FDA Radiology AI Devices

NextAR Spine is an augmented reality surgical navigation platform designed to help surgeons precisely locate anatomical structures during spine surgery. It uses CT imaging and intraoperative scans to guide the placement of screws and other instruments in the thoracic and lumbosacral spine, improving surgical accuracy and patient outcomes.

CORIOGRAPH Pre-Op Planning and Modeling Services is software designed to assist surgeons with preoperative planning for orthopedic surgeries such as knee, hip, and shoulder replacements. It uses patient imaging scans to create personalized surgical plans and allows surgeons to simulate and modify implant positioning before surgery, helping improve precision and surgical outcomes.

The TMINI Miniature Robotic System is a robotic surgical tool designed to assist orthopedic surgeons in accurately placing knee implant components during total knee replacement surgery. It uses preoperative CT scans to generate 3D models for surgical planning and utilizes robotic guidance during surgery to ensure precise bone preparation and implant placement, improving surgical accuracy and patient outcomes.

The Paradigm System by Proprio, Inc. is a surgical navigation system that helps surgeons precisely position spinal instruments during posterior spine surgeries. It combines preoperative CT-based 3D models of the spine with real-time camera imaging of the surgical site to enable accurate instrument placement, improving surgical accuracy and patient outcomes.

The Anatase Spine Surgery Navigation System and Remex Spine Surgery Navigation System II are surgical navigation tools that use fluoroscopic 2D and CT 3D imaging to precisely guide the placement of surgical instruments and implants during spine surgery. By registering images intraoperatively, they help surgeons perform accurate and safe spinal implant procedures, such as lumbar pedicle screw placement, improving surgical outcomes.

The Altus Spine Navigation System is a set of reusable surgical instruments designed to assist surgeons in accurately placing pedicle screws during spinal surgery. It works together with a navigation system that uses medical images like CT or MRI scans to help locate anatomical landmarks, improving precision in both open and minimally invasive procedures. This system helps enhance surgical accuracy and patient safety by guiding screw placement in the spine.

The Dynamis Robotic Surgical System is a robotic platform designed to assist surgeons in precisely locating anatomical structures and guiding surgical instruments during spine surgeries. It uses real-time tracking and intraoperative CT images to navigate and position surgical tools accurately, especially for placing spinal pedicle screws in the thoracic, lumbar, and sacral regions. This helps improve surgical accuracy and patient safety.

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.

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.