View clinical trials related to Ischemia.
Filter by:Chronic angina pectoris refractory to medical and revascularization therapies is a disabling medical condition and a major public health problem. Patients with refractory angina have limited treatment options. One proposed therapy modality is transcatheter implantation of a reduction stent in the coronary sinus. Coronary sinus reduction stents have been shown to reduce angina burden considerably and to improve quality of life. The reduction stent is assumed to increase myocardial perfusion and reduce myocardial ischemia, but the mechanism of action is poorly understood. The aim of this project is to assess the myocardial ischemia burden in patients with refractory angina who are undergoing a transcatheter coronary sinus reducer procedure. This is a clinical non-randomized self-controlled cohort study with blinded outcome adjudication for changes in myocardial perfusion. Patients with refractory angina will be systematically examined before implantation of the coronary sinus reduction stent and after 6 months. The primary outcome, changes in myocardial perfusion on the gold standard 15O-H2O PET/CT will be evaluated on blinded perfusion scans where the stent is invisible. To provide context to the findings, we will also evaluate whether changes in myocardial ischemia are associated with less angina and better cardiac function parameters. Effects of stent implantation on angina symptoms and quality of life could be affected by a placebo effect. Treatment options for patients with refractory angina is needed, and results from the present study will explore if coronary sinus reduction stents are improving myocardial ischemia in this patient group. Signs of improved objective perfusion will inspire confidence in the method.
The objective of this study is to evaluate the safety and effectiveness of the clinical and technical performance of the VRS100 system with disposable surgical kit in the delivery and manipulation of coronary guidewires and stent/balloon systems for use in percutaneous coronary interventions (PCI).
To identify a correlation between Toe Brachial pressure Index (TBPI) and Acceleration time of the pedal vessels. The aim would then to use this data to design a clinical study assessing the relationship between PAT and wound healing in patients with PAD.
Scientific Background: In secondary prevention of ischemic stroke, detection of atrial fibrillation (AFib) and subsequent anticoagulation therapy reduce the risk of recurrent stroke by approximately 60%. Prolonged electrocardiogram (ECG) monitoring up to 6 months significantly increases detection of AFib in cryptogenic stroke. Wearables like smartwatches have recently been shown to adequately detect AFib in the general population. Thus, prolonged ECG monitoring after cryptogenic ischemic stroke or transient ischemic attack (TIA) using a smartwatch could lead to a reduction of recurrent stroke by prompting adequate anticoagulation therapy and may constitute a cost-effective, non-invasive, and broadly-available alternative to the current standard of care. Hypothesis: The investigators hypothesize that AFib detection via smartwatch in patients with cryptogenic TIA or ischemic stroke is accurate compared to an implantable event recorder. Methods: The investigators introduce a prospective, intraindividual-controlled, multicentre clinical study in patients with cryptogenic ischemic stroke or TIA. In addition to an implanted event recorder as indicated by clinical standard, included patients receive a smartwatch for detection of AFib. ECG-data from smartwatches will be continuously monitored by two independent cardiologists. As soon as AFib is confirmed, a doctoral appointment is set to evaluate start of anticoagulation. The follow-up period will be six months. The study consists of four study visits: a baseline visit, two phone visits at one and three months, and an end of trial visit at six months. Primary Objective: To compare smartwatch and event recorder based analysis for sensitivity and specificity of AFib detection per patient after six months
The Global Vascular Guideline on chronic limb threatening ischemia (CLTI) proposes the Global Limb Anatomic Staging System (GLASS), a new angiographic scoring system to quantify the anatomic severity of infrainguinal disease in CLTI patients. However, GLASS validation still needs to be completed, and the infrapopliteal (IP) target artery pathway (TAP) was easily influenced by the procedures. Thus the IP target artery could be selected either as the least diseased artery based on angiography or prospectively based on the angiosome concept. So the investigators aim to evaluate its correlation with clinical outcomes after revascularization.
This is a single center, randomized, double-blind, placebo-controlled, dose-Escalation clinical study to investigate the safety and efficacy of EPCs transplantation in Acute ischemic stroke.
Atrial fibrillation (AF) is one of the most common cardiac arrhythmias and cardioembolic stroke due to AF is its major complication. Direct oral anticoagulants (DOAC) reduce the risk of cardioembolism in patients with AF. Despite DOAC therapy, there is a significant residual stroke risk of 1-2%/year. Recent data from the Swiss Stroke Registry found 38% of patients with AF and ischemic stroke were on prior anticoagulant therapy (approximately 400 patients per year in Switzerland). The investigators found in a prior observational study, that patients with AF who have ischemic stroke despite anticoagulation are at increased risk of having another ischemic stroke (HR 1.6; 95% confidence interval, CI 1.1-2.1). Combining observational data from 11 international stroke centres, the investigators found that the majority of ischemic strokes despite anticoagulation in patients with AF is "breakthrough" cardioembolism (76% of patients) and only a minority of 24% is related to other causes unrelated to AF. Optimal secondary prevention strategy is unknown. The investigators have conducted two independent observational studies including together >4000 patients but did not identify any strategy (e.g. switch to different DOAC, additional antiplatelet therapy) that seems superior. A recent randomized controlled trial on surgical occlusion of the left atrial appendage (LAAO) found that LAAO may provide additional protection from ischaemic stroke in addition to oral anticoagulation. Triggered by this finding, the investigators performed a matched retrospective observational study and found that patients with AF and stroke despite anticoagulation who received a combined mechanical-pharmacological therapy (DOAC therapy + LAAO) had lower rates of adverse outcomes compared to those with DOAC therapy alone. Therefore, the investigators hypothesize that in patients with AF and ischemic stroke despite anticoagulant therapy, LAAO in addition to anticoagulation with a DOAC is superior to DOAC therapy alone. The investigators propose an international, multi-center randomized controlled two-arm trial to assess the effect of LAAO in patients with AF suffering from strokes despite anticoagulation therapy and without competing stroke etiology. The investigators will use the PROBE design with blinded endpoint assessment. The investigators will enrol patients with non-valvular AF and a recent ischemic stroke despite anticoagulation therapy at stroke onset. Patients will be randomized 1:1 to receive LAAO + DOAC therapy (experimental arm) or DOAC therapy alone (standard treatment arm). The primary endpoint is the first occurrence of a composite outcome of recurrent ischemic stroke, systemic embolism and cardiovascular death during follow-up. Secondary outcomes include individual components of the primary composite outcome, safety outcomes (i.e. symptomatic intracranial haemorrhage, major extracranial bleeding, serious device- or procedure-related complication), functional outcome (modified Rankin Scale) and patient-oriented outcomes. The minimum follow-up is 6 months and all patients will receive follow-ups every 6 months until end of study, the maximal follow-up will be 48 months. Based on prior observational data from the investigators' group and others (5 observational studies, >5000 patients), the investigators estimate the proportion of patients with the primary outcome in the standard treatment arm to be 18% in the first year and 9% in the second year (=cumulative 27% after 2 years). A relative risk reduction of 40% at 2 years would be clinically relevant. Based on these assumptions and a log-rank test, the investigators would need 98 events for a power of 80% at an alpha-level of 5%. Assuming a recruitment rate of 52, 118, 156 and 156 patients in years 1 to 4, an additional 6 months of follow-up (mean follow-up time of 2.1 years) and a uniform drop-out rate of 7.5% per year, 482 patients would need to be enrolled. How to treat patients with an ischemic stroke despite anticoagulation is a major yet unresolved clinical dilemma. This trial has the potential to answer the question whether LAAO plus DOAC therapy is superior to current standard of care for patients with AF who have ischemic stroke despite anticoagulation.
This early phase trial will address the following key objectives: 1. Completion of initial safety and tolerability testing of our viable prototype for remote ischemic conditioning (RIC) with patients with (a) CSVD and (b) acute ischemic stroke. 2. Usability testing of the prototype with patients and healthcare professionals, with further optimization. Approximately 24 patients with CSVD will be recruited to use the RIC device daily for 60 days and provide feedback. They will be randomized in a 1:1 ratio to either true RIC therapy or sham control for the first 30 days, after which the sham group will cross over to receive true RIC for the remaining 30 days. Feasibility testing will be done in the mobile stroke unit on up to 10 patients with acute ischemic stroke. An additional 10 stroke physicians and paramedics will conduct device usability testing and provide feedback.
The aim of this study is to investigate the effects of remote ischaemic preconditioning on the peripheral blood characteristics of healthy adults and to explore the possible mechanisms for improving ischaemia/reperfusion injury and its protective effects on the cardiovascular system.
Ischemic stroke has high morbidity and mortality worldwide. Stroke patients experience physical, psychological, and social problems, and require rehabilitation. The aim of stroke rehabilitation is to support patients in optimizing their physical, functional, mental, social, and occupational aspects. Telerehabilitation-based coaching interventions are among the individualized interventions applied to patients. This study aimed to examine the effects of telerehabilitation-based coaching interventions on self-efficacy, modifiable risk factors, and repeated hospitalizations in patients with ischemic stroke. It is predicted that discharge education in disease management and telerehabilitation-based coaching interventions will increase self-efficacy, reduce modifiable risk factors (blood pressure, cholesterol, triglyceride, HbA1c levels, body mass index, smoking, and alcohol use), and reduce repeated hospitalizations. With an education booklet prepared for ischemic stroke patients and primary care providers, one-on-one face-to-face education is planned while patients are in the clinic on the fourth or fifth day of stroke. Determination of individual goals with motivational interview, sending educational videos prepared in cooperation with the multidisciplinary health team to the phones or e-mails of the patients, providing telerehabilitation-based coaching a total of seven times for three months after discharge, monitoring the targets set weekly and monthly, and monthly follow-up after three months. It is planned to support patients with practices such as achieving their goals, maintaining healthy lifestyle changes such as diet and physical activity, and monitoring metabolic parameters. The evaluation form of the education booklet, videos prepared with the cooperation of the multidisciplinary team, and phone call evaluation form will be evaluated by 10 experts. The preliminary application will be tested with 6 patients, and the final form will be provided. The second phase of the study was designed as a single-center, single-blind (participant), randomized controlled study. The study will be carried out with a total of 60 patients with ischemic stroke, 30 in the intervention group and 30 in the control group, who continued to be followed up and treated at the Neurology Clinic of Akdeniz University Hospital.