View clinical trials related to Cardiomyopathies.
Filter by:Magnetic resonance imaging (MRI) is increasingly an important tool for diagnosis and management of cardiac diseases in children. One of the uses of MRI is tissue characterisation, in which the signal characteristics of the cardiac muscle (myocardium) can be determined with special techniques, known as parametric mapping. There is increasing evidence that parametric mapping may be able to identify regions of scarring in the myocardium, or detection of oedema/inflammation in the setting. This in turn can help predict disease course and add value to the management of patients. There is also evidence that other structures that are visualised in parametric mapping aside from the heart (e.g. liver and spleen) can also help improve diagnostic accuracy and guide management. Currently the majority of studies describing the use of parametric mapping is focused on adults, with limited data on its use in children. The parametric mapping values can also differ amongst different machines, so calibration with normal subjects are also required.
To examine patients with hypertrophic obstructive cardiomyopathy (HOCM) before and after septal alcohol ablation, to investigate the effect of the treatment in regards to changes in myocardial function, perfusion, invasive hemodynamics and exercise tolerance.
Cardiac Resynchronization Therapy (CRT) is a proven treatment for heart failure. CRT consists of a special pacemaker with two/three leads (insulated wires which take the electrical impulses from the device to the heart), one in the right ventricle, one in a vein on the outer surface of the left ventricle (in a vessel called coronary sinus or CS) and sometimes one in the right atrium (right top chamber of the heart). Tiny electrical impulses are simultaneously sent to the ventricles to make them beating together again in a more synchronised pattern. This leads to a coordinated, synchronous pumping action that, in most patients, translates into improved heart failure symptoms and improved quality and quantity of life, reducing the chance of being admitted to hospital with worsening heart failure. Unfortunately up to one third of the patients do not benefit from CRT therapy and to date there are no useful criteria to predict the response to CRT. In an effort to improve the response rate to CRT, alternative methods have been developed. In particular, a new technology called MultiPoint Pacing (MPP) (St. Jude Medical, Sylmar, CA) has recently become available. It allows simultaneous stimulation of 2 different points in the left ventricle by using a single lead with four electrodes. This strategy should improve the pumping function of the heart by recruiting a larger mass of muscle. Although MPP is as safe and as effective as standard CRT pacing, the improvements to date in the heart pump function it gives over standard CRT pacing are variable and small. Recent evidence suggests that MPP pacing could be particularly beneficial in some subgroups of patients, in particular patients with a previous history of heart attack resulting in scar formation in the left ventricle. The investigators hypothesize that MPP works better when the lead is closer to the scar because this allows recruitment of areas with slow conduction, thus increasing synchronization further. To this aim, they plan to compare, in each patient, the acute response produced by MPP on the cardiac function when the CS lead is placed close to myocardial scar and when it is placed far from scar respectively.
The purpose of this study is to determine, among a large cohort of 300 consecutive patients with hypertrophic cardiomyopathy, if extended ambulatory monitoring using the iRhythm Technologies, Inc. Zio XT device results in identifying a greater burden of nonsustained ventricular tachyarrhythmia (nsVT) compared to current ACCF/AHA guideline recommended 48-hour monitoring.
Advances in treatment have led to improved survival of patients with cancer, but have also increased morbidity and mortality due to cancer treatment side effects. Cardiotoxicity is one the most frequent side effect which may lead to premature morbidity and death among cancer survivors. The most concerning cardiovascular complications of cancer therapy is myocardial dysfunction, leading to heart failure, and fatal arrhythmias, especially those induced by QT-prolonging drugs. PROMETEY (PROspective Multidisciplinary obsErvational Trial of cardiotoxicity in patiEnts undergoing anticancer therapy) - is Russian multicenter observational study assessing cardiotoxicity and its clinical, biochemical and genetic factors in patients on cancer therapy. The objectives of the study are: - to reveal prevalence of cardiotoxic effects of cancer therapy in routine clinical practice in Russian Federation, - to assess contribution of these effects to mortality of patients on cancer therapy, - to evaluate clinical and economic consequences of cardiotoxicity in patients with cancer, - to develop an individualized model of cardiotoxicity risk factors based on clinical and laboratory parameters. Patients: 400 cancer patients with toxic cardiomyopathy and 100 patients with idiopathic or family dilated cardiomyopathy. Study duration: 60 months. All patients will undergo complex examination after signing informed consent form(ICF): physical exam, echocardiography with speckle tracking analysis, ambulatory 48-hours ECG monitoring, biochemistry, analysis of biomarkers of myocardial injury, fibrosis and inflammation. Primary endpoint: all-cause mortality, heart transplantation, cardioverter-defibrillator implantation, hospitalization with heart failure decompensation. Secondary endpoints: - thromboembolism, - fatal/ nonfatal myocardial infarction, stroke, - sudden cardiac death, - surgical therapy of heart failure or arrhythmias, - cardiovascular death, - all-cause mortality, - heart transplantation, - cardioverter-defibrillator implantation.
This is a follow up investigation to our previous study entitled "On-pump intraoperative echocardiography (OPIE)" (clinicaltrials.gov NCT03094325) whereby we determined that left ventricular septal thickness as measured by the OPIE technique correlates highly with traditional methods of transthoracic and transesophageal echocardiography during septal myectomy for hypertrophic cardiomyopathy. OPIE may be especially useful in patients with a thin ventricular septal thickness as adequate treatment may rely on mere millimeters of myocardial resection. We therefore propose a study in which OPIE is compared to transthoracic and transesophageal echocardiography in patients with a thin interventricular septum. Subjects will receive the same perioperative care regardless of their involvement in the study. Patients who enroll in the study will undergo an additional intraoperative echocardiographic measurement that adds less than five minutes to total operative time.
A screening modality to help categorize obese pregnant women as high or low probability for heart failure would be helpful in the evaluation of the obese pregnant women with dyspnea. Outside of pregnancy, measurement of brain natriuretic peptide (BNP) or amino-terminal pro-brain natriuretic peptide (NT-proBNP) is recommended in the evaluation of acute dyspnea and in the diagnosis of heart failure. During pregnancy, elevated BNP has been associated with adverse cardiovascular events, while normal BNP levels have been observed in healthy pregnancies. While BNP levels outside of pregnancy have been shown to be lower in obese patients variations in BNP levels by body mass index (BMI) in pregnancy have not been studied. Before BNP can be deemed a reliable screening test for heart failure in obese pregnant women, normal BNP values in the setting of obesity and pregnancy need to be established. We therefore propose the following specific aims: Objective 1: Compare mean plasma NT-proBNP levels in the third trimester, immediately postpartum, and at 4-6 weeks postpartum between obese pregnant women without cardiovascular disease and non-obese pregnant women without cardiovascular disease. We hypothesize that mean plasma NT-proBNP levels in obese pregnant women without pre-existing cardiovascular disease will be significantly lower than levels in non-obese pregnant women. Objective 2: Assess whether plasma NT-proBNP levels in pregnancy correlate with BMI. We hypothesize that there will be an inverse correlation between plasma NT-proBNP levels and BMI in our pregnant cohort similar to that seen outside of pregnancy.
This is a retrospective cohort study of pediatric hypertrophic cardiomyopathy (HCM) patients using chart and registry review methodology. The studies objective is to develop and validate a sudden cardiac death (SCD) risk calculator that is age-appropriate for children with HCM that includes clinical and genetic factors.
Investigators will evaluate the safety, tolerability, and feasibility of a risk-guided cardioprotective treatment strategy with carvedilol, as compared to usual care, in breast cancer patients undergoing treatment with doxorubicin, trastuzumab, or the combination.
Design: PARCADIA is a prospective non-randomized non-interventional multi-center clinical investigation in Europe. Patients with depressed LV (left ventricular) function assessed on local standards, of ischemic origin and on chronic optimal medical therapy will be selected according to inclusion and exclusion criteria, implanted with an ICD after executing baseline investigations and prospectively followed up for minimal 24 months and until the termination of the clinical investigation. General objective: analysis of baseline risk factors to identify predictors for appropriate ICD intervention in patients with ischemic cardiomyopathy receiving an ICD for primary prevention (MADIT II population). Hypothesis: The primary alternative hypothesis states that the mean relative infarct transmurality (RIT) is different in patients with (RITshock or ATP (Anti Tachy Pacing)) and without (RITno shock or ATP )appropriate ICD intervention, i.e. shock or ATP. - Null hypothesis (H0): RITshock or ATP = RITno shock or ATP - Alternative hypothesis (Ha): RITshock or ATP ≠ RITno shock or ATP Sample size: 200 patients. Follow-up: Enrolment visit, pre implant screening, ICD implantation, pre-hospital discharge visit, and follow-up (FUP) visits at 2, 6, 12, 18, 24 months including home monitoring. Additional routine FUP every 6 months until study termination after last enrolled patient has completed 2 years FUP.