FDA Radiology AI Devices

The ULTRA 1040 is a portable X-ray device designed for use by trained physicians or technicians to capture X-ray images of patients' extremities. It allows for flexible diagnostic imaging outside traditional settings, helping clinicians assess bone and joint conditions conveniently. It supports use with an X-ray detector and image processing software for image acquisition and processing.

The Medyssey Navigation System is a reusable surgical instrument set designed to work with the Medtronic StealthStation navigation system. It helps surgeons precisely locate anatomical structures during spinal surgeries by integrating with imaging data such as CT or MR-based models, fluoroscopy images, or digitized landmarks. This improves accuracy in placing spinal fixation implants and supports open or minimally invasive procedures.

The ARVIS Surgical Navigation System assists surgeons during orthopedic surgeries by providing real-time, augmented reality-based visualization and precise intraoperative measurements to aid in positioning and aligning implants. It enhances surgical accuracy in procedures such as knee and hip arthroplasties, improving outcomes and helping surgeons make informed decisions during operations.

brAIn™ Shoulder Positioning is a cloud-based software tool that assists shoulder surgeons in planning total shoulder replacement surgeries. It automatically segments CT images of the shoulder using machine learning, allowing clinicians to visualize shoulder anatomy, position implants interactively in 3D, and receive detailed pre- and post-operative measurements and reports, facilitating more accurate and efficient surgical planning.

Vent Creativity Knee v1.0 (Hermes) is a software tool that processes CT scan images of the knee to segment bones and generate surgical planning data. It uses AI models to accurately identify bone structures and landmarks, aiding clinicians in diagnosis and preoperative planning. The software also supports the creation of physical replicas based on imaging data, facilitating orthopedic applications.

PeekMed web is an AI-powered software system that helps healthcare professionals perform pre-operative planning for various surgical procedures using patients' imaging studies. It operates in 2D and 3D environments with support for musculoskeletal regions and incorporates automated AI models for bone segmentation and landmarking, improving efficiency and accuracy in surgical planning.

Radlink GPS Pro Imaging is an advanced image processing software that assists orthopedic surgeons in hip procedures by measuring the acetabulum’s position relative to bone structures seen in radiological images. The software overlays digital annotations on images and offers measurement tools to help surgeons plan and execute hip, knee, and trauma component positioning more precisely, improving procedural accuracy and outcomes.

The xvision Spine system by Augmedics Ltd. is an advanced surgical navigation system that helps surgeons precisely locate anatomical structures in the spine during open or percutaneous procedures. By integrating near-eye augmented reality displays with fluoroscopic and CT images, it enables real-time visualization of tracked surgical instruments overlaid on patient anatomy, improving accuracy for procedures such as pedicle screw and iliosacral screw placement. This technology enhances surgical precision and safety, aiding clinicians in complex spine surgeries.

The SPINEART Navigation Instrument System is a surgical tool used in thoracolumbar spinal surgery to help surgeons accurately locate anatomical structures for the placement of spinal screws. It integrates with the eCential Op.n PERLA® TL Navigation System, which uses intraoperative 3D imaging, to improve surgical precision in both open and minimally invasive procedures.

The Mako Total Hip Application 5.0 is a surgical assistive system that uses CT image data to create a 3D model of a patient's hip anatomy, helping surgeons plan and perform total hip replacement surgeries with high precision. It incorporates a robotic arm and software to guide implant placement within software-defined boundaries, improving surgical accuracy and patient outcomes.