THE LOAD SHARING CLASSIFICATION OF SPINE FRACTURES

被引：794

作者：

MCCORMACK, T ^{[1
]}

KARAIKOVIC, E ^{[1
]}

GAINES, RW ^{[1
]}

机构：

[1] UNIV MISSOURI,MED CTR,SCH MED,DIV ORTHOPAED SURG,COLUMBIA,MO 65201

来源：

SPINE | 1994年 / 19卷 / 15期

关键词：

LOAD-SHARING CLASSIFICATION; SHORT SEGMENT INSTRUMENTATION;

D O I：

10.1097/00007632-199408000-00014

中图分类号：

R74 [神经病学与精神病学];

学科分类号：

摘要：

Study Design. A 3 to 4 year follow-up was performed on a consecutive series of 28 patients who had three-column spinal fractures surgically stabilized by short-segment instrumentation with first generation VSP (Steffee) screws and plates and autograft fusion. The follow-up revealed 10 patients with broken screws. Background Data. Retrospective examination of preoperative radiographs and computed tomographic axial and sagittal reconstruction images clearly demonstrated that the screw fractures all occurred in patients with a disproportionately greater amount of injury to the vertebral body. Results. A point system (the load sharing classification) was developed that grades: 1) the amount of damaged vertebral body, 2) the spread of the fragments in the fracture site, and 3) the amount of corrected traumatic kyphosis. Conclusions. This point system can be used preoperatively to: 1) predict screw breakage when short segment, posteriorly placed pedicle screw implants are being used, 2) describe any spinal injury for retrospective studies, or 3) select spinal fractures for anterior reconstruction with strut graft, short-segment-type reconstruction.

引用

页码：1741 / 1744

页数：4

共 9 条

[1] Dewald R.L., Burst fractures of the thoracic and lumbar spine, Clin Orthop, 189, pp. 150-161, (1984)
[2] Gaines R.W., Carson W.L., Et al., Experimental evaluation of seven different spinal fracture internal fixation using non-failure stability testing-the load-sharing and unstable mechanism concepts, Spine, 16, pp. 902-909, (1991)
[3] Holt B.T., McCormack T., Gaines R.W., Short segment fusion anterior or posterior approach-The load-sharing clas-sification of spine fractures, Spine: State of the Art Reviews, 7, pp. 189-197, (1993)
[4] Matsuzaki H., Tokuhashi Y., Matsumoto F., Hoshino M., Kiuchi T., Toriyama S., Problems and solutions of pedicle screw plate fixation of lumbar spine, Spine, 15, pp. 1159-1165, (1990)
[5] McLain R.F., Sparling E., Benson D.R., Early failure of short-segment pedicle instrumentation for thoracolumbar fractures, J Bone Joint Surg [Am], 75, pp. 162-167, (1993)
[6] Sasso R.C., Coder H.B., Reuben J.D., Posterior fixation of thoracic and lumbar spine fractures using DC plates and pedicle screws, Spine, 16, pp. 134-139, (1991)
[7] Sasso R.C., Coder H.B., Posterior instrumentation and fu-sion for unstable fractures and fracture-dislocations of the thoracic and lumbar spine, Spine, 18, pp. 45-60, (1993)
[8] West J.L., Ogilvie J.W., Bradford D.S., Complications of the variable screw plate pedicle screw fixation, Spine, 16, pp. 576-579, (1991)
[9] Yoganandan N., Larson S.J., Pintar F., Maiman D.J., Rein-Artz J., Sances A., Biomechanics of lumbar pedicle screw/plate fixation in trauma, Neurosurgery, 27, pp. 873-880, (1990)

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