1.Heterotopic Ossification Causing Radiculopathy after Lumbar Total Disc Arthroplasty.
Keith L JACKSON ; Justin M HIRE ; Jeremy M JACOBS ; Charles C KEY ; John G DEVINE
Asian Spine Journal 2015;9(3):456-460
To date, no reports have presented radiculopathy secondary to heterotopic ossification following lumbar total disc arthroplasty. The authors present a previously unpublished complication of lumbar total disk arthroplasty (TDA) secondary to heterotopic ossification (HO) in the spinal canal, and they propose a modification to the McAfee classification of HO. The patient had undergone an L5/S1 lumbar TDA two years prior due to discogenic back pain. His preoperative back pain was significantly relieved, but he developed new, atraumatic onset radiculopathy. Radiographs and a computed tomography myelogram revealed an implant malposition posteriorly with heterotopic bone formation in the canal, causing an impingement of the traversing nerve root. Revision surgery was performed with implant extraction, L5/S1 anterior lumbar interbody fusion, supplemental posterior decompression, and pedicle screw fixation. The patient tolerated the procedure well, with complete resolution of the radicular leg pain. At a two-year follow up, the patient had a solid fusion without subsidence or recurrence of heterotopic bone. This case represents a novel pattern of heterotopic ossification, and it describes a previously unreported cause for implant failure in lumbar disc replacement surgery-reinforcing the importance of proper intraoperative component positioning. We propose a modification to the existing McAfee classification of HO after TDA with the addition of Class V and VI HO.
Back Pain
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Classification
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Decompression
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Follow-Up Studies
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Humans
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Leg
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Ossification, Heterotopic*
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Osteogenesis
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Radiculopathy*
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Recurrence
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Spinal Canal
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Total Disc Replacement*
2.Preventing Construct Subsidence Following Cervical Corpectomy: The Bump-stop Technique
Kenneth Aaron SHAW ; Matthew GRIFFITH ; Edward T MOTTERN ; David M GLOYSTEIN ; John G DEVINE
Asian Spine Journal 2018;12(1):156-161
Cervical corpectomy is a viable technique for the treatment of multilevel cervical spine pathology. Despite multiple advances in both surgical technique and implant technology, the rate of construct subsidence can range from 6% for single-level procedures to 71% for multilevel procedures. In this technical note, we describe a novel technique, the bump-stop technique, for cervical corpectomy. The technique positions the superior and inferior screw holes such that the vertebral bodies bisect them. This allows for fixation in the dense cortical bone of the endplate while providing a buttress to corpectomy cage subsidence. We then discuss a retrospective case review of 24 consecutive patients, who were treated using this approach, demonstrating a lower than previously reported cage subsidence rate.
Humans
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Pathology
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Retrospective Studies
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Spine