Active clinical trials for "Cardiomyopathies"

Diabetes can lead to heart failure independently, but the underlying causes remain incompletely understood. The main aim of this study is to identify differential regulation of mitochondrial substrate utilization and complex activity in heart failure and type 2 diabetes mellitus (T2DM). For this, we will conduct a prospective, observational study to examine myocardial mitochondrial oxidative function and related metabolic parameters, gene expression, histological markers, and inflammation in cardiac tissue from patients with heart failure or patients after heart transplantation. We will further assess cardiac function using cardiac magnetic resonance imaging with and without stress protocols and magnetic resonance spectroscopy. Glycemic control/T2DM will be characterized by oral glucose tolerance tests. The results of this project will help to better understand the cellular mechanisms of the development of diabetic cardiomyopathy and contribute to the development of early diagnostic, as well as therapeutic approaches for the prevention and treatment of diabetic cardiomyopathy.

WILLEM is a multi-center, prospective and retrospective cohort study. The study will assess the performance of a cloud-based and AI-powered ECG analysis platform, named Willem™, developed to detect arrhythmias and other abnormal cardiac patterns. The main questions it aims to answer are: A new AI-powered ECG analysis platform can automatice the classification and prediction of cardiac arrhythmic episodes at a cardiologist level. This AI-powered ECG analysis can delay or even avoid harmful therapies and severe cardiac adverse events such as sudden death. The prerequisites for inclusion of patients will be the availability of at least one ECG record in raw data, along with patient clinical data and evolution data after more than 1-year follow-up. Cardiac electrical signals from multiple medical devices will be collected by cardiology experts after obtaining the informed consent. Every cardiac electrical signal from every subject will be reviewed by a board-certified cardiologist to label the arrhythmias and patterns recorded in those tracings. In order to obtain tracings of relevant information, >95% of the subjects enrolled will have rhythm disorders or abnormal ECG's patterns at the time of enrollment.

The overall aim of the study is to establish the clinical importance of cardiac dysfunction, by estimating its incidence and impact on short- and long-term outcomes, in a mixed population of critically ill patients with multi-organ failure. Pathogenesis of cardiac dysfunction in critical illness and key molecules linked to this will be explored.

The purpose of this study is to evaluate the safety of mavacamten in patients with symptomatic obstructive hypertrophic cardiomyopathy (HCM) treated in the real-world setting. The registry study also provide a real-world understanding of the current obstructive HCM patient population, treatment patterns, and clinical relevant outcomes for patients with symptomatic obstructive HCM in the US.

The goal of this protocol is to obtain information from individuals with cardiomyopathy and from their families in order to elucidate the molecular genetics of this disorder. This will provide the basis for future genetic counseling as well as contribute to elucidating the biology of normal and abnormal cardiac function.

The ICD-Reality study is a non-commercial, investigator-led, multicenter, prospective, randomized, controlled trial. We aim to determine the effect of CRT-D or CRT-P implantation in non-ischemic cardiomyopathy and heart failure patients. The reason why we initiated this trial is the lack of evidence-based treatment for the significant number of these patients. In these patients, 5-year mortality remains as high as 20% despite recent therapeutic advances. Based on currently available evidence, because of a significant decrease in mortality due to modern pharmacotherapy, it is not certain which of these patients should receive a CRT-P and who should receive a CRT-D. No dedicated and adequately powered trial has addressed this important question. We hypothesize that patients with symptomatic HF, LVEF ≤35%, without left ventricular mid-wall fibrosis on LGE-CMR, will not benefit from CRT-D implantation compared with CRT-P only implantation. If our hypothesis is confirmed, this could provide evidence for the management of these patients with a significant impact on common daily praxis and health care expenditures. We aim to enroll 600 patients in the trial. 924 patients are needed to be screened for these 600 patients to be randomized. Patients with non-ischemic HF visiting an out-patient department and possibly eligible for the trial will have their pharmacotherapy optimized. Patients with a significant amount of fibrosis will be excluded from the study and treated according to local practice with an emphasis on ICD implantation to prevent SCD. After fulfilling all eligibility criteria, including maximally tolerated pharmacotherapy, subjects will be randomized by the physicians who enrolled them in a 1:1 ratio to receive CRT-D or CRT-P implantation. All patients will be followed-up for at least 3 years after the implantation.

The aging of the population is a reality in our society, with a strong increase in the number of elderly patients hospitalized for heart failure in our institutions. Heart failure in these patients is more present than to younger patients, with preserved ejection fraction form (HFpEF). Aging is responsible for the onset of senile amyloid cardiomyopathy. This pathology is still imperfectly understood and its link with the increase in the frequency of HFpEF is important. In addition, specific treatments have just shown their effectiveness. It is therefore urgent to better identify the prognostic predictive parameters of this cardiomyopathy. The pathophysiological involvement of the coronary microcirculation responsible for a true microvascular coronary disease (CMVD) has been described as predictive factor in all cardiomyopathies. However the implementation of preventive strategies and / or therapeutic of the coronary microcirculation dysfunction are limited because we lack of diagnostic tests available and applicable to large cohorts of patients. Our team INSERM U1039 Radiopharmaceutiques Biocliniques in collaboration with the laboratory GIPSA-lab (Grenoble Images Speech Signal Automatique), laboratory specialized in the signal analysis, has developed a new method of analysis allowing to measure the coronary microcirculation dysfunction usable in SPECT thanks to the measurement of a myocardial perfusion heterogeneity index (IHPM) (patented technique). The 3C registry (NCT03479580) is a registry studying the prevalence and cardiovascular prognosis of macro and microcirculatory coronary artery disease using the latest coronary evaluation techniques in patient with cardiomyopathy. This registry deployed on interventional cardiology centers on the Alpine Arc is therefore also addressed to patients with senile cardiomyopathy. The data collected will provide a better understanding of the factors influencing the prognosis of senile cardiomyopathy and the prognostic contribution of the measurement of the IHPM will be evaluated.

The main objective of the study is to improve implantable cardioverter defibrillator (ICD) implantation decision-making processing relevance by developing a new prediction model of sudden cardiac death (SCD) in hypertrophic cardiomyopathy (HCM), including newly identified potential biomarkers by magnetic resonance imaging (MRI) and genetics, through a prospective nationwide study, multivariate analysis and modelling of an absolute risk. The secondary objective is to perform a medico-economic analysis of ICD implantation in order to define an optimal rule for ICD implantation in patients with HCM, taking into account the benefits of ICD, adverse effects of ICD and associated costs (cost of quality adjusted life years saved).

The goal of this prospective cohort study is to evaluate the neurologic changes in patients that received transapical beating-heart septal myectomy. The main questions are: whether this novel operation way would cause neurologic impairment; whether this novel operation way have similar neurologic lesions, compared to other cardiac surgery ways. Participants will undergo detailed neurologic and cognitive assessment at baseline, after procedure, and at 30 days. Researchers will compare the clinically relevant manifestations and brain lesions measured by cognitive evaluation forms of the nervous system (i.e. Montreal cognitive assessment) and diffusion-weighted magnetic resonance imaging (DW-MRI) to assess the safety of transapical beating-heart septal myectomy on nervous system.

No previous study has evaluated the effectiveness of transcatheter edge-to-edge mitral valve repair (TEER) in patients with ATTR-associated cardiomyopathy (ATTR-CM) and significant mitral regurgitation, as this specific patient population was specifically excluded from previous large TEER trials. From a pathophysiological perspective, effective treatment of significant regurgitant volume and consecutive improvement of forward volume appears highly desirable in a condition with intrinsically low output. However, whether this translates into improved functional capacity, better quality of life, and better clinical outcomes compared to conservative heart failure management alone remains to be investigated.