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Orthopaedic Proceedings
Vol. 86-B, Issue SUPP_I | Pages 91 - 91
1 Jan 2004
Sherwood MJ Robertson PA Hadlow AT
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Purpose: Lumbosacral dislocation injuries are rare. Severe trauma disrupts the mechanically stable lumbosacral junction, rendering the injuries particularly unstable. Aggressive surgical management has been recommended. We present a review of our experience with these uncommon injuries defining injury patterns, surgical strategies and outcomes.

Methodology: Six patients were treated at Auckland Hospital in the last decade. Thorough review and literature search were performed to revise recommendations for management.

Results: All injuries were associated with high-energy trauma. In two cases there was evidence of previous spondylolysis, with dramatic progression after injury. All cases were surgically treated with decompression, reduction as indicated, and fusion with instrumentation. The only instrumentation failure occurred when reduction reconstituted disc height without attention to reconstruction of the severely mechanically compromised intervertebral disc. Satisfactory recovery of nerve root injury occurred in all but one case. Major cauda equina damage did not occur. Correlations with previously described classification systems for this injury were poor, and often showed injuries to span grades.

Conclusions: These highly unstable injuries require a high index of suspicion, and aggressive surgical management of these highly unstable injuries is warranted, yielding satisfactory outcomes. Existing classification systems are of little value prognostically, or in planning treatment, and it is better to classify and treat these injuries specifically relating to the anatomical injury patterns. The severe disruption to the intervertebral disc warrants special consideration with attention to a stable reduction position or three-column reconstruction. Spondylolysis may represent a predisposing factor.


Orthopaedic Proceedings
Vol. 84-B, Issue SUPP_II | Pages 136 - 136
1 Jul 2002
Rawlinson H Robertson P Hadlow AT
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Introduction: Titanium mesh cages (TMC) for the reconstruction of thoracolumbar vertebral body defects offer an alternative to structural iliac crest autograft or allograft. The stability and safety of these cages has not been addressed.

Aim: To assess the stability and safety of titanium mesh cages in the reconstruction of thoracolumbar vertebral body defects.

Method: Independent radiological review before and after surgery, and at follow-up was performed for 27 patients having implantation of TMCs. Measurements of thoracolumbar kyphosis, cage settling, translational deformities and any evidence of implant failure were recorded.

Results: Indications for reconstruction with TMC included burst fracture (13), post-traumatic kyphosis (8), primary tumour resection (3), debridement of infection (1) and stabilisation of severe kyphotic deformity in achondroplasia with spinal stenosis (2). Kyphoses were corrected by a mean of 12 degrees (61%, range: zero degrees to 38 degrees, 0% to 85%). No cage moved. One patient had a recurrence of the kyphosis of more than five degrees (12 degrees). Five patients demonstrated some settling of the cage within adjacent vertebral bodies (1% to 8%, mean = 3.4% of height loss over length). Translational malposition of three cages occurred. One of these cases demonstrated the maximum settling and another was associated with the only case of instrumentation failure. Spinal canal intrusion did not occur.

Conclusions: We found that the use of TMCs was safe when managing vertebral body reconstruction. Significant kyphosis or translational deformity did not occur, however minor cage settling within adjacent vertebra did. The fusion rate is unknown as the mesh cage obscured graft maturation. Construct failure only occurred after pre-operative translational malalignment could not be corrected. This demanding procedure offers a reconstructive option with superior structural stability and reduced bone grafting morbidity.