Active clinical trials for "Infarction"

First-in-Human study to assess the CoFI™ device related safety and the feasibility of the diagnostic and the therapeutic sequence as well as the correlation between the dynamic microvascular resistance (dMVR) and microvascular obstruction (MVO) as measured by MRI in patients presenting with acute ST-elevation myocardial infarction (STEMI) undergoing percutaneous coronary intervention (PCI).

The purpose of this research is to find out if doing cardiac rehab at home, or a mix of cardiac rehab at home and in the clinic, is as effective as coming in to the clinic for cardiac rehab.

Part I (Pilot Phase): The purpose of this study is to examine if formalized data assessment and systematic feedback improves treatment times (i.e. contact-to-balloon time and door-to-balloon time) in patients with myocardial infarction with ST-segment elevation (STEMI). Part II (Implementation Phase): The Purpose is to prospectively investigate if survival can be improved by stringent use of this concept of formalized data analysis and systematic feedback of procedural and clinical data to all participating physicians and other members of the STEMI patients treating personnel. Part III (Advance Phase): The purpose is to develop, introduce and evaluate prospectively an automated, highly standardized feedback tool informing participating centers on key performance characteristics (procedural and clinical outcomes).

Postictus hyperglycemia is associated with an accelerated transformation of the ischemic penumbra into an infarct area, with increased infarct size, worse recanalization, reduced cerebral perfusion, increased ischemia reperfusion damage, and worse outcome. Furthermore, when perfusion is reinstated, hyperglycemia causes secondary tissue damage through an increase in ischemic reperfusion damage. Thus, those patients with glycemia values < 155 mg/dL during mechanical thrombectomy, and especially at the time of reperfusion, will have greater ischemia-reperfusion damage, showing a different profile in miRNA expression, with better neurological and functional outcomes and higher risk of hemorrhagic transformation and cerebral edema. The main objective of the study is to evaluate the association between glycemia values at the time of reperfusion and stroke recovery at 3 months in patients with acute cerebral infarction treated with mechanical thrombectomy.

Silent brain infarctions (SBIs) are a manifestation of covert cerebrovascular disease, without obvious clinical deficit, noted very often in patients presenting with a new stroke or new transient ischemic attack. SBIs are linked to a significant increase in risk for subsequent stroke and cognitive decline. However, no biomarker is currently available that can predict the recurrence of these subclinical lesions. Coated-platelets are a measure of platelet procoagulant potential significantly increased in patients with ischemic stroke or transient ischemic attack compared to unaffected controls. Higher coated-platelet levels are strongly associated with both the presence and number of SBIs. Among medications approved for preventing stroke recurrence, we identified clopidogrel as a pharmacological agent leading to a decrease in coated-platelet levels. In this project, we plan to evaluate if clopidogrel can decrease the rate of occurrence of new silent brain infarctions. The result will enhance the investigators understanding of the relationship between platelets and silent brain infarcts, leading to improved health care delivery and also potential targets for novel preventive pharmacological interventions.

The POLARSTAR study is an early feasibility study to evaluate the performance and safety of the CryoTherapy System (CTS) for the treatment of coronary plaque lesions that are not obstructing blood flow but are at high-risk of rupture which would cause a major heart attack. The CTS is used to apply local freezing of the lesion using a balloon catheter, controlled by a console that regulates in- and outflow of a cooling agent into the catheter. The treatment is expected to stabilize the lesion, diminishing the risk of rupture. The study will enrol subjects with acute coronary disease who have suitable coronary lesions. Subjects will be followed for 1 year after the CTS treatment. Baseline identification of lesions will be done using Coronary CT-angiography (CCTA), which will be repeated at 3 and 9 months after procedure.

This study investigates the feasibility of conducting a randomized controlled trial of telehealth-enhanced hybrid cardiac rehabilitation (THCR) compared with traditional cardiac rehabilitation (CR) among acute coronary syndrome (ACS) survivors. THCR is a novel, hybrid model that targets the same core components as traditional CR (e.g., exercise training, patient education, and risk factor management), but uses a mixture of telehealth, clinic-, and home-based activities to offer 24 CR sessions (5 clinic-based + 19 home-based) over 12 weeks.

This study is being done to observe the effects of treatment from a device called the Bioboosti which utilizes pulsed electromagnetic waves on its ability to improve blood flow to the heart tissue in individuals with coronary artery disease (CAD).

The goal of this clinical trial is to compare implementation of a Decision Support System (DSS) - aligned to the 2019 ESC/EAS Guidelines - in addition to routine clinical care versus routine clinical care without availability of a DSS, in participants aged ≥18 to < 80 years old presenting with Acute Coronary Syndrome (ACS). The main questions it aims to answer are: to assess whether the availability of a DSS (which provides estimates of risk and estimates of potential benefit through LDL-C lowering) to current practice results in an increase in the early initiation of combination Lipid Lowering Therapies (LLTs) or intensification of LLT regimens compared to current practice alone over a 24-week period after an Acute Coronary Syndromes (ACS) event To estimate in the study cohort the potential benefits of guideline-based LLT intensification via simulation-based methods using estimates of baseline risk: LLT utilisation, additional LDL-C reductions and LDL-C goal achievement, on simulated risk of CV events through modelling. Participants will give consent to randomised clinical sites to collect their data. The clinical sites will either be randomised to standard of care or the availability of and access to the DSS. Researchers will compare patients from DSS and Non-DSS sites to see if the availability of the DSS results in implementation of more intensive lipid lowering regimens, resulting in the achievement of lower LDL-C values as well as the proportion of patients who reach target LDL-C levels (<1.4 mmol/L (<55 mg/dL) by Week 24.

The overall primary objective of the PULSE-MI trial is to test the hypothesis that administration of single-dose glucocorticoid pulse therapy in the pre-hospital setting reduces final infarct size in patients with ST-segment elevation myocardial infarction (STEMI) treated with primary percutaneous coronary intervention (PCI)