|Medtronic First to Receive FDA Approval for MR-Conditional Cardiac Resynchronization Therapy-Defibrillators|
Amplia MRI(TM) and Compia MRI(TM) CRT-Ds, Approved for Patients with Heart Failure, Can Safely Undergo Full Body MRI Scans
DUBLIN - Feb. 5, 2016 - Medtronic plc (NYSE:MDT) today announced that it has received U.S. Food and Drug Administration (FDA) approval for the first and only magnetic resonance imaging (MRI) conditional cardiac resynchronization therapy defibrillators (CRT-Ds) for the treatment of heart failure. The Medtronic Amplia MRI(TM) Quad CRT-D SureScan® and Compia MRI(TM) Quad CRT-D SureScan® systems are approved for MRI scans on any part of the body without positioning restrictions. Now, patients in the U.S. who receive these devices, which help treat their heart failure and reduce their risk of sudden cardiac arrest, have access to MRI scans if and when they need them. Both CRT-D systems will be commercially available in the coming months.
"What's clear from the data and my own personal experience is that a large majority of CRT-D patients will likely need an MRI at some point. Now that CRT-D MRI devices are approved, patients can receive an MRI in a straightforward manner," said J. Rod Gimbel, M.D., Case Western Reserve University. "This is a significant development for heart failure patients with CRT-D therapy."
Known as the world's largest and leading cardiac device manufacturer, Medtronic was the first company to receive FDA approval for MR-conditional pacemakers (2011) and implantable cardioverter defibrillators (ICDs) in 2015, and now CRT-D devices.
Until now, CRT-Ds have been contraindicated by the FDA to undergo MRI scans because of the potential interaction between the MRI and the device, resulting in risk to patients. However, as many as 40 percent of CRT patients will need an MRI within four years after receiving a device1. As a result, thousands of heart failure patients implanted with CRT-Ds have not had access to MRI scans, which are used to diagnose conditions such as stroke, cancer, Alzheimer's disease, and muscle, bone and joint pain. Additionally, the Centers for Medicare and Medicaid Services (CMS) do not reimburse for MRI scans conducted on patients with non-MR-conditional implanted cardiac devices.
The Amplia MRI and Compia MRI CRT-Ds with quadripolar technology offer physicians multiple options to help treat heart failure by optimizing CRT delivery, which may improve patient outcomes.
The Amplia MRI device features the AdaptivCRT® algorithm, which has been shown to reduce a patient's odds of a heart failure hospital readmission (within 30 days) by 59 percent (versus echo-optimized CRT)2. The AdaptivCRT feature also has been shown to improve CRT response rate by 12 percent3, and to reduce AF risk by 46 percent compared to echo-optimized BiV pacing.4
Both newly approved devices can be paired with the Attain(TM) Perfoma(TM) MRI SureScan(TM) Quadripolar Leads, of which the entire portfolio is approved for MRI scans: Dual Cant MRI SureScan(TM) Model 4298, Straight MRI SureScan(TM) Model 4398 and S MRI SureScan(TM) Model 4598. With 16 pacing configurations and shorter spacing between the two center electrodes, these quadripolar leads have been shown to reduce the incidence of phrenic nerve stimulation (PNS), a potential issue associated with CRT therapy that results in muscle twitching, hiccups or shortness of breath.5 Attain Performa leads also include steroid on all four electrodes for lower chronic pacing thresholds, which contribute to greater device longevity and reduce the likelihood of PNS.6 The systems also include VectorExpress(TM) technology, an automated in-office test that reduces lead programing to two minutes,7 and reveals clinically actionable information to help physicians select optimal pacing configurations for each patient.
"With FDA approval of Amplia MRI and Compia MRI, Medtronic continues to lead the market in MR-conditional implantable cardiac devices, bringing greater access to patients that need this vital diagnostic test to identify other potential life-threatening diseases," 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. "Medtronic is committed to continuing to develop innovative technologies that offer physicians a wide range of technology options to help them improve outcomes for heart failure patients."
In collaboration with leading clinicians, researchers and scientists worldwide, Medtronic offers the broadest range of innovative medical technology for the interventional and surgical treatment of cardiovascular disease and cardiac arrhythmias. The company strives to offer products and services that deliver clinical and economic value to healthcare consumers and providers around the world.
Any forward-looking statements are subject to risks and uncertainties such as those described in Medtronic's periodic reports on file with the Securities and Exchange Commission. Actual results may differ materially from anticipated results.
1 Medtronic data on file 2015: Data from MarketScan® 2012 Commercial and Medicare Database. Truven Health Analytics.
2 Starling RC, Krum H, Bril S, Tsintzos SI, Rogers T, Hudnall JH, Martin DO. Impact of a Novel Adaptive Optimization Algorithm on 30-Day Readmissions: Evidence from the Adaptive CRT Trial, JACC: Heart Failure (2015), doi: 10.1016/j.chf.2015.03.001.
3 Tarab AD, Dougher CE, Rogers TB, et al. Budget impact on selecting cardiac resynchronization therapy (CRT) devices with adaptive ("aCRT") programming algorithms under the Unites States Medicare Payment Setting. Value Health. November 2012; 15(7): A349.
4 Martin D, et al. Clinical Outcomes with Adaptive Cardiac Resynchronization Therapy: Long-term Outcomes of the Adaptive CRT Trial. HFSA Late Breakers. September 23, 2013.
5 Biffi 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.
6 Lunati MG, Gasparini M, Landolina M, et al. Long-Term Effect of Steroid Elution on the Electrical Performance of Coronary Sinus Leads for Cardiac Resynchronization Therapy. Presented at HRS 2012 (AB10-05).
7 Demmer, W. VectorExpress Performance Results. Medtronic data on file. January 2013.