SEATTLE, May 7, 2018 /PRNewswire/ — Bardy Diagnostics, Inc., (“BardyDx”), a leading provider of ambulatory cardiac monitoring technologies and custom data solutions, including the Carnation Ambulatory Monitor (“CAM™”), the world’s only P-wave centric™ ambulatory cardiac monitor and arrhythmia detection device, announced today that the American Heart Journal has published the results of a head-to-head comparison of two patch-based arrhythmia monitoring systems. The study, “Comparison of two ambulatory patch ECG monitors: The benefit of the P-wave and signal clarity” concluded that the BardyDx CAM single-channel patch ambulatory ECG monitor (AEM), designed specifically to enhance P-wave detection, identified significantly more arrhythmias and resulted in better, more informed clinical decision-making over the iRhythm Zio® XT patch.
In the prospective time-paired comparative study led by electrophysiologist Robert Rho, MD, FHRS, FACC, 30 patients simultaneously wore a pectorally-placed arrhythmia monitoring patch (iRhythm Technologies, Zio XT patch) and a P-wave centric arrhythmia monitoring patch (Bardy Diagnostics, CAM patch) placed over the sternum with the intent of recording for 7 days. At the end of the monitoring period, the patches were removed at the same visit. The outcome measures were to compare diagnostic yield, ECG signal clarity, ease of use and comfort, and, importantly, an assessment of differences in clinical decision-making based upon each device’s rhythm diagnosis.
The study evaluated the differences in specific rhythm diagnosis and ECG clarity between the two commercially available patch AEMs. The CAM patch identified more arrhythmias (particularly atrial tachycardia, atrial flutter, and non-sustained VT) than the Zio XT patch in contrast to atrial fibrillation, where both monitors performed adequately. ECG clarity was ranked as “high” in all CAM reports compared to the Zio XT reports (100% versus 16%, p<0.001). Both devices were considered user-friendly; however, the CAM patch was observed to be slightly easier to attach and remove, more stable, and associated with less skin reaction. Importantly, it was found that the superior signal clarity provided by the CAM patch may result in more informed clinical decisions in over a third of the patients.
Dr. Rho commented “Most innovations in AEMs have focused on increased monitoring duration. Although duration of recording improves arrhythmia diagnosis, a very important factor is the clarity of the ECG recording. AEM diagnostics and ECG clarity vary with electrode location, signal noise, signal processing technology, and electronic design. The clarity of an ECG signal is important in providing the ability to see P-waves during a recorded arrhythmia. The ability to accurately detect P-waves during an arrhythmia event allows physicians to make a more specific and confident rhythm diagnosis. This study demonstrates that significant differences in diagnostic yield exist between these two seemingly similar patch ambulatory ECG monitors applied during the same 7-day monitoring period and that these differences can impact clinical decision making.”
Dr. Rho et al.’s patch-to-patch comparison study builds on a study conducted by Warren Smith, MBChB, et al., comparing the BardyDx CAM patch and a traditional Holter monitor also in a simultaneous, paired assessment. That study, entitled “Comparison of diagnostic value using a small, single channel, P-wave centric sternal ECG monitoring patch with a standard 3-lead Holter system over 24 hours,” (Am Heart J 2017; 185:65-73) demonstrated that the BardyDx CAM “resulted in a significantly improved rhythm diagnosis and avoided inaccurate diagnoses made by the standard 3-channel Holter monitor” on a time-controlled basis.
Commenting on the positive results of both studies, BardyDx Founder and Chief Executive Officer, Gust H Bardy, MD explained, “After a personal loss, I set out to build a P-wave focused, low-noise, easy-to-use ambulatory cardiac monitor with contextual beat-to-beat R-R interval data to complement the P-wave centric design. Our goal was to create a tool with the ability to definitively diagnose the broad array of arrhythmias that afflict patients. We are confident that our monitoring technology enables physicians to better manage profound medical decisions involving anticoagulation, antiarrhythmic drugs, ablation, or device therapies. It is very rewarding to see the clinical results of the CAM compared to other monitors. We are proud to provide actionable medical data to physicians for their patients with this new technology and look forward to its continued widespread adoption.”
About Bardy Diagnostics:
Bardy Diagnostics, Inc. is an innovator in digital health and remote patient monitoring, with a focus on providing diagnostically-accurate and patient-friendly cardiac and vital signs patch monitors to the industry. The company’s CAM patch is a non-invasive, P-wave centric™ ambulatory cardiac monitor and arrhythmia detection device that is designed to improve patient compliance for men, women, and children through its lifestyle-enabling patch design. Designed to be worn comfortably and discreetly by both men and women, the female-friendly, hourglass-shaped CAM Patch is placed on the center of the chest, directly over the heart for optimum ECG signal collection. The innovative and broadly-patented technology of the CAM patch provides optimal detection and clear recording of the often difficult-to-detect P-wave, the part of the ECG waveform that is essential for accurate arrhythmia diagnosis.
For more information please visit www.bardydx.com
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Jonathan Wu
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Bardy Diagnostics, Inc.
1-844-422-7393
jwu@bardydx.com
SOURCE Bardy Diagnostics, Inc.
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