STUDY DESIGN: A retrospective cohort study of patients who underwent S2-alar-iliac (S2AI) screw insertion using robotic guidance in long constructs for spinal deformity correction extending to the sacrum performed at a single institution. OBJECTIVE: To assess and evaluate the feasibility and accuracy of robotic guidance for S2AI screw insertion. SUMMARY OF BACKGROUND DATA: Pelvic fixation has become a common adjunct to long fusions extending to the sacrum. The S2AI method possesses advantages over the traditional Galveston technique. S2AI involves finding a pathway from S2 across the sacral ala and the sacroiliac joint into the ilium. Robotic guidance is a new modality for implant insertion that has shown high accuracy. METHODS: We identified all patients who underwent robotic-guided S2AI screw insertion in long constructs extending to the sacrum. Cortical breaches and protrusions, assessed on postoperative imaging, and complications were recorded. RESULTS: Fourteen patients (31 screws) underwent S2AI screw insertion using robotic guidance and free-hand probing. Average screw length was 80 mm (range, 65-90 mm). All trajectories were confirmed as accurate (no proximal breaches). Screw insertion, performed manually, resulted in 10 protrusions <2 mm, 1 by 2-4 mm, and 6 by ≥4 mm. No screw was intrapelvic or risked any visceral or neurovascular structures and none required removal or revision. Longer screws (>80 mm) were associated with distal protrusion. CONCLUSIONS: Robotic-guided S2AI screws are accurate and a feasible option. Although no complications from protrusion were identified, larger studies and instrumentation modifications are required to assess the clinical acceptance of robotic guidance in sacropelvic fixation.
STUDY DESIGN: A retrospective cohort study of patients who underwent S2-alar-iliac (S2AI) screw insertion using robotic guidance in long constructs for spinal deformity correction extending to the sacrum performed at a single institution. OBJECTIVE: To assess and evaluate the feasibility and accuracy of robotic guidance for S2AI screw insertion. SUMMARY OF BACKGROUND DATA: Pelvic fixation has become a common adjunct to long fusions extending to the sacrum. The S2AI method possesses advantages over the traditional Galveston technique. S2AI involves finding a pathway from S2 across the sacral ala and the sacroiliac joint into the ilium. Robotic guidance is a new modality for implant insertion that has shown high accuracy. METHODS: We identified all patients who underwent robotic-guided S2AI screw insertion in long constructs extending to the sacrum. Cortical breaches and protrusions, assessed on postoperative imaging, and complications were recorded. RESULTS: Fourteen patients (31 screws) underwent S2AI screw insertion using robotic guidance and free-hand probing. Average screw length was 80 mm (range, 65-90 mm). All trajectories were confirmed as accurate (no proximal breaches). Screw insertion, performed manually, resulted in 10 protrusions <2 mm, 1 by 2-4 mm, and 6 by ≥4 mm. No screw was intrapelvic or risked any visceral or neurovascular structures and none required removal or revision. Longer screws (>80 mm) were associated with distal protrusion. CONCLUSIONS: Robotic-guided S2AI screws are accurate and a feasible option. Although no complications from protrusion were identified, larger studies and instrumentation modifications are required to assess the clinical acceptance of robotic guidance in sacropelvic fixation.
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