Search IconSearch

Off-Site Cardiac Telemetry Monitoring Honored for Care Delivery Innovation (Video)

Outside interest mounts, new algorithm promises scalability

Fewer than one in four patients survives an in-hospital cardiac arrest, according to statistics from the American Heart Association. Thanks to an off-site central monitoring unit (CMU) providing 24/7 cardiac telemetry monitoring for non-critically ill patients (detailed here), Cleveland Clinic has achieved a remarkable 93 percent survival rate among patients with in-hospital cardiac arrest when the CMU provided direct notification to on-site emergency response teams.


Cleveland Clinic is a non-profit academic medical center. Advertising on our site helps support our mission. We do not endorse non-Cleveland Clinic products or services. Policy

That accomplishment was outlined in a study published in JAMA last summer and was recognized by Cleveland Clinic CEO and President Toby Cosgrove, MD, as a top “Innovation for Future Care Delivery” at his recent State of the Clinic 2016 address via the one-minute video below.

Cardiologist Daniel Cantillon, MD, who serves as Medical Director of the CMU, says he’s been bombarded with inquiries from physicians across the country since his team published its JAMA paper. “They want to learn more about what we’re doing,” he says.

“We’ve only scratched the surface of how to advance care in the area of monitoring,” he adds, noting that the CMU is implementing a new telemetry module powered by a dynamic algorithm his team created that will allow monitoring of twice as many patients with the same number of CMU technicians. “That will allow the scalability needed to extend the benefits of this service to the entire Cleveland Clinic health system.”

Dr. Cantillon believes this distance health approach represents a new paradigm for cardiac telemetry monitoring. “By centralizing our system, standardizing our practices and freeing our technicians from the distractions of normal hospital activities, we’ve been able to make a lot of important gains,” he says.


Related Articles

Preemptive Hemodynamic Support for Improving the Safety and Efficacy of VT Ablation

How we’re using a new multidisciplinary approach to broaden the benefits of ablation

Study Shows Machine Learning’s Potential to Predict Cancer Therapy-Related Cardiac Risk

Models developed with promising accuracy and generalizability to clinical practice

Digital Remote Blood Pressure Management: Has Its Time Come?

Keys to success include a team-based approach and integration into clinical workflow

Introducing Robotic Myectomy With Mitral Valve Repair

A minimally invasive, single-incision approach to two coexisting problems

Robotics in the Cardiac Cath Lab

A long-overdue technology is poised to reshape practice