![]() ![]() Similarly, postoperative alignment verification via x-rays may be avoided, and overall radiation exposure to young patients is expected to reduce drastically. With the nView 3D imaging data, planning can be achieved intraoperatively, reducing the need for preoperative planning. “Being able to merge OrthoGrid’s Hip Preservation application with nView’s real-time, 3D, intraoperative imaging data would bring new and valuable information during critical surgical steps, such as the acetabular osteotomy and positioning.”īoth nView and OrthoGrid technologies are AI-driven, open platforms designed to work within the surgical theater to improve accuracy, workflow efficiency, and patient outcomes. Chris Peters, Professor of Orthopaedics at the University of Utah and a renowned hip preservation specialist. Currently they are solved based on 2D imaging data,” says Dr. “Many problems in orthopedic surgery are 3D problems. OrthoGrid offers the first PAO-specific, imaging-based, surgical navigation application on the market. PAO surgery aims to preserve the hip joint by repositioning the native acetabulum, a complex pediatric joint preservation surgery that aims to reduce or eliminate the risk of a future total hip replacement. SALT LAKE CITY, UT - ApAnnounced today, nView medical, a leading innovator in 3D medical imaging, and OrthoGrid Systems, Inc., a global MedTech leader offering intraoperative alignment technologies, are partnering to provide integrated solutions that increase surgical accuracy OR efficiency and improve patient outcomesĪs the first step for implementation, the companies are executing a proof of concept for a periacetabular osteotomy (PAO) procedure, and, after completion, will expand to additional musculoskeletal procedures. NView medical to integrate OrthoGrid’s alignment and guidance technology into its real-time 3D imaging to increase surgical accuracy and efficiency in the OR
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