OrthoGrid Systems, Inc. announces the launch of the new OrthoGrid Trauma software application for open reduction and internal fixation (ORIF) procedures.
OrthoGrid’s Universal Trauma app aims to provide surgeons and support staff performing ORIF procedures with an intraoperative navigation system. OrthoGrid Trauma supports both the open reduction phase of trauma procedures, which accounts for the majority of operative time and radiation exposure, and the internal fixation phase of trauma procedures, which includes temporary fixation (with the use of k wires, guide pins, screws), to hold the reduction and final implantation.
With the release of the OrthoGrid Trauma app, surgeons now benefit from a unique suite of tools designed to help them achieve their surgical goals. Fluoroscopic image distortion correction, image overlay (contralateral or other side), angles, and calibrated measurement tools are available to aid the surgeon in reduction assessments. When it comes to performing temporary and final fixation, surgeons can now rely on our unique and revolutionary intelligence technology that powers the Virtual Guide Wire tool for automatic detection, tracking and projection as well as gauge 2D virtual depth. All of these tools, along with image annotation features, help the surgeon perform all traumatic deformity and fracture correction applications: ankle, hip, distal femur, proximal tibia, wrist, shoulder, elbow, and long bone .
“Integrating OrthoGrid Trauma into our surgical practices at UMC-UNLV has been different from traditional navigation systems: it requires no pins, it corrects the distortion of all our fluoroscopic images, and all available tools are used on every case we treat, from the pelvis to the elbow to the ankle. The system is still in our operating room. The AI guidance behind the virtual guidewire is revolutionary. The big difference with this new plate -technological form is that it will only improve and is already used in all my cases” says Erik KubiakMD, Professor and Vice Chairman of the Department of Orthopedic Surgery at the UNLV School of Medicine.
“Apart from the arrival of fluoroscopy in the mid-1960s, there was no navigation system that could successfully guide trauma surgeons during surgery. Until about a year ago, there was There was no technology solution available to meet the navigational demands that trauma surgical demands. Our IT team works diligently to innovate on our OrthoGrid technology platform. We couldn’t be happier to continue refining its performance, use cases and bring never-before-seen navigation to the field of orthopedic trauma surgery!” says Edouard Saget, co-founder and co-CEO of OrthoGrid Systems.
For more information about OrthoGrid Trauma or to request a software demo, visit www.OrthoGrid.com.
About OrthoGrid Trauma
OrthoGrid Trauma is image processing software indicated for use in trauma procedures. It helps to assess the alignment of various autonomies and implants and the virtual guidance of some critical tools universally used in orthopedic trauma surgery such as guide wires and drills. By correcting for distortion in fluoroscopic images, surgeons can trust measurement tools to confirm their clinical goals. Clinical judgment and experience are required to properly use the device. The device is not intended for the interpretation of primary images. The software is not intended for use on mobile phones. Learn more at OrthoGrid.com.
About OrthoGrid Systems, Inc.
OrthoGrid, founded in 2012, provides intraoperative alignment navigation through procedure-specific musculoskeletal applications for THA, hip preservation, and trauma. Its AI-enabled surgical guidance technology imports images from C-frame image intensifiers to reveal and correct fluoroscopic distortion and helps surgeons achieve desirable and reproducible surgical results. OrthoGrid is based on Salt Lake City, UTwith research facilities located in Strasbourg, France. Its technology is distributed in North America and Asia. Learn more at OrthoGrid.com.
SOURCEOrthoGrid Systems, Inc.
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