Faheem A. Sandhu, Jason E. McGowan, Daniel R. Felbaum, Hasan R. Syed, Kyle B. Mueller


November 2017, Volume 26, Issue 11, pp 2941 - 2950 Ideas and Technical Innovations Read Full Article 10.1007/s00586-017-5242-0

First Online: 01 August 2017

Study design

A retrospective analysis of two consecutive patients who underwent a novel surgical technique.

Objective

A report of a novel surgical technique utilizing an electronic conductivity device guidance to aide placement of S2-Alar-Iliac (S2-AI) instrumentation.

Summary of background data

Electronic conductivity guidance for instrumentation of the thoracolumbar spine is an accepted means of improving intraoperative accuracy. Although commercially available for percutaneous techniques, there is a paucity of literature regarding its use. Percutaneous implantation of S2-AI screws has been previously described as another technique surgeons can avail, primarily employing fluoroscopy as a means of intraoperative feedback. We describe a novel technique that utilizes electronic conductivity as an added feedback measure to increase accuracy of percutaneous S2-AI fixation.

Methods

Two patients were treated by the senior author (FAS) who underwent surgery employing S2-AI fixation utilizing an electronic conductivity device (Pediguard cannulated probe, Spineguard, Paris, France). The surgical technique, case illustrations, and radiographic outcomes are discussed.

Results

Stable and accurate fixation was attained in both patients. There were no peri-operative complications related to hardware placement.

Conclusion

To the authors’ knowledge, this is the first reported literature combining S2-AI screws with electronic conductivity for immediate intraoperative feedback. This technique has the opportunity to provide surgeons with increased accuracy for placement of S2-AI screws while improving overall radiation safety. This feedback can be particularly helpful when surgeons are learning new techniques such as placement of S2AI screws.


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