The spine journal : official journal of the North American Spine Society
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Multicenter Study
Percutaneous sacroplasty for osteoporotic sacral insufficiency fractures: a prospective, multicenter, observational pilot study.
Sacral insufficiency fractures (SIFs) can cause low back pain in osteoporotic patients. Symptomatic improvement may require up to 12 months. Treatment includes limited weightbearing and bed rest, oral analgesics, and sacral corsets. Significant mortality and morbidity are associated with pelvic insufficiency fractures. Percutaneous injection of polymethylmethacrylate (PMMA) into the fractured ala, sacroplasty, is an alternative treatment for SIF patients. Under fluoroscopic control, 13-G bone trochars are inserted into the fractured ala while the patient is maintained under conscious sedation. Initial reports have documented safe and effective performance of sacroplasty. Yet, these uncontrolled findings do not allow any precision in estimating complication rates or expected outcome. ⋯ Sacroplasty for SIF appears to be associated with rapid and sustained pain relief in most patients with few complications. More rigorous trials are warranted to provide definitive evidence of the safety and efficacy of sacroplasty for SIFs.
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Posterior decompressions in the form of laminectomies for vertebral body tumors have poor outcomes. Surgical management typically requires anterior decompression and reconstruction; however, these procedures can be associated with significant morbidity and mortality. ⋯ This is the largest study that specifically examines the use of an expandable cage through a posterior extracavitary approach for reconstruction after vertebral body tumor resection. The use of an expandable cage combined with an extracavitary approach is feasible and allows the surgeon to address both the anterior and posterior columns through a single incision. Although technically challenging, both one- and two-level corpectomies in the thoracic and/or lumbar spine can be performed with this technique. Furthermore, insertion of the expandable cage in the collapsed position and then expansion in situ after implantation allowed for all lumbar reconstructions to be completed without sacrificing any of the lumbar nerve roots. Our 14.3% complication rate is similar to those reported in anterior-alone and circumferential spinal procedures.