View clinical trials related to Ischemic Preconditioning.
Filter by:Introduction: Contrast induced nephropathy (CIN) is a major inconvenience in the use of iodinated contrast media (ICM) and it is associated with a significant increase in morbimortality and cost of hospitalization. Remote ischemic preconditioning (RIPC) is a non-invasive and cost-effective tissular protection technique that has proven beneficial in decreasing renal insult in patients receiving intravascular contrast. Aim: The primary outcome of this study is to evaluate the impact of RIPC on the incidence of CIN in patients undergoing endovascular aneurysm repair.Material and Methods: Patients suffering from aortic aneurysm were recruited prior to the administration of iodinated contrast media. Randomization was used to assign patients into the control/RIPC groups. Biochemical parameters determined renal function before and after surgery in immediate (24-72 hours) and at 30 days' follow-up.
There is no study investigating different volumes, that is various sets of the configuration of tissue flossing on neuromuscular function. Previously, investigators found that 3 sets of TF impaired neuromuscular function assessed with TMG. Therefore, the aim is to compare the effects of one and two sets of TS on countermovement jump (CMJ) performance and muscle contractile properties.
This study will examine two separate interventions: 1) the effects of ischemic preconditioning or 2) a high fat meal on the capacity of the brachial artery to overcome sympathetic activation and dilate during exercise (also known as functional sympatholysis). Participants will be asked to complete rhythmic handgrip exercise with and without the application of -20 mmHg lower body negative pressure to increase sympathetic activation. Doppler ultrasound will be used to continuously measure brachial artery blood flow. Participants will complete the handgrip exercise and lower body negative pressure before and after the applications of each interventions. Participants may elect to only complete one intervention rather than complete both protocols. Intervention one is active or control ischemic preconditioning. Intervention two is high or low fat meals.
The aim of this study is to evaluate the role of remote ischemic preconditioning (RIPC) in preventing acute kidney injury after lower limb revascularization. Remote ischemic preconditioning(RIPC) is a simple, cost-free and non invasive procedure (transient upper limb ischemia/reperfusion) that could provide organ protection (Heart, Brain and Kidney) following ischemia injuries.
This study will be the first study to use ischemic preconditioning (IPC) as an intervention to improve stroke rehabilitation. IPC is a well studied, well tolerated intervention which has been shown to improve regional blood flow, motor neuron excitability and muscle function in multiple patient groups and in young, healthy subjects. Because IPC targets three physiological systems which are all affected by stroke, we hypothesize that repeated bouts of IPC during the first days to months following stroke (when the majority of recovery occurs) will make traditional rehabilitation strategies more effective.
Background: Acute kidney injury (AKI) following coronary artery bypass graft (CABG) surgery is a major complication occurring in 1% to 53% of patients (depending on how it is defined) with the pooled rate of 18.2% and unfortunately 2.1% of them require renal replacement therapy. Cardiopulmonary bypass (CPB)-associated AKI increases mortality 2-4 fold regardless of AKI definition. It is also associated with increased risk of postoperative stroke, acute myocardial infarction, cardiac tamponade, heart failure, and lengthened intensive care unit and hospital stays. Even minor elevations of postoperative serum creatinine (SCr) have been associated with a significant increase in 30-day mortality, from a 3-fold increase risk for a small elevation of up to 0.5 mg/dL from baseline to an 18-fold increase risk of death with a SCr rise greater than 0.5 mg/dL. The pathogenesis of CPB-associated AKI is complicated and includes hemodynamic, inflammatory and other mechanisms that interact at a cellular level. To date, despite several clinical trials of pharmacologic interventions, none of them have demonstrated conclusively efficacy in the prevention of AKI after cardiac surgery. Remote ischemic preconditioning (RIPC) is a phenomenon in which brief ischemia of one organ or tissue, provokes a protective effect that can reduce the mass of infarction caused by vessel occlusion and reperfusion. In CABG surgery, cardiomyocyte injury caused by myocardial protection failure is predominantly responsible for adverse outcomes. RIPC was shown to reduce troponin release 24 h postoperatively in children undergoing corrective surgery for congenital heart disease. Other studies demonstrated that RIPC using brief ischemia and reperfusion of the upper limb reduces myocardial injury in adult patients undergoing CABG surgery. Due to the similarities between the mechanisms of ischemia-reperfusion injury produced by RIPC and those proposed for AKI after CPB, we decided to test the hypothesis that RIPC prevents AKI in patients undergoing CABG surgery. Methods: 180 patients who fulfill all inclusion and exclusion criteria will be divided into case and control groups (90 patients in the case and 90 patients in the control group). Patients in the treatment group will receive three sequential sphygmomanometer cuff inflations on their right upper arm after induction of anesthesia in the operating room. The cuff will be inflated by the OR nurse up to 200 mmHg for five minutes each occasion, with five minutes deflation in between inflations. Following this pre-conditioning phase, surgery will be started. The entire pre-conditioning phase will last 30 minutes. Patients in the control group will have the sphygmomanometer cuff placed on their right upper arm, but the cuff will not be inflated. Similar to patients in the treatment group, patients in the control group will undergo the same 30 minute delay before starting surgery. Complete blood count (CBC), SCr, liver function test (LFT), will be checked before surgery. After surgery, SCr will be checked daily. If AKI occurs, it will be managed and dialysis will be done if the patient requires it. All patients will undergo electrocardiogram and LFT after CABG surgery during hospital course.
The purpose of this study is to determine the impact of remote ischemic preconditioning on dynamic cerebral autoregulation and related hematology indexes in healthy adults.
Intermittent arm cuff inflation reduces the extent of heart muscle injury at the time of cardiovascular injury. The intervention is known as remote ischaemic conditioning (RIC) however the mechanisms by which RIC acts are incompletely understood. One mechanism that might explain the benefits of RIC is an improvement in coronary artery function which in turn might help improve blood flow to heart muscle. The investigators will perform a randomised controlled study of RIC in a minimum of 60 patients with known or suspected angina and in whom coronary angiography with angioplasty would be considered. Following informed consent before the invasive procedure, the patient will be randomly assigned to the intervention group (cuff inflation protocol) or the control group (cuff placement, no inflation; sham protocol). Following initial coronary angiography, endothelial function will be assessed by intra-coronary infusion of acetylcholine in incremental doses. Coronary diameter will be measured after the procedure using quantitative coronary angiography, by a trained observer blinded to the allocated group. Since a neuro-hormonal response may potentially mediate RIC, a blood test will be performed before and after cuff placement in all patients (active and control groups) to measure circulating molecules known to regulate blood vessel function which may be implicated in a RIC-mediated effect on coronary artery tone. This study may provide clinically relevant insights into the mechanisms of action of RIC in patients with coronary heart disease.
The purpose of this study is to learn about protecting the brain from dangerous low blood flow.
The application of a tourniquet for 5 minutes and subsequent reperfusion before actual inflation of the tourniquet for total knee arthroplasty (ischemic preconditioning) decreases the level of local inflammation and therefore postoperative pain in response to reperfusion of the ischemic extremity.