"Until now, CRT devices have shown only whether a pacing pulse was sent, but we haven't been able to determine if that stimulation actually improves the heart's pumping ability," said Suneet Mittal, M.D., director, Electrophysiology Laboratory, Arrhythmia Institute of the Valley Health System, Ridgewood, N.J. "With the Claria device, physicians are now able to verify the effectiveness of left ventricular pacing, which is especially beneficial for improving outcomes in patients with atrial fibrillation, who have been difficult to treat because this irregular and rapid heartbeat often interferes with the delivery of effective CRT."
A large percentage of heart failure patients receiving cardiac resynchronization therapy have atrial fibrillation (AF),1 which can significantly reduce patient response to CRT. The Claria device includes the Medtronic-exclusive EffectivCRT Diagnostic, which automatically determines the effectiveness of each left ventricular pace, and the EffectivCRT during AF algorithm, which automatically adjusts pacing rates during AF, without adversely affecting the average heart rate.
Additional features on the Claria device include:
- The AdaptivCRT algorithm, which reduces a patient's odds of a 30-day heart failure readmission by 59 percent,2 and has demonstrated a 46 percent reduction in AF risk compared to echo-optimized biventricular pacing.3
- VectorExpress 2.0, an automated in-office test that reduces lead programing to two minutes,4 and reveals clinically actionable information to help physicians select optimal pacing configurations for each patient.
- Attain Perfoma MRI SureScan Quadripolar Leads, which include short bipolar spacing to reduce phrenic nerve stimulation occurrence,5 steroid on all electrodes, and three shapes for varying patient anatomies.
- SureScan MR-conditional labeling for full-body scans without positioning restrictions. Medtronic now offers MR-conditional pacemakers, implantable cardioverter defibrillators (ICDs), insertable cardiac monitors (ICMs) and CRT-Ds. Additionally, patients with certain existing defibrillation leads will be eligible for an MR-conditional ICD or CRT-D, and thus able to access this important imaging technology.
"The Claria MRI CRT-D is our latest innovation to help improve patients' response to CRT, establishing a new level of personalized care," said David Steinhaus, M.D., vice president and general manager of the Heart Failure business, and medical director for the Cardiac Rhythm and Heart Failure division of Medtronic. "And it further expands our industry-leading MR-conditional portfolio of devices, which are helping to improve the lives of more patients throughout the world."
In addition to introducing CRT to the worldwide marketplace nearly 20 years ago, and offering the first MR-conditional CRT-defibrillators in the U.S., the Medtronic heart failure portfolio includes mechanical circulatory support therapy and impactful heart failure diagnostics and expert analysis through Medtronic Care Management Services.
Medtronic also has submitted a Pre-Market Application (PMA) to the FDA for Multiple Point Pacing, which, if approved, would be available with the Claria MRI and Amplia MRI CRT-Ds. The Multiple Point Pacing feature is not currently approved for commercial sale in the United States.
1Kloosterman M, Maass AH, Rienstra M, Van Gelder IC. Atrial fibrillation during cardiac resynchronization therapy. Card Electrophysiol Clin. December 2015;7(4):735-748.
2Starling RC, Krum H, Bril S, et al. Impact of a Novel Adaptive Optimization Algorithm on 30-Day Readmissions: Evidence From the Adaptive CRT Trial. JACC Heart Fail. July 2015;3(7):565-572.
3Martin D, et al. Clinical outcomes with adaptive cardiac resynchronization therapy: Long-term outcomes of the Adaptive CRT Trial. HFSA Annual Scientific Meeting. September 23, 2013.
4Demmer, W. VectorExpress performance results. Medtronic data on file. January 2013.
5Biffi et al. Effort of bipolar electrode spacing on phrenic nerve stimulation and left ventricular pacing thresholds: An acute canine study. Circulation Arrhythmia and Electrophysiology. 2012.