Augmented Reality-Supported Rod Bending in Multilevel Spinal Fusion Using the ADVISE Software.
Antes S, Moringlane R, von Eckardstein KL.
World Neurosurg. 2023 Oct;178:96-100.
doi: 10.1016/j.wneu.2023.07.029. Epub 2023 Jul 16. PMID: 37454904.
Highlights
“Our experience with this new technology is promising. Especially for multilevel fusion, the support to the surgeon during rod bending is of great value
“However, other cases in our department show a much more difficult spatial placement of the screw
heads. In these cases, application of the ADVISE software can achieve an optimized fit between the screws and the rod and, thus, control and reduce the mechanical stress during final fixation”.
“Figure shows an example of a rod template created for a complex degenerative case. Manual freehand bending of such a rod would have been a time-consuming challenge”.
Abstract
Background
One of the most common reasons for poor patient outcomes and revision surgery in spinal fusion is hardware failure. Screw loosening or pullout occurs in up to one-quarter of all cases. It is known that even small screw-rod misalignments can cause significant mechanical overloads during rod fixation, which can result in hardware failure. To address this crucial surgical step, a novel augmented reality-assisted software was developed to generate custom rod templates that are precisely adapted to the individual patient.
Methods
The novel software, which runs on a tablet, is used in spinal fusion surgery and is based on the use of a specific pedicle screw system, in which the polyaxial screw heads are connected to detachable guides. These guides can be recognized by the tablet camera and a light detection and ranging scanner. This image information is processed to determine the spatial positions of the screw heads and to calculate an ideally fitting rod template.
Results
The calculated rod template is displayed in a 1-to-1 scale on the tablet screen. This template is used to cut and bend the rods of the pedicle screw system. Finally, the custom bent rod can be inserted into the screw heads without tension.
Conclusion
The augmented reality-assisted software is intended to give surgeons access to patient-specific intraoperative real-time data, helping them in bending rods that are more precisely adapted to the individual patient compared with the freehand technique.