View clinical trials related to Tachycardia.
Filter by:Objective: In this pilot study, we will test the hypothesis that patients with POTS (age 18-60 years) will have a higher percentage of functional antibodies to adrenergic receptors compared with control subjects without POTS.
The study evaluates whether catheter based radiofrequency ablation is superior to optimized antiarrhythmic medical therapy in preventing ventricular tachyarrhythmia relapses in patients with ischemic heart disease and implantable cardioverter defibrillator.
Supraventricular tachycardia (SVT) is a term describing any rhythm coming from the top half of the heart. Although atrial fibrillation is the commonest cardiac arrhythmia, regular SVT's are also common. The two commonest regular SVT's are atrioventricular (nodal) reentry tachycardias (AV(N)RT) and atrial flutter (AFL). Atrioventricular (nodal) reentry tachycardias (AV(N)RT) are common but benign forms of fast heart rhythm. Although AV(N)RT can cause unpleasant symptoms and are frightening it is not dangerous. If patients present with AV(N)RT the accepted and normal treatment for most is to have the fast heart rhythm stopped by either taking a deep breath and straining or by the use of drugs. Patients can then be discharged home and have further investigation and treatment as an outpatient. SVT can be frightening for the patient but is easy to diagnose and treat. There is high success rate post treatment for this benign condition. This is traditionally done in the local accident and emergency, although patients can sometimes be unnecessarily admitted to hospital overnight. We propose to investigate the safety and efficacy of training paramedics to treat safe forms of AV(N)RT at the scene and then giving the patient an information pack which includes a request for a GP referral to a heart rhythm specialist. Patients will be randomly allocated after consenting to take part in the study to either get paramedic or accident and emergency department treatment. We will compare these two approaches by telephone follow up of the patients. The costs of the different approaches will be compared by assessing the rate of appropriate investigation and the information given to patients and how they rated their experiences.
The essential arterial hypotension and allostasis registry is a prospective, observational research that has the purpose of demonstrating that essential blood pressure (BP) disorders and the associated comorbidities are a result of the inappropriate allostatic response to daily life stress. This required a functioning brain orchestrating the evaluation of the threat and choosing the response, this is a mind-mediated phenomenon. If the response is excessive it contributes to high BP, if deficient to low BP, and the BP itself will identify the allostatic pattern, which in turn will play an important role in the development of the comorbidities. To do so, consecutive patients of any age and gender that visit a cardiologist's office in Medellin, Colombia, are recruited. Individuals are classified according to their arterial BP and allostasis and follow them in time to see what kind of diseases develops the most (including BP) in the follow up according to the categorization of the characteristic chosen and after adjustment for confounder's variables. In addition, stress events with their date are registered. HYPOTHESIS The causes of the diseases are multifactorial. Physical, biochemical, psychological, social, and cultural dimensions of development dynamically interact to shape the health development process. A person´s health depends on their: 1. Biological and physiologic systems 2. External and internal environment (a) physical, b) internal behavioural and arousal state as registered by the brain. 3. Their interaction. The allostatic mechanisms to the internal and external stressors (allostatic load) involves a network composed by: 1. Functional systems; mediated by: 1. The Autonomic Nervous System 2. The endocrine system 3. The immune system 2. Structural changes: whenever the internal and/or external stressors are long lasting and/or strength enough, they may induce changes in: 1. Epigenetic, endophenotypes, polyphenism. 2. Plasticity 3. The interaction between a) and b). The network response do not affect exclusively the BP, propitiating the development of comorbidities, which may prompt strategies for prevention, recognition and ultimately, treatment. The allostatic model defines health as a state of responsiveness. The concept of psycho-biotype: The allostasis is the result of both: biological (allostasis) and psychological (psychostasis) abilities. It is proposed that both components behave in similar direction and magnitude. Immune disorders may be associated with the development of cancer. High BP population has a higher sympathetic and lower vagal tone, this has been associated with a decrease in the immune´s system function. Resources and energy depletion: Terms like weathering have been used to describe how exposures to different allostatic loads gradually scrape away at the protective coating that keeps people healthy. It is postulated that High BP individuals have more resources and energy.
The aim of this prospective non-randomized study was to assess the efficacy and safety of endomyocardial botulinum toxin injection in left ventricle for preventing ventricular arrhythmias.
Ventricular tachycardia is one of the commonest cause of sudden death in chronic chagas disease. As most ventricular tachycardias originate from scar in patients with heart disease, catheter ablation is an important step in patient treatment. Identification of fibrosis prior to ablation of sustained ventricular tachycardia (SVT) might reduce the time of anesthesia, procedure time, radiation exposure and possibly the risk of complications. Knowledge of arrhythmia circuit within scar allows planning strategies for each procedure. Condreanu et al. stablished that voltages inferior to 6.52 mV (unipolar) and 1.54mV (bipolar) are useful tools in detecting scar during electroanatomic mapping. Accuracy, however when compared to magnetic resonance imaging is limited due to difficulties in maintaining good contact between ablation catheter and ventricular wall. Contact force catheters might help increase accuracy of voltage mapping because they allow detection of poor contact areas. Although the threshold for identification of scar in ischemic and non ischemic patients during electroanatomical mapping is already known, this parameters still lacking for chronic chagasic individuals. A marked qualitative histological difference between these fibrous scars supports the hypothesis that voltage scar in chagasics might be different. Catheter ablation contact with endo and epicardial surface is an important issue when ablating arrhythmias. Conventional catheter ablation is not equipped with sensors capable of detecting degree of contact with the target. To our knowledge, the literature lacks information in regard to late lesions produced by a known contact force pressure "in vivo". The pattern of electrical activation in these patients and their relationship with local coronary veins for resynchronization likely to approach through the coronary sinus can be useful in defining chagasic that can benefit from resynchronization. 1. Compare endocardial and epicardial impedance and voltage using CARTO 3 with fibrosis on 3T MRI 2. Correlate areas of late activation within scar during activating mapping in sinus rhythm with different signal intensity in 3T MRI 3. Evaluate the influence of contact pressure during application of radiofrequency in making fibrosis analyzed 30 days after the procedure using a 3T MRI. 4. Assess the site of latest left ventricular activation in sinus rhythm and correlate with the coronary veins location
The primary hypothesis is that an ICD shock may be predicted days in advance by a combined score derived from different data obtainable from the ICD
A randomized, parallel, open study comparing catheter ablation versus antiarrhythmic drugs for outflow tract ventricular arrhythmias
A significant portion of patients with cardiac diseases like coronary artery disease (CAD), dilated cardiomyopathy (DCM) and arrhythmogenic right ventricular cardiomyopathy (ARVC) develops ventricular tachycardia (VT). The standard ablation procedure is carried out from endocardial only. In 30% of patients treated this way a successful ablation is not possible. In these cases the scar areas are mostly located in the outer layer of the myocardium. Ablation is feasible only if the catheter is placed in the epicardial space to reach the surface of the heart muscle. In the past this type of ablation was performed as a second procedure in case of recurrent VTs after unsuccessful endocardial ablation. This prospective randomized trial compares the standard ablation procedure (endocardial ablation only) with a new strategy. This means in a single procedure the scar areas responsible for VT are marked and obliterated from endocardial as well as from epicardial. The primary endpoint is recurrence of VT after endo- and epicardial vs. endocardial ablation only. 40 patients will be enrolled. They will be randomized 1:1 in the study arms "strategy 1" which is standard endocardial ablation and "strategy 2" which is endo- and epicardial ablation. At least 12 months are planned for enrollment. The study is closed if the patient last enrolled has completed the 12-months-follow up. Follow up visits are scheduled 3, 6 and 12 months after the ablation procedure. Recurrence of VT is monitored by ICD (implanted cardioverter defibrillator) interrogation. Both ablation strategies are well established and conducted with standard equipment. The methodology of this study does not contain any experimental approaches. The standard insurance coverage of the hospital is guaranteed for all enrolled patients.
The primary objective is to compare the efficacy of the treatment using implantable cardioverter defibrillator (ICD) implantation to that of the treatment using amiodarone in the primary prevention of all-cause mortality in high-risk patients with Chagas cardiomyopathy and non-sustained ventricular tachycardia (NSVT).