a high degree of fibrin-selectivity in a human plasma milieu. This fibrin-selectivity is due in large measure to potent activation at the clot surface by trace amounts of plasmin, and rapid inactivation of the circulating complex by antiplasmin. Hence, it provides an interesting and promising alternative therapy.

In Denmark, 12.000 people a year, is struck by acute myocardial infarction. A third of these cannot be saved before treatment is possible. Despite quick and effective reperfusion of the coronary arteries using PCI (Percutaneous Coronary Intervention) after an acute ST-elevation myocardial infarction, substantial morbidity and mortality remain. Infarct size is an important determinant of the short-and long-term outcome after acute myocardial infarction. The most widely used and most effective proven therapy to limit infarct size is the early reperfusion induced by or PCI. Although beneficial in terms of myocardial salvage, reperfusion itself may contribute to additional damage of the myocardium; the damage due to the combined processes is known as "ischemia-reperfusion injury". The pathogenesis of myocardial ischemia-reperfusion injury is a multifactorial process involving the interaction of multiple mechanisms. Numerous studies indicate that there are three pivotal factors in the pathogenesis of ischemia-reperfusion injury: elevated oxidative damage, depressed energy metabolism, and altered calcium homeostasis. Partially reduced species of oxygen, including the superoxide anion radical, hydroxyl radical, and hydrogen peroxide, are generated intracellularly as by-product of oxygen metabolism. These reactive oxygen species cause peroxidation af membrane lipids, denaturation of proteins, and modification of DNA, all of which ultimately can lead to cell death. In mammals, cell damage induced by partially reduced oxygen species can also initiate local inflammatory responses, which then lead to further oxidant-mediated tissue injury. Melatonin is mainly known for its role as an endogenously produced circadian hormone. For the last twenty years, increasing evidence has proven melatonin to be a very potent direct and indirect antioxidant. Recent experimental studies have documented the beneficial effects of melatonin in reducing tissue damage and limiting cardiac pathophysiology in models of experimental ischemia-reperfusion. Primary hypothesis: Melatonin given to patients undergoing PCI can reduce the myocardial damage sustained by ischemia-reperfusion.

The purpose of this study is to determine whether intracoronary injection of morphine chlorhydrate is effective to limit ischemia-reperfusion lesion during percutaneous coronary angioplasty in patients with acute myocardial infarction (AMI).

Remote ischemic preconditioning (RIPC) occurs when a tissue (ex. heart) becomes less vulnerable to an ischemic insult if a remote tissue (ex. arm) has had previous exposure to a period of ischemia and reperfusion. A beneficial effect of RIPC has been demonstrated in several randomized studies in patients undergoing cardiac and vascular surgery, as well as interventional cardiac procedures such as angioplasty. They have shown improvements in cardiac, renal, neurologic and respiratory function. Most have focused on surrogate outcomes, such as biochemical markers of cardiac and renal function in low-risk patients. No trials have investigated only high-risk patients or been designed to detect clinical outcomes. This study is a randomized-controlled trial powered to detect clinical events in a high-risk cohort undergoing cardiovascular surgery. Patients will be randomized to RIPC (exposed to cycles of inflation of a blood pressure cuff on the upper arm prior to undergoing surgery) or control (no ischemic stimulus). The investigators hypothesize this population will demonstrate lower rates of adverse ischemic events. The investigators also intend to sample biochemical markers to better elucidate the mechanism of RIPC and generate hypotheses for future studies and interventions. Post-operatively the investigators will monitor for adverse clinical outcomes including cardiac, renal, pulmonary and neurologic injury. RIPC is simple, inexpensive and easily reproducible and there have been no reports of adverse consequences. Post-operative ischemic events such as stroke, myocardial infarction, cardiac, renal and respiratory failure affect patient survival and quality of life, and represent a sizeable financial burden to health care. If beneficial effects of RIPC are demonstrated, it will be widely applicable to the entire population of cardiac and vascular patients resulting in a widely-implemented change in practice.

The purpose of this trial is to evaluate safety and efficacy of a pericardial adipose pedicle transposition (adiFLAP) for the improvement of cardiac function in patients with a chronic myocardial infarct. Preclinical studies in the porcine model of myocardial infarction have shown that AdiFLAP reduces infarct area.

The primary aim is to determine the acute effect of two different training interventions on venous plasticity in patients with myocardial infarction (MI), revascularization or coronary artery graft surgery compared to age-matched healthy subjects.

A prospective multi-center study in which patients with an acute heart attack (in the left anterior descending artery) with ECG changes (ST segment elevation) receive angioplasty followed by stent placement and 90 minutes of PICSO treatment. This is a proof of concept study designed to document the safety and feasibility of the Pressure Controlled Intermittent Coronary Sinus Occlusion (PICSO) Impulse system.