Heart Rhythm

Hearts should have normal rhythm to their beats, but when these beats are out of synch, it causes inefficient pumping of blood. Irregular heart arrhythmias occur when the electrical signals that coordinate the heart's beats do not work properly. This can cause beats that are too fast (tachycardia), or too slow (bradycardia). Tachycardias include atrial fibrillation (AFib), supraventricular tachycardia, ventricular fibrillation, and ventricular tachycardia (VT). Bradycardias include sick sinus syndrome and conduction block. Electrophysiology arrhythmia treatments include medications, life style changes, and the EP lab interventions of catheter ablation, and implantable pacemakers or defibrillators.

Phillip Cuculich MD explains Noninvasive Cardiac Radiotherapy ablation for ventricular tachycardia as a late-breaking study at HRS 2023. #HRS2023

Radiotherapy VT ablation linked to encouraging 5-year outcomes

"The goal is to treat patients with life-threatening VT in a safer, faster and better way," one researcher explained.

PHOTO GALLERY: Electrophysiology advances at Heart Rhythm 2023

Heart Rhythm 2023 in New Orleans brought together EP experts from all over the world. Scroll through a large selection of photos from the big event. 

Sam Jones, MD, explains why CMS reduced payments for EP ablation and how it will negatively impact electrophysiology. #HRS #HRS2023 #EPeeps #EPlab #Medicare

Making sense of the huge Medicare reimbursement cuts in electrophysiology

Samuel Jones, MD, examines the large reimbursement reductions in cardiac ablations and what the impact might be on access to care in EP labs.

Kenneth Ellenbogen, MD, explains the key EP takeaways from the 2023 Heart Rhythm Society meeting.

Key takeaways from Heart Rhythm 2023

Kenneth Ellenbogen, MD, detailed some of the biggest trends he saw at the three-day event in New Orleans. 

Artificial intelligence (AI) analysis from a remote ECG monitor showing the AI generated report on the Philips Cardiologs system, during a demonstration of the technology at Heart Rhythm 2023. Photo by Dave Fornell

AI correctly IDs ventricular arrhythmias in 88% of patients with sustained VT

New research suggests AI could offer physicians a new, state-of-the-art approach to sudden cardiac arrest risk management.

The proliferation of artificial intelligence (AI) in healthcare includes numerous algorithms for electrophysiology (EP). Jagmeet Singh, MD, Professor of Medicine, Harvard Medical School, and founding director of the Resynchronization and Advanced Cardiac Therapeutics Program and Mass General Hospital, spoke with Cardiovascular Business at Heart Rhythm 2023 to explain how AI is being used in EP. #HRS2023 #HRS #AI

AI gaining popularity in electrophysiology

There are now numerous AI algorithms for electrophysiology. Jagmeet Singh, MD, examined how this advanced technology is being applied.

Daniel Cantillon, MD, said the first leadless, dual-chamber pacing system performed very well in the Aveir dual-chamber i2i trial. #HRS #HRS23

Early success of dual-chamber leadless pacemaker suggests big changes could be on the horizon

Daniel Cantillon, MD, explained why the positive performance of Abbott's Aveir dual-chamber leadless pacemaker could lead to considerable improvements in patient care. 

A figure from the HRS remote monitoring consensus document on staffing challenges with remote monitoring.

Electrophysiology experts issue recommendations for remote monitoring of CIEDs

The Heart Rhythm Society released a new expert consensus statement on the management of remote device clinics for implantable EP devices.

Around the web

Ron Blankstein, MD, professor of radiology, Harvard Medical School, explains the use of artificial intelligence to detect heart disease in non-cardiac CT exams.

Eleven medical societies have signed on to a consensus statement aimed at standardizing imaging for suspected cardiovascular infections.

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