Management of sagittal balance in adult spinal deformity with minimally invasive anterolateral lumbar interbody fusion: a preliminary radiographic study.

OBJECT Minimally invasive (MI) fusion and instrumentation techniques are playing a new role in the treatment of adult spinal deformity. The open pedicle subtraction osteotomy (PSO) and Smith-Petersen osteotomy (SPO) are proven segmental methods for improving regional lordosis and global sagittal parameters. Recently the MI anterior column release (ACR) was introduced as a segmental method for treating sagittal imbalance. There is a paucity of data in the literature evaluating the alternatives to PSO and SPO for sagittal balance correction. Thus, the authors conducted a preliminary retrospective radiographic review of prospectively collected data from 2009 to 2012 at a single institution. The objectives of this study were to: 1) investigate the radiographic effect of MI-ACR on spinopelvic parameters, 2) compare the radiographic effect of MI-ACR with PSO and SPO for treatment of adult spinal deformity, and 3) investigate the radiographic effect of percutaneous posterior spinal instrumentation on spinopelvic parameters when combined with MI transpsoas lateral interbody fusion (LIF) for adult spinal deformity. METHODS Patient demographics and radiographic data were collected for 36 patients (9 patients who underwent MI-ACR and 27 patients who did not undergo MI-ACR). Patients included in the study were those who had undergone at least a 2-level MI-LIF procedure; adequate preoperative and postoperative 36-inch radiographs of the scoliotic curvature; a separate second-stage procedure for the placement of posterior spinal instrumentation; and a diagnosis of degenerative scoliosis (coronal Cobb angle > 10° and/or sagittal vertebral axis > 5 cm). Statistical analysis was performed for normality and significance testing. RESULTS Percutaneous transpedicular spinal instrumentation did not significantly alter any of the spinopelvic parameters in either the ACR group or the non-ACR group. Lateral MI-LIF alone significantly improved coronal Cobb angle by 16°, and the fractional curve significantly improved in a subgroup treated with L5-S1 transforaminal lumbar interbody fusion. Fifteen ACRs were performed in 9 patients and resulted in significant coronal Cobb angle correction, lumbar lordosis correction of 16.5°, and sagittal vertebral axis correction of 4.8 cm per patient. Segmental analysis revealed a 12° gain in segmental lumbar lordosis and a 3.1-cm correction of the sagittal vertebral axis per ACR level treated. CONCLUSIONS The lateral MI-LIF with ACR has the ability to powerfully restore lumbar lordosis and correct sagittal imbalance. This segmental MI surgical technique boasts equivalence to SPO correction of these global radiographic parameters while simultaneously creating additional disc height and correcting coronal imbalance. Addition of posterior percutaneous instrumentation without in situ manipulation or overcorrection does not alter radiographic parameters when combined with the lateral MI-LIF.

[1]  Michael Y. Wang Improvement of sagittal balance and lumbar lordosis following less invasive adult spinal deformity surgery with expandable cages and percutaneous instrumentation. , 2013, Journal of neurosurgery. Spine.

[2]  C. Lamartina,et al.  Far lateral approaches (XLIF) in adult scoliosis , 2013, European Spine Journal.

[3]  Tien V. Le,et al.  Anterior longitudinal ligament release using the minimally invasive lateral retroperitoneal transpsoas approach: a cadaveric feasibility study and report of 4 clinical cases. , 2012, Journal of neurosurgery. Spine.

[4]  Tien V. Le,et al.  The Effect of the Retroperitoneal Transpsoas Minimally Invasive Lateral Interbody Fusion on Segmental and Regional Lumbar Lordosis , 2012, TheScientificWorldJournal.

[5]  Tien V. Le,et al.  Subsidence of Polyetheretherketone Intervertebral Cages in Minimally Invasive Lateral Retroperitoneal Transpsoas Lumbar Interbody Fusion , 2012, Spine.

[6]  O. Boachie-Adjei,et al.  Sagittal realignment failures following pedicle subtraction osteotomy surgery: are we doing enough?: Clinical article. , 2012, Journal of neurosurgery. Spine.

[7]  R. Fessler,et al.  Changes in coronal and sagittal plane alignment following minimally invasive direct lateral interbody fusion for the treatment of degenerative lumbar disease in adults: a radiographic study. , 2011, Journal of neurosurgery. Spine.

[8]  Munish C. Gupta,et al.  Does vertebral level of pedicle subtraction osteotomy correlate with degree of spinopelvic parameter correction? , 2011, Journal of neurosurgery. Spine.

[9]  F. Schwab,et al.  Adult Spinal Deformity—Postoperative Standing Imbalance: How Much Can You Tolerate? An Overview of Key Parameters in Assessing Alignment and Planning Corrective Surgery , 2010, Spine.

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

[11]  Adam S. Kanter,et al.  Complications and radiographic correction in adult scoliosis following combined transpsoas extreme lateral interbody fusion and posterior pedicle screw instrumentation. , 2010, Neurosurgical focus.

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

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

[14]  B. Jasiewicz,et al.  Treatment of idiopathic scoliosis exceeding 100 degrees - comparison of different surgical techniques. , 2009, Ortopedia, traumatologia, rehabilitacja.

[15]  J. Auerbach,et al.  The Correction of Pelvic Obliquity in Patients With Cerebral Palsy and Neuromuscular Scoliosis: Is There a Benefit of Anterior Release Prior to Posterior Spinal Arthrodesis? , 2009, Spine.

[16]  Kai-Ming G. Fu,et al.  RADIOGRAPHIC RESTORATION OF LUMBAR ALIGNMENT AFTER TRANSFORAMINAL LUMBAR INTERBODY FUSION , 2009, Neurosurgery.

[17]  D. Sucato,et al.  Prone Thoracoscopic Release Does Not Adversely Affect Pulmonary Function When Added to a Posterior Spinal Fusion for Severe Spine Deformity , 2009, Spine.

[18]  T. Burd,et al.  Corrective osteotomies in spine surgery. , 2008, The Journal of bone and joint surgery. American volume.

[19]  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.

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

[21]  Yung Park,et al.  Comparison of One-Level Posterior Lumbar Interbody Fusion Performed With a Minimally Invasive Approach or a Traditional Open Approach , 2007, Spine.

[22]  K. Bridwell Decision Making Regarding Smith-Petersen vs. Pedicle Subtraction Osteotomy vs. Vertebral Column Resection for Spinal Deformity , 2006, Spine.

[23]  Motoki Iwasaki,et al.  Surgical complications of posterior lumbar interbody fusion with total facetectomy in 251 patients. , 2006, Journal of neurosurgery. Spine.

[24]  L. Lenke,et al.  Comparison of Smith-Petersen Versus Pedicle Subtraction Osteotomy for the Correction of Fixed Sagittal Imbalance , 2005, Spine.

[25]  William Horton,et al.  Correlation of Radiographic Parameters and Clinical Symptoms in Adult Scoliosis , 2005, Spine.

[26]  L. Lenke,et al.  Pedicle subtraction osteotomy for the treatment of fixed sagittal imbalance. Surgical technique. , 2004, The Journal of bone and joint surgery. American volume.

[27]  John R. Johnson,et al.  Perioperative complications of posterior lumbar decompression and arthrodesis in older adults. , 2003, The Journal of bone and joint surgery. American volume.

[28]  D. Sucato,et al.  A Comparison Between the Prone and Lateral Position for Performing a Thoracoscopic Anterior Release and Fusion for Pediatric Spinal Deformity , 2003, Spine.

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

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

[31]  E. Thomasen Vertebral osteotomy for correction of kyphosis in ankylosing spondylitis. , 1985, Clinical orthopaedics and related research.

[32]  C. Larson,et al.  Osteotomy of the spine for correction of flexion deformity in rheumatoid arthritis. , 1969, Clinical orthopaedics and related research.