Abstract
Study Design
Retrospective study.
Objectives
To determine whether pediatric patients undergo additional airport security screening after posterior spinal fusion.
Summary of Background Data
Airport security has expanded to include body scanners as well as traditional metal detectors. Families frequently ask whether spinal implants will trigger airport security, but there is limited information on modern implants and screening methods.
Methods
The researchers conducted a survey of 50 pediatric patients after posterior spinal fusion from 2004 to 2013. Inclusion criteria were posterior instrumentation, pedicle screws for at least 80% of anchors, and at least 1 trip through an American airport after surgery. Charts and radiographs were reviewed for metal type, number of levels fused, number of anchors, and rod diameter.
Results
A total of 16% of patients (8 of 50) were detected by body scan or metal detector and all had cobalt chrome (CoCr) rods. No patients with stainless-steel (SS) rods were detected. The CoCr rods triggered additional screening in 24% of children (8 of 33), compared with none of 17 with SS rods (p =.03). For patients with CoCr rods, the detection rate was 18% (5 of 28) by metal detector and 17% (3 of 18) by body scanner. For patients with CoCr rods, there was no significant difference between detection rates and levels fused (p =.30), number of anchors (p =.15), or rod diameter (p =.17).
Conclusions
In this series, CoCr constructs were more likely to incur additional airport security compared with more traditional SS constructs.
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References
Advanced Imaging Technology. Transportation Security Administration. http://www.tsa.gov/traveler-information/advanced-imaging-technology-ait. Accessed February 10, 2014.
Federal Aviation Administration. FAA historical chronology, 1926-1996. http://www.faa.gov/about/history/chronolog_history/. Accessed June 5, 2014.
Poitout DG. Biomechanics and biomaterials in orthopedics. Singapore: Springer; 2004.
Ramirez MA, Rodriguez EK, Zurakowski D, Richardson LC. Detection of orthopaedic implants in vivo by enhanced-sensitivity, walk-through metal detectors. J Bone Joint Surg Am 2007;89:742–6.
Chinwalla F, Grevitt MP. Detection of modern spinal implants by airport metal detectors. Spine (Phila Pa 1976) 2012;37:2011–6.
Fabricant PD, Robles A, Blanco JS. Airport metal detector activation is rare after posterior spinal fusion in children with scoliosis. J Child Orthop 2013;7:531–6.
Basu P, Packer GJ, Himstedt J. Detection of orthopaedic implants by airport metal detectors. J Bone Joint Surg Br 1997;79:388–9.
Obremskey WT, Austin T, Cosby C, et al. Detection of orthopaedic implants by airport metal detectors. J Orthop Trauma 2007;21:129–32.
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Author disclosures: RPW (none); LMA (none); KKB (none); DLS (none).
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Woon, R.P., Andras, L.M., Barrett, K.K. et al. Cobalt Chrome Spinal Constructs Trigger Airport Security Screening in 24% of Pediatric Patients. Spine Deform 3, 188–191 (2015). https://doi.org/10.1016/j.jspd.2014.07.003
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DOI: https://doi.org/10.1016/j.jspd.2014.07.003