An experimental study on the safe placement of sacroiliac screws using a 3D printing navigation module

Background: In this experimental study, we evaluated the use of digital 3D navigation printing in minimizing complications arising from sacroiliac screw misplacement. Methods: A total of 13 adult pelvic specimens were studied using 3D navigation printing. Mimics software was used for preoperative planning and for obtaining sacrum median sagittal resection and long axis resection of the S1 pedicle center by 3D segmentation. The ideal screw path had its origin at the post-median part of the auricular surface of the sacroiliac joint, the midpoint at the mid-position of the lateral recess and outlet of the anterior sacral foramina; and the endpoint at the S1 sagittal resection. A sacroiliac screw fixed the pelvic specimens with the assistance of the navigation module. The distance between the start point (ilium surface) and endpoint (sacral median sagittal resection) of the screw path was measured after the preand postoperative 3D pelvis module was 3D-registered according to the standard precision range. The origin/endpoint qualified rates of the postoperative (n/26) and preoperative (26/26) screw paths were analyzed by the chi-square test. Results: No screw misplacement occurred in the screw paths of any of the 13 pelvic specimens. The mean distance between the preoperative and postoperative origin of the screw path was 1.54150.6806 mm, and the mean distance between the preoperative and postoperative endpoint was 2.2809 +/- 0.4855 mm. The qualified rate of origin was 23/26 when the precision grade was 2.4 mm (P>0.05, chi(2)=1.41), while the qualified rate of endpoint was 21/26 when the precision grade was 2.7 mm (P>0.05, chi(2)=3.54). Conclusions: In this experimental study, using a 3D printing navigation module helped attain an accurate and safe sacroiliac screw implantation.