View clinical trials related to Cardiomyopathies.
Filter by:This study is designed to quantify the ventricular stasis in patients with different forms of cardiomyopathy and at risk of stroke (ischemic, non-ischemic dilated cardiomyopathy and hypertrophic cardiomyopathy) by post-processing of 2D color Doppler echocardiography and phase contrast-magnetic resonance images in order to establish the relationship between quantitative variables of intraventricular stasis and the prevalence of silent embolic events and/or intraventricular mural thrombosis.
Left Ventricular Assist Device (LVAD) therapy has become a well-established treatment option for endstage heart-failure either as a bridge to transplant (BTT) or destination therapy (DT). Monitoring of the pump and with this the cardiac status with the HeartMate 3 (HM3) is currently very limited to infrequent log-files with one data entry every 15 minutes and only limited amount of entries. Due to the low resolution data, the standard HM3 monitoring is not feasible for the evaluation of suction events or in depth analysis of the interaction between LVAD and the remaining native heart function. Aim of this study is to develop noninvasive diagnostics of the cardiac remaining respectively recovering function derived from HeartMate 3 pump data only and compare with standard clinical diagnostic procedures. These procedures include cardiac ultrasound and ECG. After this pilot study, the newly developed methods would allow frequent, simple and automatic monitoring of patients implanted with the HeartMate 3 device. Such continuous assessment of cardiac function would massively help therapy optimization of cardiac protection and, if possible, cardiac recovery.
This is an observational study. No treatment or intervention will be assigned to the subjects. All patients will receive full standard of care concomitant medication for the treatment of their cardiac condition. 20 patients with genetically confirmed Anderson-Fabry disease who have a plan to start Migalastat will undergo 2D strain, diastolic stress echocardiography, LV vortex flow analysis, and CMR at baseline and after 2 year of treatment with Migalastat for follow-up.
The Dilated Cardiomyopathy-Cardiac Magnetic Resonance (DCM-CMR) Study is an ancillary study from the parent study, DCM Precision Medicine Study. The rationale for the DCM-CMR study is to leverage cardiac magnetic resonance (CMR) imaging to detect earliest findings of DCM in the at-risk family members enrolled into the parent study.
This is an online registry and database of patients with cardiomyopathy and myocarditis, coupled with an observational study of DCM and HCM.
Rationale: Permanent cardiac pacing is the only available therapy in patients with atrioventricular (AV) conduction disorders and can be life-saving. Right ventricular pacing (RVP), the routine clinical practice for decades in these patients, is non-physiologic, leads to dyssynchronous electrical and mechanical activation of the ventricles, and may cause pacing-induced cardiomyopathy and heart failure. Left ventricular septal pacing (LVSP) is an emerging form of physiologic pacing that can possibly overcome the adverse effects of RVP. Study design and hypotheses: The LEAP trial is a multi-center investigator-initiated, prospective, randomized controlled, open label, blinded endpoint evaluation (PROBE) study that compares LVSP with conventional RVP. A total of four hundred seventy patients with a class I or IIa indication for pacemaker implantation due to AV conduction disorders and an expected ventricular pacing percentage >20% will be randomized 1:1 to LVSP or RVP. The primary endpoint is a composite endpoint of all-cause mortality, hospitalization for heart failure and a more than 10% decrease in left ventricular ejection fraction (LVEF) in absolute terms leading to a LVEF below 50% at one year follow-up. LVSP is anticipated to result in improved outcomes. Secondary objectives are to evaluate whether LVSP is cost-effective and associated with an improved quality of life (QOL) as compared to RVP. Quality of life is expected to improve with LVSP and reduced healthcare resource utilizations are expected to ensure lower costs in the LVSP group during follow-up, despite initial higher costs of the implantation. Study design: Multi-center investigator-initiated, prospective, randomized controlled, open label, blinded endpoint evaluation (PROBE) study. Study population: Adult patients with a bradycardia-pacing indication because of AV conduction disorders with an expected ventricular pacing percentage of ≥ 20% and a left ventricular ejection fraction (LVEF) >/= 40%. Four hundred seventy patients will be randomized 1:1 to LVSP or RVP. Intervention: LVSP vs RVP. Main study parameters/endpoints: The primary endpoint is a composite of all-cause mortality, hospitalization for heart failure, and a more than 10% point decrease in left ventricular ejection fraction (LVEF) leading to an LVEF below 50%, which as a binary combined endpoint will be determined at one year follow-up. Secondary endpoints are: - Time to first occurrence of all cause mortality or hospitalization for heart failure. - Time to first occurrence of all cause mortality. - Time to first occurrence of hospitalization for heart failure. - Time to first occurrence of atrial fibrillation (AF) de novo. - The echocardiographic changes in LVEF at one year. - The echocardiographic changes in diastolic (dys-)function at one year. - The occurrence of pacemaker related complications. - Quality of life (QOL), cost-effectiveness analyses (CEA) and budget impact analysis (BIA). The secondary endpoints (other than echocardiographic LVEF change) will be determined at the end of the follow-up period, when the last included patient has reached one year follow-up. The individual follow-up time for patients at this time point will vary with a minimum of one year.
Diabetes represents one of the 10 leading causes of death in the world and concerns 5% of the French population (> 3.3 million patients). About 30% of diabetic patients will develop heart failure. The specific and early identification of diabetic cardiomyopathy at a subclinical stage (asymptomatic patients with normal LVEF) will thus make it possible to predict the risk of the onset of heart failure and to strengthen their monitoring and further adapt their treatment.
Diabetes mellitus is among the top 10 causes of death worldwide with an increasing incidence. Patients with diabetes are at risk of developing heart failure which is characterised by significant changes in the heart muscle including scarring and thickening. Contraction of the heart involves movement of calcium across the heart muscle and disruption of this process is an early change seen in heart failure. Recently, a drug therapy (SGLT2 inhibitor therapy) in patients with diabetes was shown to benefit patients with heart failure but the mechanisms of benefit are unknown. Our hypothesis is that calcium handling is altered in patients with either type 2 diabetes mellitus (T2DM) or heart failure and that SGLT2 inhibitors can improve this in heart failure irrespective of the presence of T2DM. Scanning the heart using magnetic resonance imaging (MRI) enables detailed assessment of its structure and function by using a new contrast 'dye' containing manganese that has shown advantages over traditional contrast. We plan to further test this new dye as it has the potential to track and quantify improvements in heart function over time and detect changes in calcium handling in the heart muscle, making it an ideal measure to identify the mechanisms of benefit from SGLT2 inhibitor therapy. The study population will comprise patients with heart failure with and without type 2 diabetes, patients with type 2 diabetes without heart failure and healthy volunteers. Baseline comparisons will be made between the four groups before progressing to the randomised controlled trial with heart failure patients only. Patients will have a clinical assessment and blood tests, electrocardiogram, echocardiogram and MRI of the heart at each visit. If successful, this study will give us significant insights into mechanisms of action of SGLT2 inhibitors in heart failure and will enable us to tailor specific treatments in heart failure patients.
The association between myocardial inflammation (clinically represented by acute myocarditis episodes) and the later development of an arrhythmogenic cardiomyopathy is widely elusive.
Patients with diagnostic CMR images for assessment of LGE/fibrosis and evidence/presence of non-ischaemic myocardial fibrosis/scar will be randomized to the following treatment groups in a 1:1 ratio: ICD group or Optimal HF care group.