Minimally invasive spine surgery for adult degenerative lumbar scoliosis.

OBJECT Historically, adult degenerative lumbar scoliosis (DLS) has been treated with multilevel decompression and instrumented fusion to reduce neural compression and stabilize the spinal column. However, due to the profound morbidity associated with complex multilevel surgery, particularly in elderly patients and those with multiple medical comorbidities, minimally invasive surgical approaches have been proposed. The goal of this meta-analysis was to review the differences in patient selection for minimally invasive surgical versus open surgical procedures for adult DLS, and to compare the postoperative outcomes following minimally invasive surgery (MIS) and open surgery. METHODS In this meta-analysis the authors analyzed the complication rates and the clinical outcomes for patients with adult DLS undergoing complex decompressive procedures with fusion versus minimally invasive surgical approaches. Minimally invasive surgical approaches included decompressive laminectomy, microscopic decompression, lateral and extreme lateral interbody fusion (XLIF), and percutaneous pedicle screw placement for fusion. Mean patient age, complication rates, reoperation rates, Cobb angle, and measures of sagittal balance were investigated and compared between groups. RESULTS Twelve studies were identified for comparison in the MIS group, with 8 studies describing the lateral interbody fusion or XLIF and 4 studies describing decompression without fusion. In the decompression MIS group, the mean preoperative Cobb angle was 16.7° and mean postoperative Cobb angle was 18°. In the XLIF group, mean pre- and postoperative Cobb angles were 22.3° and 9.2°, respectively. The difference in postoperative Cobb angle was statistically significant between groups on 1-way ANOVA (p = 0.014). Mean preoperative Cobb angle, mean patient age, and complication rate did not differ between the XLIF and decompression groups. Thirty-five studies were identified for inclusion in the open surgery group, with 18 studies describing patients with open fusion without osteotomy and 17 papers detailing outcomes after open fusion with osteotomy. Mean preoperative curve in the open fusion without osteotomy and with osteotomy groups was 41.3° and 32°, respectively. Mean reoperation rate was significantly higher in the osteotomy group (p = 0.008). On 1-way ANOVA comparing all groups, there was a statistically significant difference in mean age (p = 0.004) and mean preoperative curve (p = 0.002). There was no statistically significant difference in complication rates between groups (p = 0.28). CONCLUSIONS The results of this study suggest that surgeons are offering patients open surgery or MIS depending on their age and the severity of their deformity. Greater sagittal and coronal correction was noted in the XLIF versus decompression only MIS groups. Larger Cobb angles, greater sagittal imbalance, and higher reoperation rates were found in studies reporting the use of open fusion with osteotomy. Although complication rates did not significantly differ between groups, these data are difficult to interpret given the heterogeneity in reporting complications between studies.

[1]  P. Arnold,et al.  Degenerative Lumbar Scoliosis , 2015, JBJS reviews.

[2]  L. Pimenta,et al.  Is the Lateral Transpsoas Approach Feasible for the Treatment of Adult Degenerative Scoliosis? , 2014, Clinical orthopaedics and related research.

[3]  M. Comisso,et al.  Pelvic parameters of sagittal balance in extreme lateral interbody fusion for degenerative lumbar disc disease , 2013, Journal of Clinical Neuroscience.

[4]  P. Guigui,et al.  Complications and Risk Factors of Primary Adult Scoliosis Surgery: A Multicenter Study of 306 Patients , 2012, Spine.

[5]  Mingxing Tang,et al.  Clinical evaluation of indirect decompression treatments for degenerative adult idiopathic scoliosis , 2011, Archives of Orthopaedic and Trauma Surgery.

[6]  S. Nimjee,et al.  Extreme Lateral Interbody Fusion Approach for Isolated Thoracic and Thoracolumbar Spine Diseases: Initial Clinical Experience and Early Outcomes , 2011, Journal of spinal disorders & techniques.

[7]  A. Suzuki,et al.  Clinical outcomes of microscopic decompression for degenerative lumbar foraminal stenosis: a comparison between patients with and without degenerative lumbar scoliosis , 2011, European Spine Journal.

[8]  F. Phillips,et al.  A Prospective, Nonrandomized, Multicenter Evaluation of Extreme Lateral Interbody Fusion for the Treatment of Adult Degenerative Scoliosis: Perioperative Outcomes and Complications , 2010, Spine.

[9]  H. Terai,et al.  The influence of approach side on facet preservation in microscopic bilateral decompression via a unilateral approach for degenerative lumbar scoliosis. Clinical article. , 2010, Journal of neurosurgery. Spine.

[10]  Y. R. Rampersaud,et al.  Success and Failure of Minimally Invasive Decompression for Focal Lumbar Spinal Stenosis in Patients With and Without Deformity , 2010, Spine.

[11]  K. Cho,et al.  Risk Factors of Sagittal Decompensation After Long Posterior Instrumentation and Fusion for Degenerative Lumbar Scoliosis , 2010, Spine.

[12]  Juan S. Uribe,et al.  Early outcomes and safety of the minimally invasive, lateral retroperitoneal transpsoas approach for adult degenerative scoliosis. , 2010, Neurosurgical focus.

[13]  M. Maltenfort,et al.  Adult scoliosis surgery outcomes: a systematic review. , 2010, Neurosurgical focus.

[14]  Khoi D. Than,et al.  Outcomes after surgery for cervical spine deformity: review of the literature. , 2010, Neurosurgical focus.

[15]  Michael Y. Wang,et al.  Minimally invasive surgery for thoracolumbar spinal deformity: initial clinical experience with clinical and radiographic outcomes. , 2010, Neurosurgical focus.

[16]  R. Winter,et al.  Surgical Outcomes of Decompression, Decompression With Limited Fusion, and Decompression With Full Curve Fusion for Degenerative Scoliosis With Radiculopathy , 2008, Spine.

[17]  W. Liu,et al.  The clinical features and surgical treatment of degenerative lumbar scoliosis: A review of 112 patients , 2009, Orthopaedic surgery.

[18]  L. Lenke,et al.  The Morbidity of an Anterior Thoracolumbar Approach: Adult Spinal Deformity Patients With Greater Than Five-Year Follow-up , 2009, Spine.

[19]  Safdar N. Khan,et al.  Lumbar degenerative scoliosis: outcomes of combined anterior and posterior pelvis surgery with minimum 2-year follow-up. , 2009, Orthopedics.

[20]  O. Boachie-Adjei,et al.  Lumbar curve response to selective thoracic fusion in adult idiopathic scoliosis. , 2008, The spine journal : official journal of the North American Spine Society.

[21]  N. Anand,et al.  Minimally Invasive Multilevel Percutaneous Correction and Fusion for Adult Lumbar Degenerative Scoliosis: A Technique and Feasibility Study , 2008, Journal of spinal disorders & techniques.

[22]  C. Niu,et al.  Instrumented Posterior Lumbar Interbody Fusion for Patients With Degenerative Lumbar Scoliosis , 2008, Journal of spinal disorders & techniques.

[23]  Hung-Chang Chen,et al.  Closing-Opening Wedge Osteotomy for the Treatment of Sagittal Imbalance , 2008, Spine.

[24]  James D. Schwender,et al.  Complications in Long Fusions to the Sacrum for Adult Scoliosis: Minimum Five-Year Analysis of Fifty Patients , 2008, Spine.

[25]  L. Lenke,et al.  Surgical Treatment of Adult Scoliosis: Is Anterior Apical Release and Fusion Necessary for the Lumbar Curve? , 2008, Spine.

[26]  K. Cho,et al.  Short fusion versus long fusion for degenerative lumbar scoliosis , 2008, European Spine Journal.

[27]  J. Buchowski,et al.  Neurologic Complications of Lumbar Pedicle Subtraction Osteotomy: A 10-Year Assessment , 2007, Spine.

[28]  L. Lenke,et al.  Adult Spinal Deformity Surgery: Complications and Outcomes in Patients Over Age 60 , 2007, Spine.

[29]  K. Cho,et al.  Complications in Posterior Fusion and Instrumentation for Degenerative Lumbar Scoliosis , 2007, Spine.

[30]  L. Lenke,et al.  Results of Lumbar Pedicle Subtraction Osteotomies for Fixed Sagittal Imbalance: A Minimum 5-Year Follow-up Study , 2007, Spine.

[31]  J. Kostuik,et al.  Posterior Only Versus Combined Anterior and Posterior Approaches to Lumbar Scoliosis in Adults: A Radiographic Analysis , 2007, Spine.

[32]  L. Lenke,et al.  Comparison of Thoracic Pedicle Screw to Hook Instrumentation for the Treatment of Adult Spinal Deformity , 2007, Spine.

[33]  A. Mehbod,et al.  Degenerative Lumbar Scoliosis: Radiographic Correlation of Lateral Rotatory Olisthesis With Neural Canal Dimensions , 2006, Spine.

[34]  Tom Stanley,et al.  Instrumentation-Related Complications of Multilevel Fusions for Adult Spinal Deformity Patients Over Age 65: Surgical Considerations and Treatment Options in Patients With Poor Bone Quality , 2006, Spine.

[35]  O. Boachie-Adjei,et al.  Transpedicular Lumbar Wedge Resection Osteotomy for Fixed Sagittal Imbalance: Surgical Technique and Early Results , 2006, Spine.

[36]  L. Lenke,et al.  Complications and Outcomes of Pedicle Subtraction Osteotomies for Fixed Sagittal Imbalance , 2003, Spine.

[37]  L. Lenke,et al.  Staged Posterior Surgery for Severe Adult Spinal Deformity , 2003, Spine.

[38]  V. Deviren,et al.  Management of Fixed Sagittal Plane Deformity: Outcome of Combined Anterior and Posterior Surgery , 2003, Spine.

[39]  O. Boachie-Adjei,et al.  Functional and Radiographic Outcomes After Surgery for Adult Scoliosis Using Third-Generation Instrumentation Techniques , 2003, Spine.

[40]  L. Lenke,et al.  Pedicle Subtraction Osteotomy for the Treatment of Fixed Sagittal Imbalance , 2003, The Journal of bone and joint surgery. American volume.

[41]  D. Murrey,et al.  Transpedicular Decompression and Pedicle Subtraction Osteotomy (Eggshell Procedure): A Retrospective Review of 59 Patients , 2002, Spine.

[42]  J. Buchowski,et al.  Functional outcome and radiographic correction after spinal osteotomy. , 2002, Spine.

[43]  V. Deviren,et al.  Outcome and Complications of Long Fusions to the Sacrum in Adult Spine Deformity: Luque-Galveston, Combined Iliac and Sacral Screws, and Sacral Fixation , 2002, Spine.

[44]  L. Lenke,et al.  Complications and results of long adult deformity fusions down to l4, l5, and the sacrum. , 2001, Spine.

[45]  L. Lenke,et al.  Long-Term Complications in Adult Spinal Deformity Patients Having Combined Surgery: A Comparison of Primary to Revision Patients , 2001, Spine.

[46]  Serena S. Hu,et al.  Anterior and posterior allografts in symptomatic thoracolumbar deformity. , 2001, Journal of spinal disorders.

[47]  A. Fossel,et al.  Associations Between Spinal Deformity and Outcomes After Decompression For Spinal Stenosis , 1997, Spine.

[48]  J. Pritchett,et al.  Degenerative Symptomatic Lumbar Scoliosis , 1993, Spine.

[49]  E. Simmons,et al.  The Results of Surgical Treatment for Adult Scoliosis , 1993, Spine.

[50]  P. Lewis,et al.  Decompressive lumbar laminectomy for spinal stenosis. , 1993, Journal of neurosurgery.

[51]  J. Kostuik,et al.  Spinal Fusions to the Sacrum in Adults with Scoliosis , 1983, Spine.

[52]  C. Sanmartino,et al.  The surgical treatment of nerve root compression caused by scoliosis of the lumbar spine. , 1983 .

[53]  F. D'Andria,et al.  The Surgical Treatment of Nerve Root Compression Caused by Scoliosis of the Lumbar Spine , 1983, Spine.