Vedant Borad1, Martin S Lacey2, David D Hamlar3, Harley S Dresner3, Girijesh K Yadava4, Warren Schubert5. 1. Division of Plastic and Reconstructive Surgery, University of Minnesota Medical Center, Minneapolis, MN. Electronic address: borad002@umn.edu. 2. Adjunct Assistant Professor of Surgery, University of Minnesota, Minneapolis; Department of Plastic and Hand Surgery, Regions Hospital, St Paul, MN. 3. Assistant Professor, Department of Otolaryngology/Head and Neck Surgery, University of Minnesota Medical Center, Minneapolis, MN. 4. Diagnostic Medical Physicist, Department of Radiology, Regions Hospital, St Paul, MN. 5. Professor of Surgery, University of Minnesota, Minneapolis; Chair, Department of Plastic and Hand Surgery, Regions Hospital, St Paul, MN.
Abstract
PURPOSE: Intraoperative imaging is gaining widespread use in the management of facial fracture repair. The aim of this study was to determine whether intraoperative imaging changes the management of orbital fracture repair. MATERIALS AND METHODS: A retrospective case series was performed of all cases of orbital fracture repair from 2008 to 2015 in which the intraoperative O-arm was used at Regions Hospital (St Paul, MN), a level I trauma center. The primary outcome variable was a change in management, ranging from orbital plate repositioning to proceeding with orbital floor exploration. RESULTS: The study sample was composed of 101 patients with a mean age of 40 ± 15 years. Approximately 75% (76 of 101) of patients were male and 25% (25 of 101) were female. All cases were secondary to assault, motor vehicle accident, fall, or gunshot wounds. Use of the O-arm resulted in a change in management in 44% (44 of 101) of cases. In 48% (21 of 44) of these cases in which intraoperative imaging resulted in a change in management, the orbital plate was repositioned to optimize repair. In 16% (7 of 44) of these cases, the orbital plate was exchanged for a different size or type of plate. In 7% (3 of 44) of these cases, the orbital plate was reshaped by bending to improve contour for the repair. In another 7% (3 of 44) of these cases, the orbital plate was reshaped by trimming the plate to optimize the length or width of the plate for repair. In 7% of these cases, the orbital floor required exploration based on intraoperative imaging. In 5% of these cases, the orbital floor was found to be adequately reduced after zygoma reduction based on intraoperative imaging and did not require exploration. CONCLUSIONS: Use of intraoperative imaging allows the surgeon to make real-time changes in operative management ranging from orbital plate repositioning to deciding whether to proceed with orbital floor exploration. This not only allows for immediate optimization of repair but also could decrease the need for revision procedures, thus decreasing patient morbidity and improving patient outcomes.
PURPOSE: Intraoperative imaging is gaining widespread use in the management of facial fracture repair. The aim of this study was to determine whether intraoperative imaging changes the management of orbital fracture repair. MATERIALS AND METHODS: A retrospective case series was performed of all cases of orbital fracture repair from 2008 to 2015 in which the intraoperative O-arm was used at Regions Hospital (St Paul, MN), a level I trauma center. The primary outcome variable was a change in management, ranging from orbital plate repositioning to proceeding with orbital floor exploration. RESULTS: The study sample was composed of 101 patients with a mean age of 40 ± 15 years. Approximately 75% (76 of 101) of patients were male and 25% (25 of 101) were female. All cases were secondary to assault, motor vehicle accident, fall, or gunshot wounds. Use of the O-arm resulted in a change in management in 44% (44 of 101) of cases. In 48% (21 of 44) of these cases in which intraoperative imaging resulted in a change in management, the orbital plate was repositioned to optimize repair. In 16% (7 of 44) of these cases, the orbital plate was exchanged for a different size or type of plate. In 7% (3 of 44) of these cases, the orbital plate was reshaped by bending to improve contour for the repair. In another 7% (3 of 44) of these cases, the orbital plate was reshaped by trimming the plate to optimize the length or width of the plate for repair. In 7% of these cases, the orbital floor required exploration based on intraoperative imaging. In 5% of these cases, the orbital floor was found to be adequately reduced after zygoma reduction based on intraoperative imaging and did not require exploration. CONCLUSIONS: Use of intraoperative imaging allows the surgeon to make real-time changes in operative management ranging from orbital plate repositioning to deciding whether to proceed with orbital floor exploration. This not only allows for immediate optimization of repair but also could decrease the need for revision procedures, thus decreasing patient morbidity and improving patient outcomes.
Authors: David Carpenter; Ronnie Shammas; Adam Honeybrook; C Scott Brown; Nikita Chapurin; Charles R Woodard Journal: Craniomaxillofac Trauma Reconstr Date: 2018-02-05
Authors: Krista M Nicklaus; Haoqi Wang; Mary Catherine Bordes; Alex Zaharan; Urmila Sampathkumar; Audrey L Cheong; Gregory P Reece; Summer E Hanson; Fatima A Merchant; Mia K Markey Journal: Plast Reconstr Surg Glob Open Date: 2021-10-07