![]() ![]() The range of imaging, navigation, and robotics technologies available for spinal fusion surgery has significantly increased. Keywords: 3D fluoroscopy imaging navigation robotics spinal fusion (VII) New robotic arm platforms require more clinical and health economic data to justify increased costs. (VI) Radiation safety awareness that new 3D-fluoroscopy units can deliver radiation comparable to that of CT is needed. ![]() (V) Intraoperative CT is more useful for imaging long constructs, high BMI, or cervicothoracic anatomy. (IV) 3D fluoroscopy provides the greatest benefit when speed, operative efficiency, and mobility are required. (III) Navigation systems that offer a universal registration mechanism should be standard. (II) Imaging systems that have maximum compatibility with navigation and robotics platforms are optimal. (I) Open-platform navigation and robotics systems that provide surgeons with access to all software and hardware features regardless of implant choice are preferred. Key recommendations include the following. Guidelines for optimal use and combinations are provided based on surgical approach, operative site, patient anatomy, optimal image quality, and workflow efficiency. We summarize currently available navigation, robotics, and imaging technologies for spinal surgery, highlighting key characteristics, utility, differences, price, and compatibility with other technologies and spinal implants. However, surgeons and hospital administrators may lack sufficient information to compare options and make purchasing decisions. With a robust product pipeline in place, we are positioned to provide a well-rounded, end-to-end platform for our surgeon customers, with the ability to incorporate robotics and intelligent handheld instruments in the future.Abstract: The range of assistive technology options available for spinal fusion surgery has significantly increased. "The System is designed for future compatibility with a fully integrated ecosystem, driving more value for our customers. "The versatility of the Q Guidance System will help to streamline our technologies across multiple specialties such as cranial, spine, ENT and orthopaedics," said Robbie Robinson, President of the Spine division. When used with Airo TruCT mobile CT scanner, this ecosystem delivers automatic image registration and pairs high performance tracking capabilities with cutting edge intraoperative image quality and scan volume. Q Guidance features completely redesigned software applications, semi-automatic and automatic segmentation features, gesture recognition, and broad compatibility with various types of image sets. It features a high-performance navigation camera built on the company’s 20 years of experience developing guidance technologies. Stryker’s Q Guidance System aims to deliver surgical spine planning and navigation capability through multiple tracking options, sophisticated software algorithms and smart instrumentation. The Spine Guidance Software is the first spine navigation software to receive clearance from the FDA for use with pediatric patients aged 13 and older. The System, when used with the Spine Guidance Software, is an advanced planning and intraoperative guidance system designed to enable open or percutaneous computer-assisted surgery. KALAMAZOO, Mich., May 31, 2022-( BUSINESS WIRE)-Stryker (NYSE:SYK) today announced that its Q Guidance System received 510(k) clearance from the U.S. Innovative planning and intraoperative platform designed to be a procedural ecosystem for surgeons and their patients during image-guided surgery
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