Accurate Tracking You Can Trust

Next generation electromagnetic (EM) tracking platform for advanced medical device applications

Accurate. Reliable. Customizable.

We provide medical device innovators with high performance tracking solutions for various image-guided, minimally invasive & robotic procedures where accuracy & reliability are paramount.

Cardiology & EP

Robotic Surgery

Endoscopy

ENT

Neurosurgery

Orthopedics & Spine

Image-Guided Procedures

Why our customers trust the Radwave® EM Tracking Platform:

Drawing upon decades of EM tracking expertise, our team of medical device professionals have engineered a next-gen platform that delivers exceptional accuracy and reliability for advanced minimally invasive and robotic procedures.

Next Generation Tracking

Accelerate development timelines with our high performance, customizable turnkey EM tracking solution, designed for existing and new surgical navigation procedures.

Precision & Reliability

Reduce or eliminate use of radiation-based imaging with high-accuracy tracking, improving physician confidence, procedure time, and patient outcomes.

Enhanced Accuracy

Confidence indicators & distortion mitigation features detect real-time interference and reduce in-vivo tracking errors for better accuracy.

Open Sensor Platform

Enable tracking features across various tools and instruments with our versatile 5 & 6 DOF sensor sub-assembly, or your own sensor for design & supply chain flexibility

C-Arm compatible

Our radiolucent antenna allows uncompromised image quality with no image artifacts, while reducing radiation exposure.

Customization

Our experienced team of medical device engineers can support sensor integration, SDK/API development, and sensing volume configuration.

Optimal workflow

With minimal EM noise and interference, our platform streamlines workflow, cutting down on unnecessary antenna movement, setup, and reduce procedure times.

Certification-ready

Components manufactured under ISO 13485, IEC 62304, ANSI/AAMI SW96:2023, IEC 60601-1 (safety), and IEC 60601-1-2 (emissions & immunity)

Discover the Radwave® EM Tracking Platform

Antennas

Thin and light antennas with different tracking volumes to meet a variety of sensing volume needs.

Control Units

Seamlessly track multiple sensors and tools at the same time with flexible port configurations and high sampling rates

Sensors

Small 5 & 6 DOF sensors for easy integration into a variety of interventional and minimally-invasive devices.

Your Trusted Partner in Electromagnetic Tracking

With over 60 patents in the field and decades of experience in the medical device industry, we know first-hand the challenges faced by innovators striving to integrate electromagnetic navigation into their medical devices, and how to overcome them.

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Supported & recognised by:

Our Leadership

Our story is rooted in the decades of experience our co-founders have spent developing custom electromagnetic navigation systems for various medical device companies. Our mission: to develop a next-generation EM platform that tackles the current limitations in accuracy, interference, customization, and compatibility with intraoperative imaging — critical elements for advanced minimally-invasive and robotic procedures.

Andrew Brown

CEO

About

Experienced medical technology leader with 20+ years of experience in leading global product development teams at BTG (now Boston Scientific) and Medtronic. MS in Software Engineering from the University of Minnesota

Lev Koyrakh

President & CTO

About

One of the few global authorities in EM tracking with 20+ years of senior technical and leadership experience in medical devices, and 50+ patents and publication in motion tracking and AI for image-guided surgeries. PhD in Theoretical Physics with Post Doctorate Research in Neuroscience and Pharmacology from the University of Minnesota.

Sean Morgan

COO

About

Senior hardware engineer and product development manager with 15+ years experience at BTG (now Boston Scientific), Medtronic, and St. Jude Medical, and 13 patents in the field. MS in Electrical and Electronics Engineering from the University of Minnesota.