Faheem A Sandhu1, Jason E McGowan2, Daniel R Felbaum2, Hasan R Syed2, Kyle B Mueller2. 1. Department of Neurosurgery, MedStar Georgetown University Hospital, 7 PHC, 3800 Reservoir Rd. NW, Washington, DC, 20057, USA. fasandhu@aol.com. 2. Department of Neurosurgery, MedStar Georgetown University Hospital, 7 PHC, 3800 Reservoir Rd. NW, Washington, DC, 20057, USA.
Abstract
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. 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.
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. 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.
Authors: Lauren E Matteini; Khaled M Kebaish; W Robert Volk; Patrick F Bergin; Warren D Yu; Joseph R O'Brien Journal: Neurosurg Focus Date: 2010-03 Impact factor: 4.047
Authors: Amit Jain; Hamid Hassanzadeh; Sophia A Strike; Emmanuel N Menga; Paul D Sponseller; Khaled M Kebaish Journal: J Bone Joint Surg Am Date: 2015-09-16 Impact factor: 5.284
Authors: Kuniyoshi Tsuchiya; Keith H Bridwell; Timothy R Kuklo; Lawrence G Lenke; Christine Baldus Journal: Spine (Phila Pa 1976) Date: 2006-02-01 Impact factor: 3.468
Authors: Heiko Koller; Wolfgang Hitzl; Frank Acosta; Mark Tauber; Juliane Zenner; Herbert Resch; Yasutsugu Yukawa; Oliver Meier; Rene Schmidt; Michael Mayer Journal: Eur Spine J Date: 2009-07-03 Impact factor: 3.134
Authors: Frank J Schwab; Benjamin Blondel; Shay Bess; Richard Hostin; Christopher I Shaffrey; Justin S Smith; Oheneba Boachie-Adjei; Douglas C Burton; Behrooz A Akbarnia; Gregory M Mundis; Christopher P Ames; Khaled Kebaish; Robert A Hart; Jean-Pierre Farcy; Virginie Lafage Journal: Spine (Phila Pa 1976) Date: 2013-06-01 Impact factor: 3.468
Authors: Jotham C Manwaring; Konrad Bach; Amir A Ahmadian; Armen R Deukmedjian; Donald A Smith; Juan S Uribe Journal: J Neurosurg Spine Date: 2014-03-14