View clinical trials related to Myocardial Dysfunction.
Filter by:Background: Chronic excessive alcohol consumption leads to progressive and chronic cardiac dysfunction. In general, patients consuming alcohol more than five years are at risk for the development of dilated cardiomyopathy. As only few data about immediate changes in left ventricular function after acute excessive alcohol ingestion are available, this study sought to close this gap. Methods: 200 subjects (not used to alcohol, no cardiac disease) will be examined up to 12 hours after alcohol excess and after 4 weeks of complete alcohol abstinence. Echocardiography will performed at baseline and at follow-up regarding conventional parameter [as left ventricular ejection fraction (LVEF), transmitral early (E) and late (A) Doppler flow velocities, E/A ratio, deceleration time of E (DT) and isovolumic relaxation time (IVRT)] and myocardial deformation data [as layer specific global circumferential (endo GCS, mid GCS, epi GCS) and longitudinal (endo GLS, mid GLS, epi GLS) strain].
The purpose of this study is to to examine the effects of atorvastatin, a type of statin, on changes to the heart among women undergoing breast cancer treatment. Atorvastatin may reduce or eliminate the harmful effects of chemotherapy treatment to the heart tissue of breast cancer patients.
The cardiovascular system plays a central role in the pathophysiology and prognosis of sepsis, yet the correct hemodynamic management of septic patients is still vigorously debated. Despite guidelines, the use of CVP and PAOP is seriously criticized for inaccurate prediction of fluid requirement. Recently studies showed that early goal-directed therapy (EGDT) aimed at achieving a ScvO2 of ≥70% significantly improved survival of septic shock patients, yet EGDT has not been adopted by all intensivists. The investigators have recently found using 2D echocardiography in 262 patients with severe sepsis or septic shock and treated by the conventional guidelines (without ScvO2) that diastolic dysfunction and reduced stroke volume index are strong independent predictors of mortality. In the present study the investigators intend to test the effect of EGDT on resuscitation, on long term myocardial function and left ventricular volumes and on survival in ICU patients with severe sepsis and septic shock. Patients will be randomized to EGDT (resuscitation directed by ScvO2) or standard of therapy for the first six hours after diagnosis of severe sepsis or septic shock and admission to the ICU. After six hours patients in septic shock will be further monitored with non invasive cardiac output (PiCCO, Pulsion Technologies). All patients will be followed daily by 2D & 3D transthoracic echocardiography with detailed measurements of systolic and diastolic left and right ventricular volumes and functions. Patients in the EGDT group will be compared to the control group for parameters of initial resuscitation (fluid volumes, ScvO2 achieved, inotrope use), initial values from non invasive cardiac output at six hours, interventions required from institution of non invasive cardiac output, early and long term effects on cardiac function and volumes from echo measurements, and mortality. The effectiveness of EGDT will thus be examined in the short and long terms.
Positron Emission Tomography (PET) is a non-invasive, unique nuclear imaging technique that allows the evaluation of blood flow in the heart and provides information about the cell activity of specific organs such as the heart and brain. It also provides useful information for the management of patients with poor pumping function of the heart, heart failure, and coronary artery disease. A cardiac viability imaging looks at how the heart uses glucose (sugar) The imaging process determines areas of the heart that are alive (viable - using sugar) versus areas of the heart that are scar tissue (non-viable). F-18 fluorodeoxyglucose (FDG) is the radioactive substance used to determine myocardial viability. This nuclear imaging technique has been shown to be useful in directing management for patient care. The Ministry of Health recognizes the clinical utility of FDG PET imaging for myocardial viability assessment and other cancer indications. Optimizing the potential advantages of FDG PET in Ontario, will require characterization of the patient population, referral patterns, upstream and downstream resource utilization and patient outcomes. Therefore, registry studies are being undertaken to provide specific information about the utility of PET in these clinical situations in Ontario. The proposed registry will facilitate monitoring of the implementation of this limited technology and allow continued evaluation of practice patterns and outcomes. The University of Ottawa Heart Institute is the coordinating centre for this project with PET centres in London, Hamilton and Toronto also participating. The purpose of this study is to evaluate the utility of FDG PET viability imaging in the decision making process for patients with poor left ventricular function who may be candidates for revascularization and to study the downstream effect of the clinical management decisions. Patients meeting specific inclusion criteria will be eligible for this study.