View clinical trials related to Myocardial Reperfusion Injury.
Filter by:In the last few years, anaesthetics gas such as isoflurane, desflurane and sevoflurane used in heart surgery have shown some benefits to reduce the risk of heart muscle damage than total intravenous anesthetics. A study by the investigators suggested that isoflurane needs a longer duration to achieve equilibrium between coronary sinus and radial artery, indicating that isoflurane in coronary sinus does not accurately reflect its level in the heart muscle. Different agents have unique characteristics with different equilibration rate. However, the levels of sevoflurane and desflurane in coronary sinus and radial artery have not been measured. In addition, lactate is believed to be a very useful indicator to predict the outcome of recovery phase after any surgery. This study aims to measure the level of sevoflurane or desflurane in blood circulation. It will also assess whether sevoflurane or desflurane concentration in the blood is correlated to the its oxygenator exhaust level and affected by temperature, haematocrit level and gas flow rate during heart-lung machine. It also aims to examine the association of lactate and the outcomes of cardiac patient in intensive care unit after cardiac surgery.
Heart attack is the leading cause of death in the developed world. Following heart attack, re-establishing blood flow in a clogged heart vessel using percutaneous coronary intervention (PCI) is the standard of care. This therapy is called reperfusion therapy. Unfortunately, reperfusion therapy itself poses additional heart muscle damaging effect, a process called reperfusion injury. Excessive reperfusion injury can offset the net benefit of heart vessel blood flow restoration in patients with heart attacks. For those heart attack survivors, massive reperfusion injury can contribute to heart failure which carries high risk for death and long-term disabilities. To date, there is no drug available that can reduce reperfusion injury in heart attack patients. Our group has demonstrated in a preclinical study that combining two available medications (milrinone and esmolol) when given right before the onset of reperfusion therapy greatly reduces heart muscle damage in an animal heart attack model. Furthermore, in a clinical safety, we demonstrated that combination therapy with milrinone and esmolol is safe in patients with heart attack undergoing PCI. If the heart-protective effect observed in our preclinical study can be replicated in human subjects, this proposed therapy will become the first of this kind to treat clinical reperfusion injury. The present trial is a proof-of-concept study to determine whether the combination administration of milrinone and esmolol at the onset of reperfusion reduces the heart muscle damage in heart attack patients who receive reperfusion therapy with PCI.