View clinical trials related to Brugada Syndrome.
Filter by:This study represents an extension of a previous study (NCT02641431) on the acute and long-term benefit of epicardial ablation on elimination of both BrS-ECG pattern and VT/VF inducibility in 500 consecutive BrS patients.
Standard, high lead and sodium channel provoked electrocardiograms of a healthy volunteers will be performed to observe the various ECG changes. Participants will the undergo detailed imaging with cardiac magnetic resonance imaging and deep genotyping to identify structural or genetic variants which might dictate the electrocardiographic patterns at rest and with sodium channel provocation.
This trial aims to develop evidence based curative treatment with optimal net benefit for patients with Brugada syndrome.
This prospective study evaluates the methodology and results of epicardial mapping/ablation in a large series of consecutive selected BrS patients and to verify if RFA could normalize the consequences of a genetic disease.
Human induced pluripotent stem cells (hiPSCs) have driven a paradigm shift in the modeling of human disease; the ability to reprogram patient-specific cells holds the promise of an enhanced understanding of disease mechanisms and phenotypic variability, with applications in personalized predictive pharmacology/toxicology, cell therapy and regenerative medicine. This research will collect blood or skin biopsies from patients and healthy controls for the purpose of generating cell and tissue models of Mendelian heritable forms of heart disease focusing on cardiomyopathies, channelopathies and neuromuscular diseases. Cardiomyocytes derived from hiPSCs will provide a ready source of disease specific cells to study pathogenesis and therapeutics.
Brugada syndrome is an inherited arrhythmia syndrome with an increased risk of syncope and sudden death resulting from episodes of polymorphic ventricular tachychardia and fibrillation. Currently, there is no medical therapy for the Brugada syndrome and the only treatment available is the implantation of an ICD. There is no discussion on the interest of the ICD implantation in secondary prevention and in patients who experienced syncope but the best therapeutic is more difficult to draw in asymptomatic patients. Recently we demonstrated that in asymptomatic patients with a spontaneous type 1 aspect of Brugada syndrome, (i) there was a significant risk of ventricular arrhythmia, (ii) the problem of inappropriate shocks can be solve with a good ICD programming and (iii) the problem of lead failure remains the main problem in this young population very active and represent the main limitation to larger indication of ICD implantation in this population with a very long life expectancy as these patients had a normal life expectancy except the risk of ventricular arrhythmia. In this context the S-ICD System (Boston Scientific Inc.) which is an implantable defibrillator technology that treats ventricular tachyarrhythmias using a subcutaneous pulse generator and electrode system rather than a transvenous lead system, represents a very attractive opportunity as it gives the possibility to protect the patients of the risk of ventricular arrhythmia with no risk of lead failure. However, as this is a new technology and as Brugada syndrome patients are a very specific population (very active patients, specific and changing over time ECG aspect that is at risk of T wave over sensing and high risk of SVT), it seems important to evaluate the effectiveness and the safety of S-ICD in this specific context.
The study aims to use flecainide infusion test as diagnostic test to unmask concealed Brugada Syndrome cases. It proposes to assess the safety profile of this test in US patients and its higher sensitivity when compared to procainamide infusion (the conventional drug used in the USA). As a substudy it proposes to apply this test to early ARVC cases in order to evaluate if ECG changes similar to those seen in Brugada Syndrome could be unmasked by flecainide iv.
Brugada syndrome is characterized by a ST shift on the surface ECG, and a specific morphology of the Twave. This ECG abnormality is called a type 1-ECG, and is variable in time. Patients presenting a Brugada syndrome are exposed to sudden cardiac death, although it's difficult to predict patients at high risk. It is suspected that the type 1-ECG burden might be correlated to the ventricular fibrillation risk of these patients, but there is no mean to record the ECG over a long period of time. The objective of the study is to evaluate the correlation between ST elevation on the electrocardiogram (ECG) and ST shift on the intracardiac electrograms (EGM) recorded with the AnalyST ICD, to assess the ability of the device to detect the type 1-ECG. Patients enrolled in the study are patients already implanted with a defibrillator for their Brugada syndrome. During an Ajmalin test, which unmasks the type 1-ECG, both intracardiac EGM and surface ECG will be compared to assess the detection of the typical ST-shift by the ICD.
Quest for modifier genes associated with ventricular arrhythmias in presence of a cardiac sodium channel gene (SCN5A-delPhe1617) mutation.
The specific aim of this study is to determine whether hydroquinidine administration can prevent heart from appearance of ventricular arrhythmia detected by the automatic implantable defibrillator (ICD).