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KMID : 1148120160060020037
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Journal of Advanced Spine Surgery
2016 Volume.6 No. 2 p.37 ~ p.42
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Is the Revision Screw for Re-insertion of Lateral Mass Screw Useful?: Biomechanical Cadaveric Experiment
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Koo Ki-Hyoung
Yoon S. Tim
Lee Jang-Yun
Hutton William C.
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Abstract
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Objective: To compare the pull-out strength of polyaxial general screws and rescue screws when inserted into the lateral mass through cadaveric biomechanical experiment
Materials and Methods: Twenty three segments of the human cervical spine (from C3 to C7) were prepared. Two biomechanical studies were progressed. In the first experiment (13 segments), each segment was instrumented with 3.5¡¿12 mm polyaxial screws on both sides. In one side, the inserted screw was removed and then the rescue screw was inserted to the same screw hole. In the second experiment (10 segments), all segments were instrumented with 3.5¡¿12 mm polyaxial screws on both sides and all screws were removed. In one side, removed same screw was reinserted and in the other side, the rescue screw was inserted without change of the screw trajectory. All specimens were fixed to the specially designed frame with the cement. Universal Material Test Machine (Mini Bionix 858) was used to assess the pull-out strength of the screws. All data were compared with non-parametric paired test (Wilcoxon¡¯s signed rank test).
Results: There was no crack or fracture around the screw hole. No significant difference was noted between the original screws (not reinserted) and the rescue screws in the first experiment (p=0.753). There is no significant difference between the same screw reinsertion and the conversion to the rescue screw (p=0.646).
Conclusions: The overall results of this study showed the conversion to the rescue screw with the same screw trajectory could offer no biomechanical advantage over reinsertion of the same screw. In case of secure screw hole after removal of the screw, the reinsertion of the same screw could be recommended.
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KEYWORD
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Cervical spine, Lateral mass screw, Rescue screw, Biomechanics, Pull-out strength
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FullTexts / Linksout information
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Listed journal information
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