During minimally invasive interventional procedures, clinicians often rely on multiple imaging and data sources, which can be challenging to integrate and interpret in real-time. Current visualization methods may not provide the comprehensive spatial understanding needed for optimal procedural accuracy and efficiency.

SentiAR offers an augmented reality (AR) platform that delivers a real-time, interactive, 3D holographic view of patient-specific anatomy during interventional procedures. By integrating data from various sources, such as electroanatomic mapping systems and catheter positioning data, the platform provides a consolidated and intuitive interface for clinicians. This allows physicians to visualize the inner heart surface and catheter placement in 3D, enhancing their understanding of the procedure and improving accuracy. The AR visualization enables better control, precise learning, and realistic training, ultimately leading to improved patient outcomes.

Real-time holographic visualization of patient anatomy overlaid onto the surgical field.

Integration of 3D electroanatomic mapping data with catheter positioning information.

Interactive 3D visuals that reflect the anatomy of the inner heart surface.

Augmented reality software compatible with mixed reality hardware.

Intuitive interface allowing physicians to control the display during procedures.

The primary target audience includes electrophysiologists, cardiologists, radiologists, and other medical professionals performing minimally invasive interventional procedures.