FDA Radiology AI Devices

Op.n Navigation by Ecential Robotics is a surgical navigation system designed to assist surgeons during spinal surgery. It uses intra-operative 3D imaging to help accurately position surgical instruments and implants like pedicle screws in the thoracolumbar spine. This technology improves surgical precision and patient outcomes by providing real-time navigation based on detailed imaging.

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.

The Paradigm System is a surgical navigation device that helps surgeons accurately place spinal surgical instruments during open procedures. It integrates real-time high-resolution camera images of the surgical site with preoperative CT imagery to create a 3D model of the spine, enabling precise instrument placement and improving surgical accuracy and safety from thoracic to sacrum vertebrae.

The Primus Spinal Fixation System is a spinal fixation device designed to provide stabilization and immobilization for the thoracic, lumbar, and sacral spine regions. It includes screws, rods, and connectors that can be precisely placed with the aid of navigation instruments compatible with the Medtronic StealthStation System, which uses medical imaging data like CT and MRI scans to assist surgeons in accurate screw placement during spinal surgeries.

The NuVasive Pulse System is a medical device that helps surgeons precisely locate anatomical structures during spinal surgeries using intraoperative 3D imaging and computer-assisted navigation. It tracks surgical instruments in real-time and overlays their virtual positions on patient images, enhancing surgical accuracy and safety in procedures like pedicle screw placement and iliosacral screw placement.

The Remex Spine Surgery Navigation Instrument is designed to assist surgeons in precisely positioning surgical tools and spinal implants during spinal surgeries. It works by integrating fluoroscopic and CT images to guide procedures like pedicle screw placement, enhancing surgical accuracy and patient safety.

CORIOGRAPH Pre-Op Planning and Modeling Services is a software tool used for preoperative planning of orthopedic surgeries such as unicondylar knee replacement, total knee arthroplasty, and primary total hip arthroplasty. It generates patient-specific bone models and surgical plans based on medical imaging scans, helping surgeons plan and optimize implant placement before surgery.

The Mako Shoulder Application (1.0) is part of the Mako System designed to assist surgeons in reverse shoulder arthroplasty procedures by providing AI-driven, software-defined spatial boundaries using patient CT imaging. It aids in pre-surgical planning, implant placement, and intraoperative navigation, improving surgical accuracy and outcomes.

The Caduceus S is an augmented reality-based navigation system designed to assist surgeons in accurately placing pedicle screws during percutaneous spine surgery. It leverages intraoperative CT or 2D/3D C-arm imaging and optical tracking, projecting navigation data directly into a headset worn by the surgeon to improve precision and visualization during procedures involving the thoracic and lumbosacral spine.

The Materialise Shoulder System is a patient-specific medical device designed to assist surgeons in preoperative planning and intraoperative positioning of shoulder replacement components. It includes the SurgiCase Shoulder Planner software, which utilizes CT imaging to generate detailed 3D pre-surgical plans. Based on these plans, patient-specific guides and models are created to help precisely position implants during surgery, improving surgical accuracy and outcomes for total and reverse shoulder arthroplasty.