Active clinical trials for "Cardiomyopathy, Hypertrophic"

The objective of this study is to determine whether myocardial contrast echocardiography in patients with cardiomyopathy (HCM) can detect resting hypo-perfusion due to fibrosis or stress induced perfusion defects due to associated abnormalities in intramyocardial arteries and the microcirculation. A secondary aim will be to determine whether abnormalities in perfusion are associated with either severity of symptoms (chest pain and dyspnea), presence of arrhythmias, and regional function of the septum.

Investigators aim to assess changes in exercise capacity and quality of life after septal myectomy in patient with hypertrophic cardiomyopathy.

This study evaluates mechanisms of arrhythmogenicity in hypertrophic cardiomyopathy, in comparison to patients with well-understood arrhythmogenic substrate (ischemic cardiomyopathy), as well as to individuals free from arrhythmogenic substrate

Correlation between Myocardial Deformation and Coronary Tortuosity and Analysis of Genetic Factors Among Hypertrophic Cardiomyopathy Patients

This study proposes to describe how children s hypertrophic cardiomyopathy (HCM) risk status affects family functioning, behaviors, and relationships. HCM is the most common inherited cardiovascular single-gene disorder. Individuals with HCM may experience shortness of breath, chest pain, palpitations, dizziness, syncope, heart failure, and arrhythmias predisposing to sudden cardiac death at any age. Notably, HCM is the most common cause of sudden cardiac death in people under 30 years of age. Genetic testing can identify at-risk individuals; however, the impact of potentially life-altering genetic information on families remains largely unexplored. Increasingly, health care providers are providing the testing in children for conditions like HCM that are life-threatening and medically manageable without the benefit of understanding the psychological consequences. The few studies that have been conducted suggest that genetic testing in children may result in changes to family relationships, parental emotional wellbeing, parenting behaviors, and child functioning in a subset of children. One synthesis of these studies suggests that children as a group show little evidence for maladjustment to risk information, but that parents are affected by the carrier status of their children. The proposed study intends to further this body of knowledge by exploring the impact of children s risk status on families with HCM. Health care providers and researchers can inform their work with HCM families by better understanding the potential impact of genetic risk as an important component of families adaptation to the life-threatening information about their children. The families targeted for this exploratory study will be purposively sampled from those that have been aware of the children s risk status or not at-risk status for HCM for at least 3 months. The cross-sectional design is composed of semi-structured interviews with a parent and, separately, with his/her 13 to 23 year-old child who is either a carrier for HCM, a non-carrier, or at 50% risk for being a carrier. The interview will target issues related to the perceived impact of the child s risk status on family functioning, parenting behaviors and relationships. Data from the parent-child dyads will be analyzed for concordance/discordance along parallel themes. The results of this study may facilitate the understanding of the perceived impact of learning children s HCM risk status, which will inform both clinical care and future research. Importantly, since predictive testing in children for adult-onset diseases is generally discouraged, very little is actually known about its impact on families. Therefore, the study of this unique subgroup of an HCM population that uses clinically indicated predictive testing in childhood offers a preliminary opportunity to learn about predictive testing of minors....

Hypertrophic cardiomyopathy (HCM) is a genetically inherited heart disease. It causes thickening of heart muscle, especially the chamber responsible for pumping blood out of the heart, the left ventricle. Hypertrophic cardiomyopathy (HCM) is the most important cause of sudden death in apparently healthy young people. A genetic test called linkage analysis is used to locate genes causing inherited diseases like HCM. Linkage analysis requires large families to be evaluated clinically in order to identify the members with and without the disease. In this study researchers will collect samples of DNA from family members of patients with HCM. The diagnosis of the disease will be made by history and physical examination, electrocardiogram (12 lead ECG), and ultrasound of the heart (2-D echocardiogram). The ability of the researchers to locate the gene responsible for the disease improves with increases in the size of the family and members evaluated. In order to continue research on the genetic causes of heart disease, researchers intend on studying families with specific genetic mutations (beta-MHC) causing HCM. Researcher plan to also study families with HCM not linked to specific gene mutations (beta-MHC).

Hypertrophic cardiomyopathy (HCM) is a primitive myocardic disease and the first of genetic cardiac diseases. The definition of HCM is an increase of the myocardial thickness of the left ventricle (LV) wall without any other causes of hypertrophy. It's characterized by an important heterogeneity of prognosis and clinical expression going from a asymptomatic state until the devastating sudden death occurring in a young person.The diagnosis of HCM is definite by a myocardial thickness greater or equal to 15mm (or 13mm if there is a familial history).This hypertrophy is often accompanied by other abnormalities detected by echocardiography: dynamic left ventricular outflow obstruction at rest or stress, mitral regurgitation …Now, the current challenge is to determine the prognosis factors of the disease that could help to identify the patients with high risk of sudden death. Some prognosis factors are knowed and used in the calculation of a new risk score. This risk score allows to estimate the risk of sudden death at 5 years and propose depending on the result, the implantation of a defibrillator for primary prevention.The physiopathological mechanism of HCM is very complex and still misunderstood. Myocardial fibrosis could be a major mechanism of the disease evolution. Indeed, fibrosis is responsible of scar areas where ventricular tachycardia may develop. Moreover, if the fibrosis is very extensive, it can be the responsible of a systolic or diastolic dysfunction of the left ventricle leading to heart failure.Myocardial ischemia caused by a microvascular dysfunction is now recognized as an important mechanism of the disease evolution. Acute ischemic events could be a trigger of malignant arrhythmia whereas chronic ischemia leads to fibrosis.Left ventricle function is long time preserved in HCM. Segmentary hypokinesia corresponding to extensive fibrosis appears at a very advanced stage of the disease. Exercice stress echocardiography permits to detect myocardial ischemia caused by microvascular dysfunction in the HCM before the fibrosis apparition. Moreover the investigators suggest to study the deformation parameters by speckle tracking or 2D strain witness of a contractile LV dysfunction before the apparition of segmentary hypokinesia.Magnetic resonance imaging (MRI) is now recognized as the more sensible technique to identify focal myocardial fibrosis resulting in areas of late gadolinium enhancement (LGE). LGE is frequent in HCM and his extension is correlated with the severity of the hypertrophy and the risk of sudden death. Myocardial ischemia is detected by hypoperfused defects in the perfusion sequences and as LGE, is correlated with the degree of hypertrophy. Some studies using stress MRI with vasodilatator agent show inductible hypoperfused areas correlated to the degree of hypertrophy. T1 mapping is a new hopeful sequence of MRI permitting to detect the diffuse and early myocardial fibrosis. Some studies show that T1 mapping values are reduced in the areas of LGE in HCM but also in areas without LGE which reflects the presence of new fibrosis.The objective of study is to compare these two imagery techniques in order to detect ischemia and fibrosis. These techniques are usually used in the diagnosis or the monitoring of the disease. The investigators propose to realize an exercise stress echocardiography to study: the segmentary kinetic of the left ventricle and the 2D strain and a stress MRI to study the LGE, the stress perfusion and the T1 mapping.Actually the investigators consider that LGE is a risk factor of the disease (although not yet involved in the calculation of the risk of sudden death) and need to be study in each MRI realized for HCM. From the same way, the investigators suggest to follow patients to determine if the abnormalities detected by these two techniques and particularly 2D strain abnormalities, stress myocardial ischemia and T1 mapping abnormalities are prognosis factors of the disease and appear more precociously than LGE.

The goal is to determine how lifestyle and exercise impact the well-being of individuals with hypertrophic cardiomyopathy (HCM) and long QT syndrome (LQTS). Ancillary study Aim: To understand how the coronavirus epidemic is impacting psychological health and quality of life in the LIVE population

This study will review medical information collected on children and adolescents with hypertrophic cardiomyopathy (HCM) to try to identify risk factors for arrhythmias (abnormal heart rhythms) in these patients and better guide the choice of treatment options for them. Arrhythmias arising from the ventricle (lower heart chamber) can cause dizziness, fainting or cardiac arrest. Predictors of arrhythmias in adult HCM patients may not apply to children and teenagers with HCM. Children and adolescents 21 years of age or younger who were diagnosed with HCM and evaluated in the National Heart Lung and Blood Institute's Cardiology Branch between 1977 and 2002 may be eligible for this study. Participants do not undergo any further testing or data gathering beyond a review of their medical records; only existing data previously collected for research purposes are used. Medical records are reviewed for age of the patient on admission to the NIH; family history of sudden death, fainting, exercise-induced low blood pressure, and results of tests on heart structure and function.

Coronary artery disease (CAD) is caused by a narrowing of the blood vessels that supply blood and oxygen to the heart. Balloon angioplasty and stent placement are two treatment options for people with reduced heart function caused by CAD. This study will use magnetic resonance imaging (MRI) procedures to evaluate heart function over time in people with CAD who have undergone a balloon angioplasty or stent placement procedure.