Accuracy of S2 Alar-Iliac Screw Placement Under Robotic Guidance

Joseph L Laratta; Jamal N Shillingford; Joseph M Lombardi; Rami G Alrabaa; Barlas Benkli; Charla Fischer; Lawrence G Lenke; Ronald A Lehman

doi:10.1016/j.jspd.2017.08.009

Accuracy of S2 Alar-Iliac Screw Placement Under Robotic Guidance

Spine Deform. 2018 Mar-Apr;6(2):130-136. doi: 10.1016/j.jspd.2017.08.009. Epub 2017 Oct 16.

Authors

Joseph L Laratta¹, Jamal N Shillingford², Joseph M Lombardi², Rami G Alrabaa², Barlas Benkli², Charla Fischer³, Lawrence G Lenke², Ronald A Lehman²

Affiliations

¹ Department of Orthopaedic Surgery, Columbia University Medical Center, The Spine Hospital at New York Presbyterian, New York, NY, USA. Electronic address: larattaj@gmail.com.
² Department of Orthopaedic Surgery, Columbia University Medical Center, The Spine Hospital at New York Presbyterian, New York, NY, USA.
³ Department of Orthopaedic Surgery, The Hospital for Joint Diseases at New York University, New York, NY, USA.

PMID: 29413734
DOI: 10.1016/j.jspd.2017.08.009

Abstract

Study design: Case series.

Objectives: To determine the safety and feasibility of S2 alar-iliac (S2AI) screw placement under robotic guidance.

Summary of background data: Similar to standard iliac fixation, S2AI screws aid in achieving fixation across the sacropelvic junction and decreasing S1 screw strain. Fortunately, the S2AI technique minimizes prominent instrumentation and the need for offset connectors to the fusion construct. Herein, we present an analysis of the largest series of robotic-guided S2AI screws in the literature without any significant author conflicts of interest with the robotics industry.

Methods: Twenty-three consecutive patients who underwent spinopelvic fixation with 46 S2AI screws under robotic guidance were analyzed from 2015 to 2016. Screws were placed by two senior spine surgeons, along with various fellow or resident surgical assistants, using a proprietary robotic guidance system (Renaissance; Mazor Robotics Ltd., Caesara, Israel). Screw position and accuracy was assessed on intraoperative CT O-arm scans and analyzed using three-dimensional interactive viewing and manipulation of the images.

Results: The average caudal angle in the sagittal plane was 31.0° ± 10.0°. The average horizontal angle in the axial plane using the posterior superior iliac spine as a reference was 42.8° ± 6.6°. The average S1 screw to S2AI screw angle was 11.3° ± 9.9°. Two violations of the iliac cortex were noted, with an average breach distance of 7.9 ± 4.8 mm. One breach was posterior (2.2%) and one was anterior (2.2%). The overall robotic S2AI screw accuracy rate was 95.7%. There were no intraoperative neurologic, vascular, or visceral complications related to the placement of the S2AI screws.

Conclusions: Spinopelvic fixation achieved using a bone-mounted miniature robotic-guided S2AI screw insertion technique is safe and reliable. Despite two breaches, no complications related to the placement of the S2AI screws occurred in this series.

Level of evidence: Level IV, therapeutic.

Keywords: Mazor; Robot; S2AI; Spinal deformity; Spinopelvic.

MeSH terms

Aged
Bone Screws / adverse effects*
Bone Screws / standards
Feasibility Studies
Female
Humans
Ilium / surgery*
Imaging, Three-Dimensional / methods
Intraoperative Care
Male
Middle Aged
Outcome Assessment, Health Care
Retrospective Studies
Robotics / methods*
Sacroiliac Joint / surgery*
Sacrum / surgery*
Safety
Spinal Fusion / instrumentation*
Surgery, Computer-Assisted / methods
Surgical Fixation Devices / statistics & numerical data