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Clinical Trial Summary

The goal of this clinical trial is to compare the efficacy of a maximum output shock for cardioverting atrial fibrillation between two commonly used defibrillators in New Zealand . These machines have different maximum energy outputs, and to date no head-to-head comparison cardioverting atrial fibrillation between the two has been undertaken. The main question it aims to answer is whether either device is more likely to cardiovert patients referred for atrial fibrillation. Participants will be randomized to undergo cardioversion with one of two defibrillators at either 200J or 360J. Participants in each arm will undergo up to three shocks at the energy-level to which they have been randomized, using a standardized procedure. For participants randomized to the lower energy level who fail to return to normal rhythm after three shocks, they will be given a fourth shock at the higher energy level. All participants will then be asked to undertake a blood test the day following the cardioversion, and receive a follow up phone call. These are to ensure there is no difference in the safety of the procedure between the two energy levels. It is worth noting that these two components of the study (the blood test and phone call) are the only additional time commitment that is expected to be involved if you choose to participate in the study.


Clinical Trial Description

Atrial fibrillation is the world's most common arrhythmia, with an incidence that is increasing in Western countries. One-in-four adults will experience atrial fibrillation at some point in their life. Strategies for the management of atrial fibrillation include rate control, prophylaxis against stroke, lifestyle modification, and restoration of sinus rhythm through medical or electrical cardioversion. Electrical cardioversion for the restoration of sinus rhythm was first described by Lown and colleagues in 1962, and has undergone a number of procedural advances in the intervening six decades. Chief amongst these was a transition from cardioverting using monophasic to biphasic waveforms, something unequivocally demonstrated to increase cardioversion success, with lower energy, current, and less skin and muscle damage than monophasic devices. Yet the majority of the data which continues to guide cardioversion is derived from the era of monophasic therapy. Data from cardioversion with monophasic waveforms suggests that the use of higher initial shock energy is associated with higher first shock success, fewer shocks, and lower levels of skeletal muscle injury, with no increase in troponin to suggest greater cardiac injury. Likewise, studies of shock energy using biphasic devices have demonstrated benefit of maximum fixed shock energy. However, whilst the energy of a defibrillator remains entrenched in the descriptive vocabulary of cardioversion for atrial fibrillation, it is the flow of current across the myocardium that achieves cardioversion, and resuscitation guidelines have previously recommended a switch to the more physiologic current-based description. Different defibrillators deliver different currents at the same energy setting based on the capacitance of the device. As such, manufacturers of defibrillators recommend different energy levels for cardioverting atrial fibrillation with some standard biphasic defibrillators (Philips HeartStart MRx Monitor/Defibrillator) unable to deliver higher than 200J energy, while some (Lifepak 15 Monitor/Defibrillator) extend to 360J. No studies have compared initial 200J vs. 360J shock energies between these devices for cardioverting persistent atrial fibrillation. This study is a single centre randomized non-blinded study of the effectiveness of 200J vs. 360J fixed output biphasic electrical cardioversion in patients undergoing electrical cardioversion of persistent atrial fibrillation. The study hypothesis is that cardioversion with shock energy fixed to 360J delivered by a LifePak Monitor/Defibrillator is more efficacious than a 200J delivered by a Philips HeartStart MRx Monitor/Defibrillator, without worsening safety outcomes. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05903170
Study type Interventional
Source Wellington Hospital
Contact Allan M Plant, FRACP
Phone +64274114001
Email allanmplant@gmail.com
Status Recruiting
Phase N/A
Start date May 2024
Completion date August 2026

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