During electrophysiological study (EPS) multiple drugs are used to reveal arrhythmias and/or conductive system disorders. Two most often used agents are atropine and isoprenaline. Due to their distinct pharmacological properties, they are affecting myocardium in different manner. Those dissimilarities can affect the EPS course and long-term prognosis. The aim of presented study is to evaluate the optimal protocol of pharmacotherapy during EPS.
Electrophysiological study (EPS) is essential tool for heart rhythm disorders diagnostic. Inducibility of arrhythmia before ablation to confirm the diagnosis and inability to do so after the procedure is crucial for long-term success. Multiple drugs are used to reveal arrhythmias and/or conductive system disorders. Two most often used are atropine and isoprenaline. Atropine is a natural, selective antagonist of cholinergic receptors M1 and M2. It reverses the inhibitory effect of vagal nerve on myocardium. This improves sinus node automatism and conduction in atrioventricular node. Isoprenaline is a preferential agonist of beta-1-adrenergic receptors. It has bathmotropic and chronotropic effect. During daily clinical practice those two drugs are often used interchangeably. However, differences in pharmacokinetics and pharmacodynamics may affect the results. There are lack of data directly comparing those two agents. There are isolated evidences that arrhythmia inducibility rate after the ablation differs between those two drugs. This may lead to the misconception of ablation as successful. The aim of presented study is to evaluate the optimal protocol of pharmacotherapy during EPS.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
200
Comparison of heart conductive system and arrhythmia inducibility after using atropine or isoprenaline
Department of Electrocardiology Medical University of Lodz
Lodz, Poland
Evaluation of sino-atrial conduction time
Sino-atrial conduction time (ms) during programed atrial stimulation will be assessed to examine the function of sinus node.
Time frame: During the procedure
Evaluation of sinus node recovery time
Sinus node recovery time (ms) during programed atrial stimulation will be assessed to examine the function of sinus node.
Time frame: During the procedure
Evaluation of anterograde atrioventricular conduction
Anterograde Wenkebach point (ms) and effective refractory period of atrioventricular node (ms) during programed atrial stimulation will be assessed.
Time frame: During the procedure
Evaluation of retrograde atrioventricular conduction
Retrograde Wenkebach point (ms) and effective refractory period of atrioventricular node (ms) during programed ventricular stimulation will be assessed.
Time frame: During the procedure
Arrhythmia inducibility
Inducibility of anticipated arrythmia before and after drug administration and after eventual ablation.
Time frame: During the procedure
Long-term success rate
Recurrence of clinical arrhythmia during 12 months of observation
Time frame: 12 months
Incidence of adverse events during the electrophysiological study.
Analysis of adverse events during the electrophysiological study according to used drug. Adverse events includes: death, stroke, cardiogenic shock, anaphylaxis, myocardial infarction, electric storm.
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Time frame: During the procedure
Incidence of adverse events during the 12-month follow up.
Analysis of adverse events during the 12-month follow up according to used drug. Adverse events includes: death, stroke, cardiogenic shock, anaphylaxis, myocardial infarction, electric storm.
Time frame: 12 months
Length of the procedure
Analysis of the whole procedure time according to used drug.
Time frame: During the procedure
Procedure time form drug administration till the end.
Analysis of the procedure time form atropine/isoprenaline administration till the end.
Time frame: During the procedure