Gel-free 3D-printed electrodes + AI detect arrhythmias in wearables

Researchers at Simon Fraser University have developed a heart monitoring system combining 3D printing and AI to improve cardiac diagnostics. The system uses reusable, dry 3D-printed electrodes with an origami-inspired design that adheres to the skin without sticky gel, addressing issues of patient discomfort and signal degradation over time. 

The embedded AI software is capable of pre-diagnosing up to 10 types of arrhythmias in real-time. Clinical testing indicates the design improves patient compliance compared to traditional Holter monitors. The system is designed to allow test results to be shared electronically with physicians for confirmation, aiming to expand access to monitoring in remote and underserved communities.

Read the original article at https://www.sfu.ca/sfunews/media/media-releases/2025/11/ai-at-the-heart-of-new-sfu-gel-free-ecg-system-for-faster-diagno.html

Our Opinion: This shift solves long-standing issues of patient discomfort, compliance, and significant medical waste associated with traditional ECG patches. This technology will not only accelerate the time to diagnosis for critical conditions like atrial fibrillation but also provide easy access to specialized heart health management, making super-accurate, long-term patient monitoring possible even outside the hospital. It’s a perfect illustration of how smart engineering can maximize the clinical utility of AI.

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