Micra leadless pacemaker had 100% implantation success with only one major complication and stable long-term function up to 9 years, with ~12-year battery life.
Does the Micra leadless pacing system maintain stable long-term parameters and safety in a real-world population over up to 9 years?
The Micra leadless pacing system demonstrates excellent long-term safety, stable electrical parameters, and an estimated battery longevity of 12 years in a real-world cohort followed for up to 9 years.
Absolute Event Rate: 0% vs 0%
Abstract Introduction The Micra leadless intracardiac pacing system has been introduced and implemented into clinical routine in 2015, with its next generation MICRA AV in 2020. Feasibility, implantation safety, and acute success have been proven in the setting of controlled studies. Even apart from controlled studies, this leadless pacemaker technology iss beneficial for the individual patient. We aim to report our single center follow-up (FU) data with a follow-up of up to six years. Methods In 353 patients (161 men; age: 81±5,7 y), Micra implantation was performed. Pacemaker interrogation was performed one to seven days after implantation and during FU (1; 3; 6, then every 6 month) up to 108 months. Data were assessed in a real-life setting and compared with existing data of a controlled prospective trial. Results The implantation was successful in all 353 attempts with only one pericardial effusion as major complication. During follow up there were three patients developing severe heart failure symptoms resulting in an implantation of a CRT-device and switching of the leadless pacemaker system. One device had to be changed because of early unacceptable increase in threshold. The average acute thresholds, sensing and impedance after system release were: 0.56±0.36V@0.24ms; 10,1 ± 6,14mV and 754±1 196 Ohm. During follow up of up to 9 years neither, pacemaker failure, nor infections were reported. Measurements were reevaluated for long-term thresholds, sensing and impedance: 0.75 ± 0.38V @ 0.24 ms; 18,38 ±2,75 mV and 525 ± 102 Ohm. During 9 years, in average no significant changes from acute to long-term measurements were detectable. In comparison to the controlled trial, our measurements of this real-life cohort were very similar. Conclusion In a real-life setting, the implantation of the leadless Micra system demonstrates a high rate of implantation success without major complications. We were also able to show stable long-term system parameters in the clinical setting of up to seven years of follow up with a very good battery longevity of about 12,0 years.
Winter et al. (Sat,) reported a other. Micra leadless pacemaker had 100% implantation success with only one major complication and stable long-term function up to 9 years, with ~12-year battery life.