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Abstract talk
OP02.07

3D-navigation for SI screw fixation – How does it affect radiation exposure for patients and medical personnel?

Appointment

Date: 28/04/2024

Time: 11:18 – 11:26

Talk time: 6 Min.

Discussion time: 2 Min.

Location / Stream:

Room 5 (Room F5+F6)

Session

Oral abstract session 2

Topics

Skeletal trauma and sports medicine
Trauma and Emergency surgery | Miscellaneous

Authors

Yannik Kalbas (Zurich / CH), Yannis Hoch (Zurich / CH), Felix Karl-Ludwig Klingebiel (Zurich / CH), Octavia Klee (Zurich / CH), Davide Cester (Zurich / CH), Roman Pfeifer (Zurich / CH), Rebecca Hasler (Zurich / CH), Hans-Christoph Pape (Zurich / CH)

Abstract

Background:

3D-navigation for percutaneous sacroiliac (SI) screw fixation is becoming increasingly common and several studies report great advantages of this technology. However, there is still limited clinical evidence on the efficacy regarding radiation exposure for patient and personnel.

Methods:

This is a retrospective, single-center cohort study. All patients who underwent percutaneous sacroiliac screw fixation for an injury of the posterior pelvic ring from 2014 to 2021 were screened. Inclusion criteria were: conclusive radiation dosage reports, signed informed consent, a twelve month follow up and a complete data set. Patients were stratified in two groups (3D-navigation (Group 3D-N) vs. control (Group F)) based on the imaging modality used. Primary outcomes were radiation exposure for patient and personnel. Secondary outcomes were reoperations, complications, and intraoperative precision.

Results:

Of 392 patients screened, 174 patients (3D-N: n=50, F: n=124) could be included for final analysis. We noted a significant reduction of the dose corresponding to potential radiation exposure for medical personnel (-15.3 mGy, 95%CI: -2.1 to -28.5, p = 0.0232), but also a significant increase of the dose quantifying radiation exposure for patients (+77.0 mGy, 95%CI: +53.3 to +100.6, p < 0.0001), when using navigation. In addition, the rate of radiographic malplacement was significantly reduced (F: 11.3% vs. 3D-N: 0%, p = 0.0113) despite a substantial increase in transsacral screw placement (F: 19.4% vs. 3D-N: 76%).

Conclusion:

Our data clearly suggests that the use of 3D-navigation for percutaneous SI screw fixation decreases radiation exposure for medical personnel, while increasing radiation exposure for patients. Furthermore, intraoperative precision is improved, even in more challenging operations.