Minimally Invasive Transpsoas L2 Corpectomy and Percutaneous Pedicle Screw Fixation for Osteoporotic Burst Fracture in the Elderly: A Technical Report

Background and Importance: Osteoporotic vertebral burst fractures are an increasingly common cause of pain and severe functional disability in the elderly. Although anterior-posterior surgical stabilization offers an efficacious and durable treatment, the associated high blood loss, long durations of surgery, and prolonged hospitalization are often not tolerable for elderly patients, who are most often medically frail with multiple comorbidities. Clinical Presentation: We report a case of an L2 osteoporotic burst fracture in an elderly patient with significant comorbidities treated with a minimally invasive tubular direct lateral transpsoas approach for L2 vertebrectomy and anterior cage placement. The construct was supplemented by a percutaneous pedicle screw construct and adjacent level vertebroplasty. Duration of surgery was 3.5 hours with a total of 35 mL blood loss. The patient was discharged ambulating 36 hours after surgery and reported marked improvement in pain, disability, and quality of life measures at 6 weeks postoperatively. Conclusions: L2 vertebrectomy by direct lateral transpsoas tube systems supplemented by percutaneous pedicle screws can be performed safely and may allow for anterior column decompression and reconstruction in elderly or comorbid patients not otherwise able to tolerate traditional stabilization procedures.

[1]  M. McGirt,et al.  Factors influencing 2-year health care costs in patients undergoing revision lumbar fusion procedures. , 2012, Journal of neurosurgery. Spine.

[2]  M. McGirt,et al.  Comparative analysis of perioperative surgical site infection after minimally invasive versus open posterior/transforaminal lumbar interbody fusion: analysis of hospital billing and discharge data from 5170 patients. , 2011, Journal of neurosurgery. Spine.

[3]  Juan S. Uribe,et al.  Minimally Invasive Lateral Retropleural Thoracolumbar Approach: Cadaveric Feasibility Study and Report of 4 Clinical Cases , 2011, Neurosurgery.

[4]  Joseph S. Cheng,et al.  Post-Operative Infection after Minimally Invasive versus Open Transforaminal Lumbar Interbody Fusion (TLIF): Literature Review and Cost Analysis , 2011, Minimally invasive neurosurgery : MIN.

[5]  Daniel C. Lu,et al.  Mini-open transpedicular corpectomies with expandable cage reconstruction. Technical note. , 2011, Journal of neurosurgery. Spine.

[6]  Genlin Wang,et al.  Is kyphoplasty reliable for osteoporotic vertebral compression fracture with vertebral wall deficiency? , 2010, Injury.

[7]  C. Sottas,et al.  Mini-open anterior approach for corpectomy in the thoracolumbar spine. , 2008, Surgical neurology.

[8]  Meic H. Schmidt,et al.  THORACOSCOPIC VERTEBRAL BODY REPLACEMENT WITH AN EXPANDABLE CAGE AFTER VENTRAL SPINAL CANAL DECOMPRESSION , 2007, Neurosurgery.

[9]  H. Aryan,et al.  Extreme Lateral Interbody Fusion (XLIF): a novel surgical technique for anterior lumbar interbody fusion. , 2006, The spine journal : official journal of the North American Spine Society.

[10]  K. Wood,et al.  Operative compared with nonoperative treatment of a thoracolumbar burst fracture without neurological deficit. A prospective, randomized study. , 2003 .

[11]  D. Gelb,et al.  Osteoporotic Vertebral Burst Fractures with Neurologic Compromise , 2003, Journal of spinal disorders & techniques.

[12]  J. L. Melton,et al.  Epidemiology of Spinal Osteoporosis , 1997, Spine.

[13]  R. Sasso,et al.  Posterior instrumentation and fusion for unstable fractures and fracture-dislocations of the thoracic and lumbar spine. A comparative study of three fixation devices in 70 patients. , 1993, Spine.