View clinical trials related to Heart Rhythm Disorder.
Filter by:New onset heart failure (HF) is observed in up to 25% of patients with incident atrial fibrillation or flutter (AF). Current guidelines suggest that both conditions (AF & HF) be addressed with guideline directed medical therapy (GDMT) for HF and rate or rhythm control of AF. Hence, patients with both conditions are subjected to extensive polypharmacy with possible prognostic benefits, but also possible side effects, such as decreased renal function, dizziness, tiredness and hypotension, as well as the financial burden on both the individual patients and society, in addition to the stigma of having a HF diagnosis. Guidelines do not inform how to manage long-term patients with HF, who following control of the incident tachycardia (e.g. AF), show full recovery from their HF condition. This investigator-initiated, open-label, randomized, non-inferiority trial will test whether incremental weaning of GDMT in patients following full cardiac recovery and AF control is non-inferior compared to continuous GDMT with respect to the primary endpoint of freedom from heart failure deterioration. Furthermore, this study seeks to extensively phenotype these patients (genetic testing, advanced imaging, biomarkers etc.) in order to establish whether certain phenotypes are at lesser or greater risk of deterioration once remission is established. This novel approach of a personalized treatment regimen depending on e.g. genetic profiling could lead to an aggressive treatment in patients at high risk of deterioration and conversely spare patients with a negligible risk, a life-long intensive treatment regimen. All HF clinics located in Zealand, Denmark, with a catchment area of >2 million citizens, have agreed to participate in the WEAN-HF trial. A total of 348 patients will be randomized. Patients are followed up the 1st year after randomization with clinical examination, biomarkers and echocardiography, and are subsequently followed via Danish nationwide registries for 10 years.
Study protocol To prepare for the electrophysiologic study, antiarrhythmic drugs were discontinued at least five half-lives before the procedure and were under conscious sedation using midazolam ± fentanyl while fasting. ICE-guided ablation group In patients randomized to ICE-guided ablation group, catheter placement was initially performed using fluoroscopy guidance, after local anesthesia. A decapolar steerable catheter was placed in the coronary sinus (CS), a quadripolar electrode catheter was positioned in the right ventricular apex and an ablation catheter was inserted to record the His bundle electrogram. Twelve-lead electrocardiogram and intracardiac electrograms were recorded and saved on a digital recording system using a band pass filter of 30 to 500 Hz. Electrical stimulation techniques were used to test atrioventricular nodal conduction and induce AVNRT, with the S2 coupling interval being gradually shortened after each drive-train until tachycardia was induced, AV conduction block occurred, or the atrial refractory period was reached. If tachycardia was not inducible, isoprenaline infusion was given to increase the heart rate by at least 20%, and the same stimulation protocol was repeated during both the infusion and washout phases. The diagnosis of AVNRT was made using established electrophysiologic criteria and pacing maneuvers. This involved assessing the A-(H)-V response after ventricular overdrive pacing, with an SA-VA interval greater than 85 ms, and a corrected postpacing interval minus tachycardia cycle length greater than 110 ms. After confirmation of the diagnosis of AVNRT through the diagnostic EP study, the quadripolar electrode catheter was removed and replaced with an 8F ICE catheter for mapping and SP ablation. The echo-transducer was positioned in the low right atrium at the 6 o'clock position and rotated clockwise towards the septum to allow for visualization of the anatomic landmarks. The proximity of the ablation catheter to the compact AV node was determined by the distance from the aortic valve, which marks the recording site of a proximal His potential. In cases of ineffective ablation, the catheter was moved closer to the aortic valve, but always maintaining a distance of at least 0.5 cm, and RF application was attempted again. RF energy was delivered starting just below the CS with a power output of 30 W and a preset temperature of 55°C. Effective applications were continued for 30 to 60 s and considered successful when junctional rhythm appeared. RF application was immediately halted if there was catheter displacement, sudden impedance rise, prolongation of PR interval, anterograde AV or retrograde VA block. Electroanatomical mapping system -guided ablation group An ablation catheter was inserted into the heart to create an anatomical map by CARTO of the right atrium after local anesthesia, and the location of the His bundle was tagged. Decapolar and quadripolar diagnostic catheters were positioned thereafter into appropriate position as described above. After confirming the diagnosis of AVNRT, mapping of the slow pathway was started by NAVISTAR catheter guided by EAMS and aiming at an atrial-to-ventricular electrogram amplitude ratio of 1:3-1:5. If the ablation endpoint was not reached after 8 radiofrequency (RF) applications, patients in the EMAS-guided ablation group were allowed to crossover to an ICE-guided procedure. The ablation procedure was deemed successful if, following a 20-minute waiting period, the arrhythmia failed to be induced and there were no instances of more than one echo beat observed, both in the presence and absence of isoprenaline. The procedure time was measured from the initial femoral puncture until the withdrawal of the catheters. The mapping plus ablation time was calculated from the start of the SP mapping until the end of the last attempted ablation. Fluoroscopy time, radiation dose, and dose-area product (DAP) were automatically recorded by the fluoroscopy system. The ablation data, including the total number of RF applications, sum of delivered RF energy in Watts, and the total ablation time in seconds, were calculated and stored by the EP recording system (CardioLab, GE Healthcare).
The present study will investigate a set of biomedical sensors with a wireless data communication system and evaluate the sensors' recording quality. The sensors and wearable wireless system have been approved by Food and Drug Administration (FDA) for recording Electrocardiography (ECG), Trans Thoracic Impedance (TTI), Heart Sounds and Acitigraphy. The sensors and wireless system will be used along with conventional sensor systems (as intended to be used).
The aim of our study is to examine the effect of social isolation on physical activity level, health literacy and kinesophobia in heart rhythm disorders.
Literature shows that patients with obesity and Obstructive Sleep Apnea (OSA), both occurring independently, are more likely to develop cardiovascular diseases and sudden cardiac death (SCD). Assuming that ventricular depolarization is more stable than repolarization then QT interval parameters may be used for heart muscle repolarization assessment for those groups of patients. There were 121 patients included in the study, both - women and men, aging from 35-65 with visceral obesity. Only healthy patients were included - the ones who were not treated for any chronic disease, taking QT elongating drugs, or were not treated with Continuous Positive Airway Pressure (CPAP) therapy at that time.
High doses of intravenous (iv.) glucocorticoids (GCs) are commonly used as a treatment for many autoimmune and inflammatory disorders. According to the European Group on Graves' Orbitopathy (EUGOGO) guidelines, intravenous methylprednisolone (IVMP) is an accepted first-line agent for active, moderate-to-severe and very severe Graves' orbitopathy (GO). This treatment is proven to be more efficient and safer than oral GCs. However, some patients may experience adverse cardiovascular effects during the administration of iv. GCs, which in rare cases may even be fatal. There are limited data, mostly obtained from case reports, reporting the occurrence of cardiac arrhythmias, acute myocardial infarction or heart failure. Increased heart rhythm (HR) has drawn attention of researchers as a possible adverse effect correlated with IVMP. During this study, investigators performed 72-hours of Holter ECG and ambulatory blood pressure monitoring (ABPM) to evaluate the impact of IVMP on patients with moderate-to-severe GO, concerning HR and blood pressure (BP) changes. In order to elucidate possible mechanism of observed changes, researchers investigated the level of potassium in serum and urine and catecholamines (epinephrine, norepinephrine) in serum. All patients were treated routinely according to EUGOGO recommendations with standard doses of methylprednisolone with standard recommended schedule. Inclusion criterion for the therapy was according to EUGOGO guidelines active, moderate-to-severe and active GO (12 pulses of IVMP 6x0.5g followed by 6x0.25g every week).
PK-AMIO study is a population pharmacokinetic study of Amiodarone in children in order to : - study the pharmacokinetic parameters (Pop PK) of Amiodarone in children; - identify covariates explaining the variability of these pharmacokinetic parameters; - study the relationship between the concentration, the efficacy of treatment and its tolerance to optimize the use of Amiodarone in pediatrics. Indeed, there is no consensus on the optimal oral dosage in children. Few pharmacokinetic studies have been performed with only a small number of patients per study. Our study will include 70 children aged 0 to 18 years old.