PT - JOURNAL ARTICLE AU - Bourret, Stéphane AU - Cloche, Thibault AU - Boue, Lisa AU - Thompson, Wendy AU - Dubois, Thibaut AU - Le Huec, Jean-Charles TI - Computed Tomography Intraoperative Navigation in Spinal Surgery: Assessment of Patient Radiation Exposure in Current Practices AID - 10.14444/8319 DP - 2022 Oct 01 TA - International Journal of Spine Surgery PG - 909--915 VI - 16 IP - 5 4099 - https://www.ijssurgery.com/content/16/5/909.short 4100 - https://www.ijssurgery.com/content/16/5/909.full SO - Int J Spine Surg2022 Oct 01; 16 AB - Background Patient radiation exposure associated with the use of computed tomography (CT) navigation during spinal surgeries was widely compared with other intraoperative imaging techniques. The aim of this study is to explore the use of navigation with regard to current spinal surgery practices and the technical limitations of such imaging systems.Methods Dosimetric data from 101 patients who underwent intraoperative, CT-navigated spine surgery were retrospectively collected. The study population was divided into 3 groups according to the primary surgical indication. The number of CT image acquisitions per patient, the field length, and the time of exposure per acquisition during a single surgery were compared as well as the radiation dose emitted to patients.Results Dose-length products (DLP) per acquisition were 678.52, 656.8, and 649.36 mGy·cm with no significant difference for spinal deformity (SD), degenerative disease (DD), and vertebral fracture (VF) procedures, respectively. Analyzing the number of CT image acquisitions per patient revealed that repeated intraoperative scans were often performed for patients who were suffering from an SD due to technical limitations of the navigation. As a consequence, the cumulative dose was higher in the SD group (DLP total = 1175 mGy·cm) than in the DD (DLP total = 762.74 mGy·cm) and VF (DLP total = 649.36 mGy·cm) groups.Conclusions CT navigation is an efficient intraoperative imaging technique that reduces the rate of surgical complications, but its technical limitations lead to an increased risk of patient radiation exposure, especially for complex surgeries where multiple scanning acquisitions are needed.Clinical Relevance To avoid patient’s overexposure, spine surgeons should minimize the number of intraoperative acquisitions while considering the complexity of the surgery and the limitations of the guidance system. The use of dual guidance systems has also to be considered according to the benefit-risk balance between patient’s outcomes and radiation dose exposure.Level of Evidence 4.