医学
还原(数学)
冠状面
矢状面
外科
射线照相术
平衡(能力)
位错
放射科
物理医学与康复
材料科学
几何学
数学
复合材料
作者
Shailesh Hadgaonkar,Kunal Shah,Ketan Khurjekar,Vibhu Krishnan,Ashok Shyam,Parag Sancheti
标识
DOI:10.1177/2192568217699184
摘要
Objective:Dorsolumbar vertebral dislocations, with or without associated fractures, occur secondary to very high velocity trauma. The reduction procedures and techniques, which may be adopted in these situations, have been multifariously discussed in the literature. Our objective was to assess the outcome of a novel reduction maneuver, using parallel rods which we have employed in reduction of high-grade thoracolumbar fractures to achieve precise sagittal balance as well as accurate vertebral alignment with minimal soft tissue damage. Methods:The study included a total of 11 cases of thoracolumbar dislocations, who had presented to our emergency spine services following high-velocity trauma. After appropriate systemic stabilization and necessary investigations, all patients were surgically treated using the described technique. Results:There were no surgical complications at 2-year follow-up. Radiographs showed good reduction and maintained sagittal balance. Conclusion:We believe that this technique is an excellent means of achieving safer, easier, and accurate reduction for restoration of sagittal/coronal balance and alignment in high-grade thoracolumbar dislocations. It is easily reproducible and predictable.
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