Active clinical trials for "Reperfusion Injury"

Hypoxic-ischaemic brain injury (HIBI) is the main cause of death in patients who are comatose after resuscitation from cardiac arrest. Current guidelines recommend to target a mean arterial pressure (MAP) above 65 mmHg to achieve an adequate organ perfusion. Moreover, after cardiac arrest, cerebral autoregulation is dysregulated and cerebral blood flow (CBF) depends on the MAP. A higher blood pressure target could improve cerebral perfusion and HIBI. Transcranial Doppler (TCD) is a non-invasive method to study CBF and its variations induced by MAP. The aim of this study is to test the feasibility of an early-goal directed hemodynamic management with TCD during the first 12 hours after return of spontaneous circulation (ROSC).

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.

The proposed study is a single-center, randomized controlled pilot trial of adults who suffer in-hospital cardiac arrests. Using cerebral oxygenation and end-tidal carbon dioxide physiological targets to predict survival and neurological outcome, the impact of physiological-feedback CPR will be assessed. 150 adult patients who have a cardiac arrest event at NYU Tisch Hospital will be randomized to one of two treatment groups: (1) Physiological-Feedback CPR or (2) Non-Physiological (Audiovisual) Feedback CPR.

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.

Ischemia and reperfusion injury during free flap reconstructive surgery creates a state of increased oxidative stress that can adversely affect the flap outcomes. Ascorbic acid (AA) had been proven to have beneficial effect on end-organ protection and flap survival from ischemia-reperfusion injury via its antioxidant properties. The investigators hypothesise that perioperative parenteral ascorbic acid treatment may reduce oxidative stress among participants undergoing free flap reconstructive surgery along with reduction in inflammatory markers, improved rate of flap viability and wound healing at both donor and recipient sites.

The investigators hypothesize that preconditioning neurologically deceased organ donors with the calcineurin inhibitor tacrolimus will improve short and long-term transplant survival without causing harm. Organ donors will be randomized to receive either 0.02 mg/kg ideal body weight (IBW) of tacrolimus single infusion or placebo before organ recovery. All corresponding recipients are enrolled and data is collected up to 7 days post-transplant to determine graft function and at 1 year to collect outcomes of vital status, re-transplantation and dialysis. The CINERGY Pilot Trial assesses feasibility for the main trial.

Acute ischemic stroke (AIS) has been one of the major causes of global mortality and morbidity. The superiority of endovascular therapy (EVT) over standard medical therapy in treating AIS due to large vessel occlusion (LVO) in the anterior circulation has been widely accepted. However, a critical concern is that even with an extremely high rate of successful recanalization (the modified thrombolysis in cerebral infarction [mTICI] score 2b-3) around 90%, nearly half of the patients failed to benefit from EVT. So, adjunctive therapy of EVT for neuroprotection is required. From the previous domestic and foreign literatures, hypothermia can prevent and treat secondary injury caused by ischemia-reperfusion injury and cerebral edema of acute cerebral ischemia, so as to achieve the role of neuroprotection. In this study, intravascular cooling was performed as soon as possible with careful temperature control in patients receiving thrombectomy. The temperature was controlled at 33° C for 48-72 hours. This parallel controlled study is to systematically evaluate the feasibility and safety of adjunctive therapy using early intravascular hypothermia in AIS patients receiving mechanical thrombectomy. The results will clarify a potential modality for neuroprotection and hopefully provide new evidence in improving patient prognosis.

Remote ischemic preconditioning (RIPC) has shown organ-protective effects in many clinical settings including patients with ischemic heart disease. However its protective role in head and neck cancer patients with preoperative radiotherapy undergoing free flap reconstructive surgery has not yet been evaluated. The purpose of the current study is to evaluate the effect of RIPC on tissue oxygen saturation and skin temperature of the flap, as well as its organ-protective effects using Langendorff isolated heart ischemia-reperfusion model.

Ischemia-reperfusion injury (IRI) is unavoidably typical of solid organ transplantation. Post-reperfusion syndrome (PRS), characterized by hemodynamic instability at reperfusion of the implanted graft, is a possible complication of liver transplantation. For sure, IRI plays a fundamental role in the multifactorial pathogenesis of PRS. IRI and PRS are associated with a higher risk of early allograft dysfunction (EAD) and, consequently, graft failure. Liver grafts from both extended criteria donors (ECD) and donation after circulatory death (DCD) are particularly susceptible to IRI and, accordingly, are at higher risk of PRS, EAD and graft failure. Anyway, in the present scenario of organ shortage, such donors greatly contribute to enlarge the organ pool. So, various strategies have been developed for the purpose of a safer use of this kind of grafts. Among them, ex vivo hypothermic oxygenated perfusion (HOPE) reduces IRI and is beneficial for high-risk liver grafts. The pathogenesis of IRI is an extremely complex downstream inflammation process, involving many different cytokines, chemokines and growth factors. In particular, tumor necrosis factor-alfa (TNF-alfa), interleukin-6 (IL-6), IL-8 and endothelin-1 (ET-1) are crucial in the development of IRI in liver transplantation. In experimental models, cytokine filtration during ex vivo lung perfusion (EVLP) was proved to be safe and effective in reducing inflammatory response and, thus, pulmonary edema development. Since in liver transplantation, IRI and PRS are associated with a higher risk of EAD and graft failure liver grafts from ECD and DCD are particularly susceptible to IRI and are at higher risk of PRS, EAD and graft failure HOPE of high-risk liver grafts reduces IRI in solid organ transplantation, various cytokines, chemokines and growth factors are involved in the pathogenesis of IRI in experimental models of EVLP, cytokine filtration was proved to reduce inflammatory response and subsequent organ damage, our hypothesis is that cytokine filtration during HOPE of high-risk liver grafts may potentiate the beneficial effects of HOPE, further reducing IRI and, consequently, further decreasing the incidence of PRS and EAD. So, the aim of this study is to verify the feasibility and safety of cytokine filtration during end-ischemic HOPE of liver grafts.

The prevention of secondary brain injury is a primary goal in treating patients with severe traumatic brain injury (TBI). Secondary brain injury results from tissue ischemia induced by increased vascular resistance in the at-risk brain tissue due to compression by traumatic hematomas, and development of cytotoxic and vasogenic tissue edema. While traumatic hematomas may be managed surgically, cytotoxic and vasogenic edema with resulting perfusion impairment perpetuates brain ischemia and injury. Animal models suggest that remote ischemic conditioning (RIC) can reverse these effects and improve perfusion. Based on these findings it is hypothesized that RIC will exert beneficial effects on TBI in man, thereby representing a new therapeutic strategy for severe TBI. Patients presenting to our institution suffering from severe TBI will be considered for enrollment. Eligible patients will have sustained a blunt, severe TBI (defined by Glasgow Coma Scale <8) with associated intra-cranial hematoma(s) not requiring immediate surgical decompression, with admission to an intensive care unit and insertion of an intra-cranial pressure monitor. Patients will be randomized to RIC versus sham-RIC intervention cohorts. RIC interventions will be performed using an automated device on the upper extremity delivering 20 cumulative minutes of limb ischemia in a single treatment session. The planned enrollment is a cohort of 40 patients. Outcomes of this study will include multiple domains. Our primary outcome will include serial assessments of validated serum biomarkers of neuronal injury and systemic inflammation. Secondary outcomes will include descriptions of the clinical course of each patient, radiologic assessment of brain perfusion, and neurocognitive and psychological assessment post-discharge. If clinical outcomes are improved using RIC, this study would support RIC as a novel treatment for TBI. Its advantages include safety and simplicity and, requiring no specialized equipment, its ability to be used in any environment including pre-hospital settings or in austere theatres. The investigators anticipate that TBI patients treated with RIC will have improved clinical, biochemical, and neuropsychological outcomes compared to standard treatment protocols.