View clinical trials related to Supraventricular Tachycardia.
Filter by:The INTELICE trial is a prospective, multicenter, 1:1 randomized controlled non-inferiority study. It aims to compare a novel intracardiac echography (ICE) catheter and combined ultrasound system with existing commercial ones. The evaluation will be conducted on patients undergoing planned intracardiac interventional process.
The goal of this study is to understand the effects of early mobilization after a Z stitch procedure in patients undergoing certain heart-related treatments. The investigators want to find out if allowing patients to move around sooner after their procedure can improve their satisfaction and potentially lead to earlier discharge from the hospital. Type of Study: Clinical Trial Participant Population/Health Conditions: Patients aged 18-99 undergoing specific heart procedures such as atrial fibrillation treatment, atrial flutter treatment, supraventricular tachycardia treatment, diagnostic electrophysiology studies, AV node ablation, or Watchman device placement. Main Questions: Does early mobilization (getting up and moving around sooner) after the Z stitch procedure improve patient satisfaction? Participants will be divided into two groups, and researchers will compare those who have one hour of bedrest with those who have four hours of bedrest after the Z stitch procedure. The investigators want to see if the shorter bedrest period leads to higher patient satisfaction.
BELIEVE-SVT is a European multi-centre, retrospective registry in tertiary hospitals performing electrophysiological study in patients with palpitations considered clinically suggestive of paroxysmal supraventricular tachycardia by a cardiologist and without electrocardiographic documentation of tachycardia or preexcitation. Clinical characteristics, results of electrophysiological study and ablation, complications, and clinical outcomes during follow-up will be analysed.
Atrioventricular nodal reentrant tachycardia (AVNRT) is the most common supraventricular tachycardia inducible during an electrophysiological study. Although ablative therapy proved to be the treatment of choice, little is known about the components of the tachycardia circuit. The aim of this study is to detect the presence and patterns of specific electrograms representing slow pathway (SP) potentials and to explore Koch's triangle pattern activation during sinus rhythm and/or atrial extraestimulus with a high-density mapping catheter in an attempt to clarify a fast and safety catheter ablation strategy. We hypothesized that, in patients with dual atrioventricular nodal physiology, during sinus rhythm (SR), high-density mapping (HDM) catheters could identify the SP signals, making possible to delineate small areas of slow conduction associated to abnormal electrograms on Koch's triangle. On a second step, radiofrequency (RF) applications safety guided by the HDM obtained with this method, should interrupt the circuit far from the His region. Finally, SP signals should disappear after the RF procedure when performing a new 3D HDM. A control group of patients without AVN dual physiology should show absence of fragmented/slow conduction zones.
The "Long-term Outcome and Predictors for Recurrence after Medical and Interventional Treatment of Arrhythmias at the University Heart Center Hamburg" (TRUST) study is an investor-initiated, single-center, prospective clinical cohort study including patients treated with cardiac arrhythmias or at high risk for cardiac arrhythmias. The design enables prospective, low-threshold, near complete inclusion of patients with arrhythmias treated at the UHZ. Collection of routine follow-up data, detailed procedural information and systematic biobanking will enable precise and robust phenotyping.
Cardiac arrhythmia, specifically paroxysmal supraventricular tachycardia (SVT), accounts for a substantial proportion of emergency medical services resources utilization. Restoring a normal sinus rhythm (reconversion) should be done quickly and effectively. Reconversion requires increasing the atrioventricular node's refractoriness, which can be achieved by vagal maneuvers, pharmacological agents, or electrical cardioversion. The Valsalva Maneuver (VM) is a commonly used non-invasive reconversion method. It increases myocardial refractoriness by increasing intrathoracic pressure for a brief period, thus stimulating baroreceptor activity in the aortic arch and carotid bodies, resulting in increased parasympathetic (vagus nerve) tone. The effectiveness of conventional vagal maneuvers in terminating SVT, when correctly performed, shows a considerable variation ranging from 19.4% to 54.3%. To improve the effectiveness of the Valsalva Maneuver, the Modified Valsalva Maneuver (MVM) was introduced. While the standard VM is performed when the patient is in a sitting position (45°-90°), the modified VM involves having the patient sit up straight and perform a forced expiration for about 15 seconds, after which the patient is brought into a supine position with the legs raised (45°) for another 15 seconds. This modification should increase relaxation, phase venous return, and vagal stimulation. A recent meta-analysis demonstrated a significantly higher success rate for reconversion to sinus rhythm when using the MVM compared to the standard VM in patients with an SVT (Odds Ratio = 4.36; 95 percent c.i. 3.30 to 5.76; P < .001). More adverse events were reported in the MVM group, although this difference is not significant (Risk Ratio = 1.48; 95 percent c.i. 0.91 to 2.42; P = .11). The available evidence suggests that medication use was lower in the MVM group than in the standard VM group. However, medication use could not be generalized across the different studies. None of the included studies in this review showed a significant difference in length of stay in the emergency department (ED). Hence, the gain of implementing MVM is a higher rate of success with non-invasive reconversion methods. While the available evidence is highly suggestive of supporting the use of the MVM compared to the standard VM in the treatment of adult patients with SVT, implementation seems difficult. Current evaluations, such as the 'gold-standard' randomised controlled trial (RCT) design, rarely adequately or even explicitly address the context-specific drivers behind implementation outcomes and their relationship to the underlying programme theory, making it difficult to interpret their findings in light of other programmes in different settings. As a result, few evaluation strategies are widely accepted as appropriate. The net benefit of interventions and understanding how variable outcomes are achieved remains empirically uncertain. Therefore, it is essential to develop comprehensive, rigorous, and practical methods to evaluate people-centred quality improvement programmes, inform the selection of effective and efficient interventions, and facilitate improvement and scaling-up. In evaluating such complex interventions, the Medical Research Council (MRC) argues for the importance of process evaluation in conjunction with outcome evaluation to account for variability in implementation. The MRC's process evaluation framework guides evaluators to understand the implementation processes (what is implemented and how), mechanisms of intervention (how the delivery of the intervention produces change) and contextual factors that affect implementation and outcomes. Research question This study aimed to evaluate a quality improvement program to improve the non-invasive care for patients with paroxysmal supraventricular tachycardia in the emergency department.
The aim of the present work is to analyze the capacity of high resolution mapping systems to determine the precise location of the AV node and peri-nodal slow-conducting pathways, using standard recording parameters, but also off-line additional filter changes and additional techniques (conduction velocities, isochrones and dV/dt). The investigative team plan a prospective monocentric study. Detailed high resolution mapping of the Koch triangle and neighboring areas will be collected through the RHYTHMIA HDx 3D electro-anatomical mapping system and the multipolar ORION catheter. This sample will consist of 2 groups of patients: the first will include patients referred for AVNRT ablation and the second will include control patients (without AVNRT), referred for another indication requiring similar mapping system. If visualized, position of the slow pathway and AV node will be compared with the ablation areas, which will be set conventionally under fluoroscopy.
Adenosine has been discovered since 1929 and used in the acute treatment of arrhythmias. It uses as a therapeutic diagnosis in patients with regular narrow QRS complex tachyarrhythmias. The conventional method of adenosine administration is the double syringe technique (DST). However, it consumes a lot of resources including two syringes, a stopcock, an extension tube, and needs 2 nurses to administer. An observational study found that a single syringe technique (adenosine diluted with normal saline up to 20 ml) was as effective as a double syringe technique. However, there is no randomized control trial for proving its efficacy.
The infants diagnosed with SVT are treated with antiarrhythmic medication to prevent the recurrence of SVT. This prospective observational cohort study evaluates efficacy and safety of shortening duration of antiarrhythmic medication to four months in infants with SVT. Primary outcome is incidence of recurrent SVT in infants after 4 months of antiarrhythmic medication compared to retrospectively reviewed cohort.
Compare the effectiveness and safety of two techniques for modification of slow AV nodal pathway conduction underlying AVNRT: 1) New Ablation Technique, low voltage and wave front collision mapping vs. 2) the Standard Ablation Technique, an anatomical/electrogram approach.