View clinical trials related to Cardiomyopathies.
Filter by:Diagnosis of diabetic cardiomyopathy is then retained, supposing a change in the coronary microcirculation linked to an endothelial dysfunction. Abnormalities of the myocardial metabolism is frequently associated. It is regrettably about a hypothesis difficult to verify with current medical techniques.This deficiency being not only harmful to the diagnosis, but also to the assessment of the efficiency of the medical treatment on the myocardial metabolism and the endothelial function. Techniques of nuclear magnetic resonance offer interesting perspectives.
The WiCS-LV system is an alternative means to providing left ventricular stimulation for Cardiac Resynchronization Therapy (CRT). The purpose of this study is to evaluate the safety and performance of the WiCS-LV System in patients with indications for CRT.
The pathogenesis of dilated cardiomyopathy (DCM) leading to heart failure is closely associated with autoimmunity dysfunction. A few studies represented that Qiliqiangxin capsule, a Chinese medicine, could enhance heart function in chronic heart failure and regulate the balance of TNF-a and IL-10 in myocardial infarction. In this study, to explore the effects of Qiliqiangxin capsule on the improving heart function and immunoregulation in patients with DCM, patients were recruited, anti-heart autoantibodies and some representative cytokines were assayed by enzyme-linked immuno sorbent assay (ELISA), and the efficacy of heart function improvement was compared between Qiliqiangxin capsule and placebo under the standard treatment of DCM.
This study tests optimization of biventricular pacing (BiVP) in patients with dilated cardiomyopathy (DCM) or ischemic cardiomyopathy (ICM) during cardiac transplantation in patients with advanced cardiac failure. It examines the effects of atrioventricular delay (AVD), interventricular delay (VVD or RLD), and left ventricular pacing site (LVPS) on cardiac output (CO). BiVP results are compared to traditional atrial (AAI) pacing at an identical heart rate.
Medical imaging is one of the fastest growing sectors in health care and increases in utilization underscore the need to ensure imaging technology is developed and used effectively. Evaluation of the clinical and economic impact of such imaging lags behind the technology development. Heart failure (HF) represents the final common pathway for most forms of heart disease and morbidity and mortality remain high. There is a need to identify imaging approaches that have a positive impact on therapy decisions, patient outcomes and costs. As well as standard methods to evaluate new and emerging techniques to better test their potential in a clinical management setting. PRIMARY OBJECTIVES: to compare the effect of HF imaging strategies on the composite clinical endpoint of cardiac death, MI, resuscitated cardiac arrest and cardiac re-hospitalization (WHF, ACS, arrhythmia). Patients with an ischemic heart disease (IHD) etiology will follow HF imaging strategy algorithms according to the question(s) asked by the physicians (is there ischemia and/or viability), in agreement with their local practices for standard and alternative imaging. SECONDARY OBJECTIVES: 1. To evaluate the effect of imaging modalities within and between the imaging subgroups (advanced (CMR and PET), PET, MRI and standard (SPECT)) on the primary and secondary outcomes in patients being evaluated either for viability and/or ischemia. 2. To evaluate the impact of adherence to recommendations between modalities on outcomes in patients being evaluated for either viability or ischemia. 3. To compare the effect of HF imaging strategies on: 1. The incidence of revascularization procedures (PCI, CABG, none) and the interaction of the imaging strategy and types of revascularization on outcomes 2. LV remodeling: LV volumes, LVEF, 3. HF symptoms, NYHA class 4. QOL (MLHFQ, the EQ5D) 5. The evolution of serum prognostic markers in HF (e.g. BNP, RDW, hs-cTnT, hs-CRP, ST2) 6. Health economics: Costs estimated through regression analysis and cost effectiveness assessed through decision modeling. 7. The safety of imaging tests measured by cumulative radiation, adverse reactions to imaging contrast agents and stress testing agents will also be determined. 8. The evolution of renal function (eGFR) and LV remodeling-associated biomarkers (e.g. PIIINP, OPN). 9. Event rates of each component of the composite endpoint as well as the combined endpoint of CV death and HF hospitalization 10. All-cause mortality
Arrhythmogenic Right Ventricular Cardiomyopathy (ARVC) is an inherited condition characterized by life threatening heart racing, presenting with palpitations, cardiac arrest (collapse requiring an ambulance) or sudden death. The disease affects the right ventricle, the part of the heart that pumps blood to the lungs. ARVC is diagnosed with a wide range of tests that focus on the pumping function and the electrical signals from the right ventricle. These factors are summarized in a score that forms the ARVC Task Force Criteria. Genetic testing has identified 5 different genes that lead to ARVC, which are detected in about 60% of patients with ARVC. This allows doctors to test family members of the patient with ARVC to determine if they are at risk of developing the condition. Currently, family members undergo testing that includes imaging and electrical tests such as a 24-hour monitor to determine if they have evidence of ARVC. With increasing frequency, family members are found to have the gene that may lead to ARVC, but little or no evidence that their hearts are affected. This may be because the family member is too young to develop the condition, or that other factors that we do not understand have protected them from developing it. The PREPARE study will study 100 patients that carry a gene that can lead to ARVC, but do not have anything more than minor evidence that the condition is present. These patients will not have heart racing on their initial 24-hour monitor. These patients will undergo long term monitoring with an implanted heart monitor that is inserted with a minor surgical procedure, which will detect abnormal heart rhythms that may provide a clue that heart racing from ARVC is present that is not detected with a 24-hour monitor that is performed on an annual basis (St. Jude Confirm implantable loop recorder). These patients will be enrolled in 10 adult and pediatric centers across Canada, and followed for 3 years after their heart monitor is implanted. If heart racing is detected, patients will discuss these results with their doctor to discuss what it means to them.
Impact of intraventricular electrical activation in resynchronization therapy. We seek to evaluate the impact of Cardiac Resynchronization Therapy (CRT) on electrical activation of the Left Ventricle (LV). The first goal of the study is to evaluate if CRT is able to decrease the heterogeneity of LV activation in heart failure patients. A second goal is to evaluate the electrical determinant of clinical response to CRT using invasive and non-invasive mapping technology.
The overall hypothesis of this application is that the improvement in LV ejection performance following treatment with betablockers is due, at least in part, to improvement in intrinsic myocardial contractility.
Biventricular pacing is a validated treatment for patients suffering from heart failure resistant to medical treatment. However, up to 30% of the patients are non responsive to this strategy using the coronary sinus approach to pace the Left Ventricle (LV). It has been demonstrated that the magnitude of the improvement was highly dependant on the LV pacing site. The coronary sinus approach rarely offers more than 1 or 2 potential pacing sites. Resynchronisation using a transeptal approach to pace the left ventricle on the cardiology has been shown feasible on small series. We therefore would like to compare these two approached in a randomised prospective study to confirm the hypotheses that endocardial LV pacing by offering multiple choices for the pacing sites reduces the number of non responders and is associated with greater hemodynamic benefit when compared to the conventional coronary sinus approach.
The purpose of this study is to develop and implement a critical pathway to identify patients with ischemic cardiomyopathy who are candidates for an implantable cardioverter-defibrillator (ICD). This study will also determine whether the use of the critical pathway for ICDs is associated with a change in the ICD referral and implantation rate.