Dr. Khalil emphasized the importance of making the device lightweight, economical, and fast to ensure it is widely usable.

The project involved a collaborative effort, including contributions from doctoral student Tamador Mohaidat and Md. Rahat Kader Khan, who developed the software.

Beyond heart attack detection, Khalil's team envisions expanding the technology's applications to monitor other health conditions, such as seizures and dementia.

Heart disease remains the leading cause of death in the United States, with someone dying from a heart attack every 40 seconds, underscoring the urgent need for timely detection.

Currently, the wearable device is in the advanced prototype stage and is set for further testing before a potential market release.

Led by assistant professor Kasem Khalil, the research team has achieved an impressive 92.4% accuracy in heart attack detection through the use of advanced mathematics and artificial intelligence.

The study detailing this innovative device was published on April 30, 2025, in the journal Intelligent Systems, Blockchain and Communication Technologies.

A groundbreaking wearable technology developed at the University of Mississippi aims to detect heart attacks with greater speed and accuracy than traditional methods.

Traditional heart attack diagnosis often relies on ECGs or blood tests conducted in medical facilities, which can delay critical treatment.

This technology is designed to be lightweight and energy-efficient, making it suitable for integration into everyday wearable devices like watches or smartphones.

Tamador Mohaidat highlighted that real-time heart monitoring could potentially save lives by enabling immediate responses to heart issues.

The researchers believe that quicker detection and treatment can significantly reduce the risk of permanent damage during heart attacks.