OrthoGrid AI

OrthoGrid HipAI stall at Anterior Hip Foundation 2024 Annual Meeting.
OrthoGrid HipAI stall at Anterior Hip Foundation’s 2024 Annual Meeting |Photo shared by OrthoGrid on LinkedIn ↗.

Precision in Orthopedic Surgery using AI

OrthoGrid Systems, Inc. founded in 2005, and based in the United States is a health tech company in the specialty of Orthopaedics.

The OrthoGrid Digital Platform provides real-time surgical assistance during orthopedic surgeries. This ecosystem can be easily integrated with existing hospital equipment, making it compatible with all implant systems. With a focus on addressing real-world limitations faced by surgeons in orthopedic surgeries, OrthoGrid optimizes surgical workflows, reduces operating time, and enhances surgical outcomes.

The platform offers two applications including Hip AI and the recently introduced Trauma AI:

OrthoGrid Hip AI®

OrthoGrid’s Hip AI is an image-processing software designed to assist surgeons during Total Hip Replacement (THR) procedures by precisely positioning components relative to bone structures. Hip AI® has further improved efficiency and accuracy in THR surgeries by using artificial intelligence features.

Key features of this application include automated, real-time point selection and position tracking. The platform also corrects fluoroscopic image distortion, a critical capability for accurate image interpretation.

OrthoGrid Trauma®

This new application by OrthoGrid focuses on intraoperative navigation for open reduction and internal fixation (ORIF) procedures. It also features AI-driven insights to enhance trauma surgery outcomes.

It offers features such as virtual guide wire projection, screw length measurement, and optimal implant positioning. It can also serve as an interactive training tool for orthopedic trainees.

OrthoGrid Hip Preservation

OrthoGrid Systems has recently unveiled its Hip Preservation software for hip preservation surgeries. The non-invasive application can be integrated into the surgical workflow and is compatible with traditional and digital C-arms, providing surgeons with real-time, automated intraoperative templating using fluoroscopic images. It corrects fluoroscopic distortion facilitating precise alignment, enhancing the accuracy of procedures such as arthroscopic femoral osteochondroplasty, acetabuloplasty, and periacetabular osteotomy.

Unlike previous technology cycles, which integrated robotics as extensions of optical tracking systems, OrthoGrid’s focus is on AI. Data-driven AI actively responds to and enhances surgeons’ decision-making throughout every phase of surgery.

You can request a demo for their applications via this link.