Biomechanical Analysis of Cement Augmentation Techniques on Pedicle Screw Fixation in Osteopenic Bone: A Cadaveric Study

Abstract Study Design Three techniques for cement injection into osteopenic pedicles for screw augmentation were compared in a cadaver model. Objectives To compare the safety and efficacy of 3 techniques for cement augmentation of pedicle screws in a cadaver model. Background Cement augmentation of...

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Bibliographic Details
Published in:Spine deformity 2014, Vol.2 (1), p.28-33
Main Authors: Benson, C. Daniel, MD, Lansford, Todd, MD, Cotton, Jonathan, MD, Burton, Douglas, MD, Jackson, R. Sean, MD, McIff, Terence, PhD
Format: Article
Language:English
Subjects:
Extravasation
Kyphoplasty
Medicine & Public Health
Orthopedics
Osteopenia
Pedicle screws
Polymethylmethacrylate
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Summary:Abstract Study Design Three techniques for cement injection into osteopenic pedicles for screw augmentation were compared in a cadaver model. Objectives To compare the safety and efficacy of 3 techniques for cement augmentation of pedicle screws in a cadaver model. Background Cement augmentation of pedicle screws improves fixation in osteopenic spines. Some investigators have used kyphoplasty osteo introducers to inject viscous cement into the pedicle. In addition, a novel fenestrated tapping system was studied that leaves a threaded cement tract for final pedicle screw insertion. Methods This 3-phase biomechanical study compared cement augmentation effects on the cephalocaudal toggle of pedicle screws within 34 fresh osteopenic human cadaveric vertebrae. Phase 1 compared injection through a fenestrated tap to a direct injection. Phase 2 evaluated the fenestrated tap versus injection of more viscous cement using a kyphoplasty osteo inducer. Phase 3 compared kyphoplasty and direct injection techniques. Each vertebral body was prepared with each of the 2 techniques. The pedicle screws were subjected to 10,000 cycles of cephalocaudal toggling, and total vertical displacement of each screw head was measured. Results In a combined analysis, overall displacement was 2.26 ± 0.57 mm for the direct injection, 2.88 ± 0.56 mm for the kyphoplasty technique, and 3.74 ± 0.59 mm for the fenestrated tap (p < .01). In Phase 1, extravasation of cement occurred in 5% of the fenestrated tap, 86% of the direct injection. Phase 2 results showed that extravasation occurred in 0% for the fenestrated tap group and 18% for the kyphoplasty group. In Phase 3, extravasation of cement was 54% of the direct injection, compared with 31% of the kyphoplasty group. Conclusions The novel fenestrated tap system provided less resistance to toggle than either of the other 2 techniques but provided a lower incidence of cement extravasation. More viscous cement injected using kyphoplasty technique provides a combination of safety and efficacy.
ISSN:2212-134X
2212-1358
DOI:10.1016/j.jspd.2013.10.002