Issue link: https://beckershealthcare.uberflip.com/i/1074723
29 20 spine imaging systems to know A rcadis Orbic 3D (Siemens Healthineers). The Arcadis Orbic 3D is a high-end C-arm with an isocentric design and 190 degree orbital movement from Siemens Health- ineers. The system is designed for intra- operative orthopedic, trauma and spine surgery use, allowing physicians precise imaging and visualization. The system can also be paired with the NaviLink 3D and aims to integrate easily with current clinical workflows. Brainlab Fluoro 3D C-arm Registra- tion (Brainlab). The Brainlab Fluoro 3D Registration intraoperatively inte- grates 3D C-arms for spine and trauma procedures. It is designed for real-time navigation of datasets and can be used in both minimally invasive and complex procedures. The system has a dedicated 3D navigation application for spine and trauma. It is compatible with all common 3D C-arms. EOS (EOS Imaging). The EOS system provides low-dose, full-body stereo-ra- diographic images of patients in a func- tional position. The bi-planar device can produce two simultaneous frontal and lateral images of the whole body or a single segment. It also includes a mi- cro-dose option for pediatric patient fol- low-up exams. The company's spineEOS 3D surgical planning software gives sur- geons the opportunity to plan and exe- cute procedures for degenerative and de- formity conditions. ExcelsiousGPS (Globus Medical). The ExcelsiusGPS Robotic Navigation plat- form combines a rigid robotic arm and navigation to develop precise trajectory alignment during spinal procedures. De- signed to improve pedicle screw place- ment and accuracy, the system can be used during posterior cervical, posterior thoracic, sacroiliac, posterior lumbar and lateral lumbar procedures. With the sys- tem, surgeons can verify operative plans and receive real-time, intraoperative feedback. Horizon DXA (Hologic). Hologic's Horizon DXA system uses the same high-delimitation technology that is in modern CT devices to capture images for more patients, including obese patients. The system has low-noise detectors and an X-ray generator to increase patient throughput and image quality. Clini- cians can use the technology for an in- stant vertebral assessment scan that can assess fracture risks and identify spinal fractures with low-dose, single-energy images. G-Arm GXi 2 (Whale Imaging). The G-Arm GXi 2 is a second-generation technology with large wheels for extra maneuverability as well as dual laser aiming. The system integrates Whale Im- aging's X-Beam biplanar technology and is designed for increased efficiency; sur- geons don't have to switch between the alpine and lateral views. The G-Arm GXi 2 is associated with fewer corrective ex- posures, reduced procedure time and less radiation exposure. G-scan Brio (Esaote). The G-scan Brio expands on the first-generation G-scan systems as a weight-bearing MRI system with new ergonomics and acquisition techniques. Designed for musculoskele- tal patients, the G-scan Brio comes with a comprehensive network as well as ar- chiving and documentation features that can act as standalone systems or in a col- laborative environment. KICK System with FlouroExpress Soft- ware Module (DePuy Synthes). DePuy Synthes' KICK System with FlouroEx- press Software Module is designed to offer surgeons an optimized procedural workflow. The system features a track- ing system, a computer unit to run soft- ware and a display unit for navigation. FluroExpress aims to assist in minimal- ly invasive surgery through its pre- and intraoperative image-guided localization system. Mazor X (Medtronic). Owned by Medtronic, the Mazor X is designed for the precise positioning of surgical instru- ments and implants during spine surgery. With 3D analytics and virtual tools, the system allows surgeons to create a surgi- cal blueprint preoperatively. The robotic guidance system analyzes and pairs im- ages from preoperative CT scans to opti- mize surgical precision. NAV3i (Stryker). Stryker's NAV3i sys- Sponsored by: