View clinical trials related to Reperfusion Injury.
Filter by:A heart attack (myocardial infarction) occurs when an artery supplying blood to the heart is suddenly blocked resulting in damage to the heart muscle. Patients presenting to hospital with a heart attack undergo an immediate angiogram (x-ray of the arteries in the heart) and are usually treated immediately with a balloon and stent to open their blocked artery. This procedure is called "primary percutaneous coronary intervention" (or primary PCI for short). An angiogram is a routine procedure that involves insertion of fine plastic tube (catheter) into either the groin or wrist under local anaesthetic. The tube is passed into the artery in the heart and X-ray pictures are taken to find out if the arteries are blocked. Blocked arteries can usually be opened by passing a small balloon into the artery, via the fine plastic tube followed by placement of a stent (a fine metal coil) into the artery to prevent it from blocking again. Although this treatment is very successful, it can result in damage to the heart muscle when the artery is opened. Cooling the entire body has been shown to reduce heart muscle damage during heart attacks in some patients but not in others; however, it is uncomfortable due to the shivering, expensive and can result in delays in opening the blocked artery. The investigators are conducting a series of research studies to find out if cooling the heart muscle directly through the catheter being used for the normal primary angioplasty treatment using room temperature may be effective in preserving heart muscle, without the shortcomings of entire body cooling. The investigators have already published an initial series of ten cases in which this treatment appeared to be feasible without causing significant clinical problems. The present study is a pilot study designed to assess the rate of patient recruitment and feasibility of this new treatment while exploring some detailed outcomes measuring the restoration of blood flow within the coronary artery at the end of the procedure. Ultimately if the present pilot study is successful, the investigators plan to go on to undertake a much larger randomised outcome study to determine definitively whether this treatment can help reduce heart attack size.
This is a randomized, double-blind, placebo-controlled, single and multiple ascending dose, Phase 1 study to evaluate the safety, tolerability, and pharmacokinetics of BX-001N after intravenous administration in approximately 64 healthy participants
Searching for new targets for the diagnosis and treatment of liver ischemia-reperfusion injury.
At the moment, the invasive strategy for the infarct-associated coronary artery in patients with ST-segment elevation myocardial infarction (STEMI) necessary to save the myocardium and reduce the size of the necrosis zone remains the leading one. However, despite the high efficiency of providing medical care to patients with acute coronary syndrome (ACS), there remains a high mortality and disability of this group of patients. In this regard, the search for new drug and non-drug strategies for the treatment of patients with ACS is actively continuing. Over the past decade, it has been shown that transcutaneous vagus nerve stimulation (TENS) has a cardioprotective effect both in chronic heart failure and in coronary heart disease, improves cardiac function, prevents reperfusion injury, weakens myocardial remodeling, increases the effectiveness of defibrillation and reduces the size of a heart attack. One of the methods of noninvasive stimulation of the afferent fibers of the vagus nerve is percutaneous electrical stimulation of the auricular branch of the vagus nerve. However, further studies are needed to determine whether stimulation of the tragus can improve the long-term clinical outcome in this cohort of patients.
Ischemic post-conditioning is a neuroprotective strategy attenuating reperfusion injury in animal stroke models. The investigators have conducted a 3 + 3 dose-escalation trial to demonstrate the safety and tolerability of ischemic post-conditioning incrementally for a longer duration of up to 5 min × 4 cycles in stroke patients undergoing mechanical thrombectomy. This study aims to assess the infarct volume after ischemic post-conditioning in patients with acute ischemic stroke who are treated with mechanical thrombectomy.
Acute myocardial infarction (AMI) remains the leading cause of death worldwide. In this scenario, early coronary reperfusion is the main therapeutic strategy as it substantially reduces mortality. Paradoxically, however, reperfusion triggers additional tissue damage that accounts for about 50% of the infarcted heart mass, i.e., ischemia and reperfusion injury (IRL). In this context, sphingosine-1-phosphate (S1P) is a sphingolipid synthesized by sphingosine kinases (Sphk), carried in plasma bound to high-density lipoprotein (HDL) and released after cellular damage such as LIR. Particularly, in animal models of AMI, therapies targeting downstream S1P receptor signaling triggered by HDL/S1P are able to promote endothelial barrier functions and attenuate secondary damage to LIR. Thus, the molecular control of sphingosine kinase 1 (Sphk1) transcription during LIR in vivo or during hypoxia/reoxygenation (H/R) in vitro may represent an important mechanism for maintaining endothelial homeostasis since it promotes the generation of S1P and this may promote subsequent HDL enrichment. Thus, the role of pioglitazone hydrochloride 45mg/day for five days in volunteers undergoing coronary artery bypass grafting (BVR) will be investigated in order to verify the vascular expression of SPhk1, transcriptome and vascular proteome remodeling, as well as S1P content in HDL.
As a simple auxiliary tool for lower extremity orthopedic surgery, tourniquet can effectively reduce intraoperative bleeding and ensure the clarity of the operative field, effectively shorten the operation time and improve the operation efficiency. The extensive use of tourniquets in lower extremity surgery will not only cause local paralysis, pain and other complications, but also bring about postoperative complications such as large drainage volume and deep vein thrombosis. Recent studies have found that tourniquet induced ischemia-reperfusion injury not only affects the local tissue structure and function of skeletal muscle, but also causes reperfusion injury in distant organs (such as heart, lung and brain). Therefore, improving tourniquet ischemia-reperfusion injury after knee replacement is of great significance to improve the quality of life of patients during the perioperative period. Therefore, the aim of this study was to investigate the effects of dexmedetomidine and tourniquet pretreatment on myocardial injury and brain injury caused by lower extremity ischemia-reperfusion.
The study is a two-center prospective cohort clinical trial. The primary purpose of this trial is to identify the pattern of DKK2 serum levels in ischemic stroke patients after revascularization therapy and determine the correlation between serum DKK2 levels and prognosis.
The purpose of this project is to test the feasibility and safety of inhaled hydrogen gas (H2) administration as a rescue therapy during cardiac arrest requiring extracorporeal cardiopulmonary resuscitation (ECPR, i.e. mechanical circulatory support). Under exemption from informed consent, patients undergoing refractory cardiac arrest in the cardiac ICU at a participating center will be randomized to standard therapy with or without the administration of 2% hydrogen in gases administered via the ventilator and ECMO membrane for 72 hours.
The aim of the study is to evaluate the feasibility of this bubble and surface oxygenation and to determine the optimal timing of surface oxygenation (continuous versus intermittent) as alternative for membrane-oxygenated kidneys, originating from DCD donors, during HMP on early graft function in clinical practice.