Research & Clinical Evidence for ExcelsiusGPS®

Robotic-assisted navigated minimally invasive pedicle screw placement in the first 100 cases at a single institution

Huntsman et al. 2019. J Robot Surg Feb 28 [Epub ahead of print], 2019.

Pedicle screw accuracy in clinical utilization of minimally invasive navigated robot‑assisted spine surgery

J Robot Surg Jul 19 [Epub ahead of print], 2019

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Improving Screw Accuracy and Reducing Overall Procedural Time in a Cadaveric Setting with the Robotic Navigation Platform

In a cadaveric study evaluating pedicle screw placement accuracy, placement time, and radiation dose, 10 surgeons with 2-23 years of experience placed a total of 160 pedicle screws with ExcelsiusGPS® and conventional techniques across MIS and open approaches. The use of ExcelsiusGPS® demonstrated:

Improved screw placement accuracy

Increased screw length and diameter

Reduced radiation exposure

Reduced MIS procedural time

Vaccaro, A. R. et al. ExcelsiusGPS® Robotic Navigation Platform Improves Screw Accuracy and Reduces Radiation Exposure Compared to Conventional Fluoroscopic Techniques in a Simulated Surgical Model. White paper (GMWP51). Globus Medical, Inc. (April 2018).

Improving Screw Placement Accuracy

Graph for Breaches by Technique in a Cadaveric Lab

Grade 0
(0 to <2mm)

Grade 1
(2 to <4mm)

Grade 2
(4 to <6mm)

Grade 3
(≥6mm)

Reducing Radiation Exposure

Graph for average number for fluoroscopic images

Increasing MIS Efficiency

Overall Procedure Time

Screw Placement Time

ExcelsiusGPS® Robotic Navigation significantly reduced the duration of screw insertion in a cadaveric setting, averaging 3.6 minutes per screw compared to the conventional MIS average of 7.7 minutes per screw.