Biomechanical Evaluation of Stand-Alone Interbody Fusion Cages in the Cervical Spine
@article{Shimamoto2001BiomechanicalEO,
title={Biomechanical Evaluation of Stand-Alone Interbody Fusion Cages in the Cervical Spine},
author={Norimichi Shimamoto and Bryan W. Cunningham and Anton E. Dmitriev and Akio Minami and Paul C McAfee},
journal={Spine},
year={2001},
volume={26},
pages={E432-E436}
}Study Design. An in vitro biomechanical investigation of the immediate stability in cervical reconstruction. Objectives. The purpose of this study was to compare the segmental stability afforded by the interbody fusion cage, the anterior locking plate, and the “gold standard” autograft. Summary of Background Data. Recently, interbody fusion cage devices have been developed and used for cervical reconstruction, but to the authors’ knowledge no studies have investigated the biomechanical…
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Cage implantation in a lumbar spinal segment does not increase immediate postoperative stability as compared to the native segment in this goat model, which implies that high primary segment stability is not required for fusion or that the tested range of motion of the spinal segment in vitro does not occur at these magnitudes in vivo.
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