View clinical trials related to Ischemia.
Filter by:Most ischemic stroke patients are in recovery phase, often accompanied by motor impairment, but they lack effective treatment. The appearance of nerve growth factor (NGF) promotes the development of neuroprotective therapy, but it has little effect on stroke because of the blood-brain barrier (BBB). Electroacupuncture (EA) has been used for stroke, while there is no significant clinical effect for recovery phrase. Consequently, we will conduct a multicentre, randomised, controlled, assessor-blinded clinical trial to assess the effectiveness and safety of EA combined with NGF treatment on ischemic stroke recovery.
Annually 100,000 strokes occur, placing stroke as the largest cause of disability in the UK. 90% of strokes are preventable, leading to national focus on programmes including "The National Stroke Programme" to act on preventing, treating, and improving post-stroke care. Importantly, over 25% of ischaemic stroke sufferers have previously had a Transient Ischaemic Attack (TIA), which presents the biggest concern for TIA patients. There are no measures which reliably identify TIA patients most likely to suffer a stroke. Novel biomarkers for predicting stroke are key to addressing this problem. The PREDICT-EV study aims to screen 300 TIA patients and follow them over 12-months. The investigators will determine if a novel biomarker we've identified to increase thrombotic risk (endothelial derived extracellular vesicles) and the resulting increased prothrombin time is associated with patients at highest risk of stroke.
This study is a multicenter, prospective, cohort study to observe the clinical efficacy and safety of edaravone dextrol in patients with acute ischemic stroke in a real-world setting.
AID-ANGIO is an observational, prospective, single arm, longitudinal study. Its objective is to investigate the diagnostic yield of the systematic use of a diagnostic strategy hierarchically addressing both obstructive and non-obstructive causes of myocardial ischaemia in an all-comers population of patients with chronic coronary syndromes (CCS) undergoing invasive coronary angiography (ICA). Angiographically severe-grade stenosis (≥70%) can be safely considered flow-limiting without further physiological assessment. Conversely, by means of a pressure guidewire, intermediate-grade stenosis would be evaluated with fractional flow reserve (FFR) and/or non-hyperaemic pressure ratios (NHPR) in order to determine if they are physiologically relevant. Those patients with non-obstructive CAD or normal epicardial coronary arteries would undergo functional coronary tests to investigate the presence of microcirculatory and vasomotor coronary disorders, which would account for non-obstructive causes of ischaemia. The main hypothesis of AID-ANGIO study states that, in patients with CCS referred to ICA, the application of a structured strategy -including ICA, physiological assessment of intermediate-grade stenosis and functional coronary tests- leads to a high diagnostic accuracy.
Ischemic heart disease (IHD) leads the global mortality statistics. Atherosclerotic plaques in coronary arteries hallmark IHD, drive hypoxia, and may rupture to result in myocardial infarction (MI) and death of contractile cardiac muscle, which is eventually replaced by a scar. Depending on the extent of the damage, dysbalanced cardiac workload often leads to emergence of heart failure (HF). The atrial appendages, enriched with active endocrine and paracrine cardiac cells, has been characterized to contain cells promising in stimulating cardiac regenerative healing. In this AAMS2 randomized controlled and double-blinded trial, the patient's own tissue from the right atrial appendage (RAA) is for therapy. A piece from the RAA can be safely harvested upon the set-up of the heart and lung machine at the beginning of coronary artery bypass (CABG) surgery. In the AAMS2 trial, a piece of the RAA tissue is processed and utilized as epicardially transplanted atrial appendage micrografts (AAMs) for CABG-support therapy. In our preclinical evaluation, epicardial AAMs transplantation after MI attenuated scarring and improved cardiac function. Proteomics suggested an AAMs-induced glycolytic metabolism, a process associated with an increased regenerative capacity of myocardium. Recently, the safety and feasibility of AAMs therapy was demonstrated in an open-label clinical study. Moreover, as this study suggested increased thickness of the viable myocardium in the scarred area, it also provided the first indication of therapeutic benefit. Based on randomization with estimated enrolment of a total of 50 patients with 1:1 group allocation ratio, the piece of RAA tissue is either perioperatively processed to AAMs or cryostored. The AAMs, embedded in a fibrin matrix gel, are placed on a collaged-based matrix sheet, which is then epicardially sutured in place at the end of CABG surgery. The location is determined by preoperative late gadolinium enhancement cardiac magnetic resonance imaging (LGE-CMRI) to pinpoint the ischemic scar. The controls receive the collagen-based patch, but without the AAMs. Study blood samples, transthoracic echocardiography (TTE), and LGE-CMRI are performed before and at 6-month follow-up after the surgery. The trial's primary endpoints focus on changes in cardiac fibrosis as evaluated by LGE-CMRI and circulating levels of N-terminal prohormone of brain natriuretic peptide (NT-proBNP). Secondary endpoints center on other efficacy parameters, as well as both safety and feasibility of the therapy.
Two recent randomized controlled trials (BAOCHE and ATTENTION) have confirmed the efficacy and safety of endovascular therapy in patient with acute ischemic stroke (AIS) due to basilar artery occlusion (BAO). However, it is still inconclusive whether there is any differences between endovascular therapy with or without bridging intravenous thrombolysis in acute BAO. So far, no randomized controlled trial has been conducted specifically for endovascular therapy with or without intravenous thrombolysis for ischemic stroke due to BAO. Therefore, this study plans to conduct a prospective, multicenter, randomized controlled trial to compare the functional outcomes between endovascular therapy with and without intravenous thrombolysis in patient with AIS due to BAO. This study is a multicenter, parallel, open label, randomized controlled trial comparing direct endovascular therapy versus endovascular therapy bridging intravenous thrombolysis (IVT). This study intends to include patients with AIS due to BAO fulfilling the following inclusion criteria: patients with AIS caused by BAO confirmed by CTA/MRA/DSA; IVT can be started within 4.5 hours after symptoms onset; Age ≥ 18 years old; NIHSS score ≥ 6. The main outcome is the 3-month mRS scale score. Secondary outcomes included NIHSS at 24 hours and 7 days after surgery, CTA vascular recanalization at 24-72 hours, mRS at 5-7 days, and infarct volume. The safety outcomes included 90-day mortality and the incidence of sICH.
Excessive accumulation or abnormal distribution of adipose tissue is a recognized risk factor for ischemic stroke. However, the impact of overweight or obesity on clinical outcomes of ischemic stroke is uncertain. The proposition of obesity paradox in stroke patients makes secondary prevention ambiguous for patients with ischemic stroke and overweight or obesity. Body mass index (BMI) or abdominal visceral fat area was used to measure obesity in previous studies. Epicardial adipose tissue (EAT) is a unique visceral fat, which has higher expression of proinflammatory genes than subcutaneous fat and abdominal visceral fat. And inflammation is closely related to the prognosis of ischemic stroke. In this study, the investigators assume EAT volume or attenuation evaluated by chest computed tomography (CT) scan might affect the prognosis of patients with acute ischemic stroke (AIS). Patients with the first acute ischemic stroke will be stratified into tertile groups based on EAT volume or attenuation. The primary endpoint measure is the proportion of patients with a favorable recovery of nerve function deficiency assessed by Modified Rankin Scale (mRS≤2) at 90 days after the onset of symptoms. Secondary endpoints include the following: the percentage of functional recovery measured by the Barthel Index (BI) at day 90 after stroke onset, the propotion of clinical improvement (with an improvement of ≥ 4 points on the National Institute of Health Stroke Scale score or the resolution of the neurologic deficit) or neurological deterioration (with a decline by ≥ 4 points in the total National Institute of Health Stroke Scale score) at day 7 after stroke onset, incidence of hemorrhagic transformation and mortality within 7 days of symptom onset.
Can Semaglutide help reduce the damage caused by a stroke? ASSET trial is a national, multicenter, clinical trial, investigating the safety and efficacy of Semaglutide in non-diabetic patients with acute ischemic stroke. Stroke is a worldwide leading cause of long-term disability and death. In the most common type of stroke (ischemic stroke), a blood clot obstructs an artery in the brain, and thereby prevents oxygenated blood from reaching an area of the brain. Brain cells are particularly vulnerable to the lack of oxygen. In the areas most severely affected by a stroke, brain cells die after 5 minutes. As more time pass, the affected area expands, and more brain cells perish. Today, efficient treatments aiming at reestablishing the flow of blood by either breaking down the blood clot (thrombolysis) or removing the clot (thrombektomi) are used. However, a significant amount of patients undergoing succesful treamtent, still suffer permanent disability following an ischemic stroke. Semaglutide mimics a naturally occurring hormone (glucagon-like peptide-1) and is currently used to treat diabetes and obesity. However, semaglutide has also been shown to possess neuroprotective abilities in recent animal studies, where it reduced the damage caused by ischemic stroke in rats. This study sets out to investigate if it's possible to utilize Semaglutide, to increase the resilience of brain cells in patients with an acute ischemic stroke, with the aim of bettering their outcome. The participants consist of non-diabetic patients with acute ischemic stroke, who will be randomized to: - Treatment with subcutaneous Semaglutide, or - No additional treatment (control group) Both groups will be treated according to the standard national guidelies for acute ischemic stroke. The two groups will then be compared to see, if patients in the group treated with Semaglutide are less impacted by their stroke.
Background: The TNKCAT trial represents an innovative approach to optimize timely reperfusion in the Mothership and Drip-and-Ship scenarios. The logistic advantage of a single bolus infusion of TNK (compared to 1-h infusion of tPA) would markedly reduce the needle-to-groin and Door-in- door-out time. The implementation of a quality improvement package (QIP) in the TNKCAT trial would directly improve the quality and efficiency of the Health Care System. In addition, an improvement of transfer models would reduce the cost of unnecessary transfers, together with the fact that TNK is up to 50% less expensive than tPA, makes the TNKCAT in firm line with the sustainability strategy of the National Health Care system. Outcomes: The aim of the present study is to determine the safety and efficacy of TNK (0.25mh/kg) compared to tPA (0.9 mg/kg) in patients with Large Vessel Occlusion (LVO) suspicion, candidates for thrombectomy, in both Mothership and Drip-and-Ship scenarios. Study Duration: 2 years. Patients will participate in the trial for 3 months. Study design: Multicentre, prospective, randomized open-label blinded endpoint (PROBE) phase III study in acute stroke patients with LVO suspicion within 4.5 hours of stroke onset, candidates for EVT. Patients will be randomized 1:1 to standard dose tPA (0.9 mg/kg) or TNK (0.25mg/kg) before EVT. Clinical, imaging and outcome data will be collected at baseline, 24-36 hours, day 3, day 5 and day 90. Estimated enrollment: 500 patients
The molecular characteristics of ischemic stroke with phlegm-heat syndrome and candidate biomarkers were identified based on multi-omics data. The main purpose of this study is to validate the molecular characteristics and biomarkers of phlegm-heat syndrome in ischemic stroke, and to demonstrate the association of biomarkers with clinical outcomes.