Novel Passive Implantable Atrial Defibrillator Using Transcutaneous Radiofrequency Energy Transmission Successfully Cardioverts Atrial Fibrillation

Manoharan, Ganesh; Evans, N.E.; Kidwai, Bakthiar; Allen, Desmond; Anderson, John; Adgey, Jennifer

doi:10.1161/01.cir.0000087594.42881.3c

Cited by 10 publications

(8 citation statements)

References 31 publications

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“…The role of implantable devices is still under investigation. Hybrid devices that maintain sinus rhythm by multisite atrial pacing and facilitate recurrent internal direct current cardioversion by the delivery of radiofrequency energy 20 have potential for some patients with AF.…”

Section: Future Developments In Direct Current Cardioversionmentioning

confidence: 99%

Theory and practice of defibrillation: (1) Atrial fibrillation and DC conversion

Adgey

Walsh²

2004

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Section: Future Developments In Direct Current Cardioversionmentioning

confidence: 99%

Theory and practice of defibrillation: (1) Atrial fibrillation and DC conversion

Adgey

Walsh²

2004

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“…Various waveform parameters have been studied in order to increase success. We have previously shown that low-tilt monophasic 3,4 and biphasic 5 waveforms are more successful than conventional higher tilt capacitorbased waveforms for the cardioversion of AF in the laboratory. The aim of this pilot study was to investigate if the low-tilt biphasic waveform was more successful and could be delivered safely in patients with persistent and induced AF.…”

Section: Introductionmentioning

confidence: 99%

A Pilot Study of a Low‐Tilt Biphasic Waveform for Transvenous Cardioversion of Atrial Fibrillation: Improved Efficacy Compared with Conventional Capacitor‐Based Waveforms in Patients

Glover

McCann

Manoharan

et al. 2008

Pacing Clinical Electrophis

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Background: The optimal waveform tilt for defibrillation is not known. Most modern defibrillators used for the cardioversion of atrial fibrillation (AF) employ high‐tilt, capacitor‐based biphasic waveforms. Methods: We have developed a low‐tilt biphasic waveform for defibrillation. This low‐tilt waveform was compared with a conventional waveform of equivalent duration and voltage in patients with AF. Patients with persistent AF or AF induced during a routine electrophysiology study (EPS) were randomized to receive either the low‐tilt waveform or a conventional waveform. Defibrillation electrodes were positioned in the right atrial appendage and distal coronary sinus. Phase 1 peak voltage was increased in a stepwise progression from 50 V to 300V. Shock success was defined as return of sinus rhythm for ≥30 seconds. Results: The low‐tilt waveform produced successful termination of persistent AF at a mean voltage of 223 V (8.2 J) versus 270 V (6.7 J) with the conventional waveform (P = 0.002 for voltage, P = ns for energy). In patients with induced AF the mean voltage for the low‐tilt waveform was 91V (1.6 J) and for the conventional waveform was 158 V (2.0 J) (P = 0.005 for voltage, P = ns for energy). The waveform was much more successful at very low voltages (less than or equal to 100 V) compared with the conventional waveform (Novel: 82% vs Conventional 22%, P = 0.008). Conclusion: The low‐tilt biphasic waveform was more successful for the internal cardioversion of both persistent and induced AF in patients (in terms of leading edge voltage).

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“…1 The Ventritex HVSO2 defibrillator (160 F; Ventritex) generated the 3 biphasic waveforms (6 ms in each phase; Figure 1a). A custom-made capacitor-resistance device added to the output circuit enabled waveform rounding.…”

Section: Equipmentmentioning

confidence: 99%

“…U sing an external radio-frequency energy transmitter to transfer energy transcutaneously to the passive implantable atrial defibrillator (PIAD), we recently reported transvenous atrial defibrillation success of 100% at 100 V (1.54Ϯ0.02 J) and pulse width of 10 ms. 1 The PIAD (without a capacitor or a battery), delivering a novel monophasic waveform (slow rising and falling times, a negligible tilt, and rounded leading and trailing edges; Figure 1a), was more efficacious than the standard or rounded monophasic waveforms. 1 Nevertheless, compared with standard monophasic waveforms, biphasic waveforms have improved efficacy in atrial fibrillation (AF) cardioversion, with a reduction in defibrillation threshold.…”

mentioning

confidence: 98%

“…1 Nevertheless, compared with standard monophasic waveforms, biphasic waveforms have improved efficacy in atrial fibrillation (AF) cardioversion, with a reduction in defibrillation threshold. 2 The aims of this study of cardioversion of AF were to compare the efficacy of the PIAD waveform against 3 biphasic waveforms at varying voltage settings in pigs ( Figure 1a).…”

mentioning

confidence: 99%

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Comparing the Efficacy and Safety of a Novel Monophasic Waveform Delivered by the Passive Implantable Atrial Defibrillator With Biphasic Waveforms in Cardioversion of Atrial Fibrillation

et al. 2004

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Background-The passive implantable atrial defibrillator (PIAD) (with no battery or discharging capacitor and powered transcutaneously by radio-frequency energy) delivering a novel monophasic low-tilt waveform is more efficacious than the standard monophasic waveform at atrial defibrillation. Standard biphasic (STB) waveforms, however, are more efficacious and safer than monophasic waveforms. This study compared the efficacy and safety of the PIAD waveform with biphasic waveforms. Methods and Results-Sustained atrial fibrillation (AF) was induced by rapid atrial pacing. Cardioversion was attempted via 2 atrial defibrillation leads. The efficacy of the PIAD was compared with 3 biphasic waveforms (standard, single rounded, and double rounded) at varying voltage settings in 10 pigs. After a synchronized shock, hemodynamic changes between the PIAD, standard biphasic, and monophasic waveforms were compared at 1.5 and 3.0 J in 12 pigs. Myocardial injury (biochemical and histological) after ten 5-J PIAD shocks was compared with a no-shock group in 14 pigs. The PIAD 100-V setting was significantly more efficacious than the STB (100/Ϫ50 V: 100% [1.88Ϯ0.02 J] versus 90% [0.89Ϯ0.0 J]; Pϭ0.025). No arrhythmic, hemodynamic, or myocardial injury was observed with the PIAD waveform. Conclusions-Defibrillation with the PIAD is more efficacious than with the STB waveform and appears safe. This device could provide a more effective option for cardioversion.

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Novel Passive Implantable Atrial Defibrillator Using Transcutaneous Radiofrequency Energy Transmission Successfully Cardioverts Atrial Fibrillation

Cited by 10 publications

References 31 publications

Theory and practice of defibrillation: (1) Atrial fibrillation and DC conversion

Theory and practice of defibrillation: (1) Atrial fibrillation and DC conversion

A Pilot Study of a Low‐Tilt Biphasic Waveform for Transvenous Cardioversion of Atrial Fibrillation: Improved Efficacy Compared with Conventional Capacitor‐Based Waveforms in Patients

Comparing the Efficacy and Safety of a Novel Monophasic Waveform Delivered by the Passive Implantable Atrial Defibrillator With Biphasic Waveforms in Cardioversion of Atrial Fibrillation

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