Effect of Lantus and Apidra in Patients With Acute ST Elevation Myocardial Infarction
AMIPrimary objective: To demonstrate that in hyperglycemic subjects with anterior STEMI (ST Elevation Myocardial Infarction) undergoing Percutaneous Coronary Intervention (PCI), tight glycemic control using insulin glulisine and insulin glargine, i.e. Intensive Insulin Therapy (IIT), results in reducing infarct size at day 60 versus (vs) Standard Glycemic Care (SGC). Secondary objectives: To demonstrate that tight glycemic control using insulin glulisine and insulin glargine reduces markers of inflammation and improves Left Ventricular (LV) function and Cardio-Vascular (CV) outcomes from baseline values, in hyperglycemic subjects with STEMI undergoing Percutaneous Coronary Intervention (PCI).
A Trial Evaluating the Efficacy and Safety of Tenecteplase Together With Unfractionated Heparin...
Myocardial InfarctionTo show whether addition of thrombolytic treatment by a single bolus injection of tenecteplase prior to early standard PCI (percutaneous coronary intervention) will improve the clinical outcome in patients with large acute myocardial infarcts as compared to primary PCI alone.
Reducing Blood Pressure in Patients With High Cardiovascular Risk in the Safety-Net
Myocardial InfarctionHypertension1 moreBP-REACH is a study of a team-based (pharmacist and health coach) program for lowering blood pressure for people with a prior stroke or heart attack in the Los Angeles Department of Health Services public healthcare system. The goal of this clinical trial is to test if this team based program is better at helping people reduce their blood pressure than usual care for people with prior heart attack or stroke. The main questions it aims to answer are: Do people in the REACH BP program have lower blood pressure at 12 months compared to those getting usual care? Do people in the REACH BP program have better Life's Essential 8 scores and patient experience compared to those getting usual care? Half the participants will be randomly assigned to usual care and half will be assigned to the program. Those assigned to the program will receive a blood pressure cuff to check their blood pressure at home, educational materials, monthly phone calls from a health coach and regular follow up with a pharmacist who will prescribe medications, adjust them, and answer any questions and concerns. The health coach will teach the participants how to log on to the patient portal and access educational materials on an app. Those assigned to usual care will continue seeing their providers. All participants will be asked survey questions once they enroll, at 3 months and at 12 months.
Magnetocardiography in the Accurate Identification of Myocardial Infarction
Chest PainAcute Coronary Syndrome1 moreMagnetocardiography (MCG) is a promising noninvasive and accurate method for detecting myocardial infarction. Although progress has been made in this area, there is a lack of studies using up-to-date examination instruments for the calibration of MCG analysis. This is a prospective single-center study aiming to build accurate analytical models of MCG to detect myocardial infarction. Myocardial infarction are diagnosed by electrocardiogram, biomarkers (high-sensitivity cardiac troponin, etc), or non-invasive imaging (cardiac magnetic resonance or single-photon-emission tomography). Myocardial infarction is also quantified by cardiac magnetic resonance or single-photon-emission tomography. Healthy volunteers and chest pain patients who will receive electrocardiogram, biomarkers (high-sensitivity cardiac troponin, etc), or non-invasive imaging (cardiac magnetic resonance or single-photon-emission tomography) examination will be enrolled in this study.
Associations of Lipid Measures With Premature Myocardial Infarction: a Cross-sectional Study
Lipid DisorderPremature Myocardial InfarctionAcute myocardial infarction (AMI) is the first cardiovascular cause of death that seriously threatens human health worldwide. Its incidence rate and mortality are increasing year by year and becoming younger. According to statistics, the average age of men and women with AMI for the first time is 65.6 years old and 72 years old respectively, of which 4%~10% AMI occurred before 45 years old. At present, there is no uniform age threshold for young AMI. Generally speaking, AMI with onset age less than 55 years for men and 65 years for women is called early-onset AMI, accounting for 5%~13% of AMI. Compared with elderly patients with AMI, patients with early onset AMI have different risk factors, clinical characteristics and prognosis, such as lower proportion of patients with diabetes and hypertension, more single vessel lesions and rare left main artery involvement, and higher long-term recurrence rate and mortality. Although the progress of preventive measures and treatment methods has reduced the hospitalization rate of elderly AMI patients, the number of young AMI patients in hospital is still rising. Therefore, in-depth analysis of the characteristics of risk factors of early onset AMI and early intervention are of great significance to reduce the risk of onset and improve long-term prognosis. Hyperlipidemia is an independent risk factor for coronary heart disease at all ages, and is more closely related to early onset AMI. It is reported that more than 50% of early onset AMI patients are accompanied by hyperlipidemia. However, at present, the research on the relationship between blood lipids and early onset AMI is limited to the comparison of the level of single lipid component between early onset AMI and different control groups, or the comparative analysis of the relationship between a specific lipid component and the risk of early onset AMI with young healthy people. There is no research to compare the correlation between various lipid components and the risk of early onset AMI. Therefore, this study plans to deeply analyze the correlation between different blood lipid components and their ratios and early onset AMI, and further analyze which blood lipid indicators are most closely related to early onset AMI through large sample clinical research data, taking late onset AMI patients as the control, which should be paid early attention to and strictly managed.
Randomized-controlled Trial of a Combined vs. Conventional Percutaneous Intervention for Near-Infrared...
ArteriosclerosisNear-infrared Spectroscopy2 moreDesign: Single center, single-blind randomized controlled trial of patients with high risk native coronary artery lesions (defined as ≥2 contiguous yellow blocks on the block chemogram) requiring clinically indicated percutaneous coronary intervention. Patients will be randomized to either a combined intervention or conventional PCI. Cardiac biomarker measurements will be performed before PCI and 18-24 hours later. Treatment: Combined intervention consisting of pre-PCI intracoronary vasodilator and glycoprotein IIb/IIIa inhibitor administration, use of an EPD if technically feasible, and complete coverage of the lipid core plaque, if technically feasible. Control: Conventional PCI. Duration: 30 days follow-up. The primary trial objective is to compare the incidence and size of periprocedural MI, as assessed by the peak post-PCI troponin distribution in the two study groups. The secondary endpoints are: (1) Reduction in the incidence of >3x and >10x upper limit of normal increase in CK-MB. (2) Reduction in the incidence of slow flow/no-reflow post PCI. (3) Lower incidence of major adverse cardiac events, defined as the composite of death, acute coronary syndrome, or coronary revascularization) during 30-day follow-up.
Carotid Occlusion Surgery Study
StrokeIschemic Attack2 moreThe purpose of this study is to determine if extracranial-intracranial bypass surgery when added to best medical therapy can reduce the subsequent risk of ipsilateral stroke in high-risk patients with recently symptomatic carotid occlusion and increased cerebral oxygen extraction fraction measured by positron emission tomography (PET).
Inflammatory Cell Trafficking After Myocardial Infarction
Myocardial InfarctionInflammationMyocardial infarction (heart attack) is usually the consequence of rupture of a fatty 'plaque' in a heart artery. The presence of this fat and debris causes the propagation of a blood clot and blockage of the artery. The heart muscle normally supplied by the artery becomes deprived of oxygen and, if starved for long enough, this area of muscle dies. Much of the heart muscle damage is caused by overactivation of inflammatory cells. Whilst inflammation can be beneficial in healing processes, there is accumulating evidence that overactivation of inflammatory processes contributes to further muscle damage and cell death during myocardial infarction. We have recently developed a means of labelling human blood cells with 'nanoparticles' of iron oxide which can then safely be reinjected into the blood to allow the cells to be tracked and seen in the body using a conventional magnetic resonance scanner. In the proposed study we aim to recruit patients with recent heart attacks to perform similar cell labelling and reinjection of labelled cells into the same volunteer's blood stream via the arm to track the fate of the blood cells over the course of days to months. We think that the labelled inflammatory cells will 'home' to the site of the heart attack and will be visible using magnetic resonance imaging (MRI) of the heart. We aim not only to highlight the role of inflammatory cells in myocardial infarction, but also propose that, if successful, this technique could be used in the future to assess the effects of antiinflammatory treatments currently being developed for the treatment of patients with heart attacks. The technique could also be extended to allow labelling of other cell types, including stem cells, to let us further understand how these cells may contribute to repair of damaged organs including the heart.
Early Versus Standard Access Cardiac Rehabilitation to Counter Ventricular Remodeling Post-MI (EVADE)...
Myocardial InfarctionBACKGROUND: Cardiac rehabilitation (CR) is an outpatient chronic disease management program delivering secondary prevention, which is proven to reduce morbidity and mortality. The Canadian Cardiovascular Society Access to Care working group recommends patients access CR "preferably" within 2-7 days following percutaneous intervention for myocardial infarction (MI), but that 30-60 days is "acceptable". Despite these benchmarks, in practice patients access CR up to 90 days post-treatment in Canada. This is disconcerting given the detrimental impacts of delayed access to CR. These include ventricular remodeling (i.e., ventricular enlargement and reduced pump function), lower CR use, less post-CR exercise, among others. Accordingly, EVADE will be the first randomized controlled trial (RCT) to test the effects of early access CR (1-week post-discharge to first CR visit) compared to standard access CR (7-weeks post-discharge to first CR visit) in ameliorating these concerns. AIMS & HYPOTHESIS: The primary aim is to compare ventricular remodeling as defined by the change in end-systolic volume at 1-year in participants randomized to early versus standard access CR. The secondary aims are: (1) to compare post-CR exercise adherence by accelerometry, exercise capacity by 6-minute walk test distance, and health-related quality of life (HRQL) at 1-year in participants randomized to early versus standard access CR; (2) to compare CR program session attendance in participants randomized to early versus standard access CR; and (3) to assess biomarkers of ventricular remodeling in participants randomized to early versus standard access CR. The final aims are to explore more immediate health benefits associated with early versus standard access CR. Accordingly, at 6 months following hospital discharge the investigators will measure end-systolic volume, exercise adherence, exercise capacity, biomarkers of ventricular remodeling, and HRQL. The investigators will also explore hospitalization for any cause of death at 1 year in order to inform future research. The overall hypothesis is that early access CR will be associated with less ventricular remodeling, increased CR attendance and post-CR exercise adherence, increased exercise capacity, and greater HRQL. DESIGN: EVADE will be a two-centre, 2 parallel-arm, single-blinded RCT. Participants will be recruited through coronary care units following treatment for MI from the Royal University Hospital in Saskatoon, Saskatchewan and the University of Alberta Hospital in Edmonton. The University of Alberta Research Electronic Data Capture (REDCap) online database will randomize (1:1) participants (allocation concealed). A total of 60 participants will be enrolled: 30 participants will each be allocated to early access and standard access CR. IMPACT: In the first prospective multicentre trial of its kind, EVADE will test an innovative post-MI rehabilitation strategy that has the potential to demonstrate the superior benefits of early access CR for attenuating ventricular remodeling, and increasing CR attendance, post-CR exercise adherence, exercise capacity, and HRQL. The results from EVADE would encourage the Canadian CR community to consider early access CR to further enhance readily available and existing CR programs. The knowledge gained from EVADE will inform clinical decision-making practices, influence future CR guidelines and policy, and will contribute to the ongoing goal of improving efficiency and effectiveness of the Canadian health care system.
Algarve Active Ageing - Cardiac and Osteoarthritis Rehabilitation (A3-COR)
Osteoarthritis Knees BothMyocardial Infarction5 moreThis study aims to develop, implement, and determines the effectiveness of a personalized medicine approach to each individual's phenotype, based on an innovative physical exercise program to promote the treatment of pain and functional limitation resulting from knee osteoarthritis (KOA) in patients recovering after acute myocardial infarction (AMI) and cardiovascular risk (CVR). This randomized clinical study is important due to the lack of evidence according to the effectiveness of a personalized physical exercise intervention in people after MI or CVR with simultaneous KOA. Some studies have shown the existence of a relationship between OA and cardiovascular diseases (CVD), including coronary artery disease, stroke, congestive heart failure, peripheral arterial disease, cardiac procedures, or death related to CVD, since individuals with OA have a higher prevalence of CVD than individuals without OA. Sedentary behaviour is a risk factor for AMI, CVR and KOA, and, at the same time, physical exercise is a common non-pharmacological treatment for people suffering from these conditions, namely in the control of joint pain, gains in functional capacity, and the improvement of cardiorespiratory functional capacity, whose impact can be felt in level of quality of life. Chronic diseases have a significant impact on the global burden of disease, particularly CVD and OA, with the added presence of obesity also contributing to a high rate of all-cause morbidity and mortality, representing a substantial health burden and with growing implications for individuals, health systems and socioeconomic costs. The presence of OA seems to lead to an increased risk of developing CVD. Several mechanisms have been proposed to explain this relationship. Chronic inflammation associated with OA is one of the hypotheses suggested to explain the increased risk of CVD in these individuals. Furthermore, the pain and disability associated with OA may also limit participation in exercise/physical activity, influencing other risk factors associated with both chronic diseases, such as weight gain. The lack of studies about physical exercise intervention on people that suffered acute myocardial infarction or is in cardiovascular risk with simultaneous knee osteoarthritis and the lack of offer of phase III cardiac rehabilitation in Algarve motivated the development of this study, with the assumption of adopting a healthier lifestyle.