Computer Vision News 32 Tool was conducted using imaging from total knee replacement patients fromAssuta Medical Center in Tel-Aviv, a leading medical center in Israel. Unlike cadaver-based studies often used in the orthopedic technology space, the patients enrolled in this study had pathological anatomies typical of real-world clinical cases. The accuracy of the tool was proven by comparing the resulting 3D models to the ground truth patient anatomy given in a corresponding CT scan. The accuracy was measured in multiple areas that are used for actual surgical planning, including bony landmarks and anatomical axes, and was found to be equivalent to CT-based measurements at a sub-mm level across the board. “Today’s orthopedic patients demand precise and personalized care, incorporating technologies such as AR and surgical robotics. Using a 3D image-based preoperative model to plan the case is the best approach, enabling surgeons to be better prepared and saving precious time in the OR,” said Dr. Vadim Benkovich, Head of Orthopedic Department at University Medical Center Soroka and Founder & Medical Director of the Israeli Joint Health Center at Assuta Medical Center. “This is a win for both patients and providers – both reducing the chances of a complication or infection, and at the same time improving efficiency and Bony landmark regions. (A) Femur anterior cortex. (B) Femur posterior condyles. (C) Femur distal condyles. (D) Tibial tuberosity, medial and lateral plateaus. 2D-to-3D Knee Reconstruction Solution
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