Minimally invasive anterior lumbar interbody fusion for adult degenerative scoliosis with 1 or 2 dislocated levels.

OBJECT Frequent complications of posterolateral instrumented fusion have been reported after treatment of degenerative scoliosis in elderly patients. Considering that in some cases, most of the symptomatology of adult degenerative scoliosis (ADS) is a consequence of the segmental instability at the dislocated level, the use of minimally invasive anterior lumbar interbody fusion (ALIF) to manage symptoms can be advocated to reduce surgical morbidity. The purpose of this study was to evaluate the midterm outcomes of 1- or 2-level minimally invasive ALIFs in ADS patients with 1- or 2-level dislocations. METHODS A total of 47 patients (average age 64 years; range 43-80 years) with 1- or 2-level ALIF performed for ADS (64 levels) in a single institution were included in the study. An independent spine surgeon retrospectively reviewed all the patients' medical records and radiographs to assess operative data and surgery-related complications. Clinical outcome was reported using the Oswestry Disability Index (ODI) and the visual analog scale (VAS) for lumbar and leg pain. Intraoperative data and complications were collected. Fusion and risk for adjacent-level degeneration were assessed. RESULTS The mean follow-up duration was 3 years (range 1-10 years). ODI, and back and leg pain VAS scores were significantly improved at last follow-up. A majority of patients (74%) had a statistically significant improvement in their ODI score of more than 20 points at latest follow-up and 1 had a worsening of his disability. The mean operating time was 166 minutes (range 70-355 minutes). The mean estimated blood loss was 410 ml (range 50-1700 ml). Six (5 major and 1 minor) surgical complications (12.7% of patients) and 13 (2 major and 11 minor) medical complications (27.7% of patients) occurred without death or wound infection. Fusion was achieved in 46 of 47 patients. Surgery resulted in a slight but significant decrease of the Cobb angle, and improved the pelvic parameters and lumbar lordosis, but had no effect on the global sagittal balance. At latest follow-up, 9 patients (19.1%) developed adjacent-segment disease at a mean of 2 years' delay from the index surgery; 4 were symptomatic but treated medically, and none required iterative surgery. CONCLUSIONS Single- or 2-level minimally invasive fusion through a minimally invasive anterior approach in some selected cases of ADS produced a good functional outcome with a high fusion rate. They were associated with a significantly lower rate of complications in this study than the historical control.

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

[2]  D. Polly,et al.  Do Lordotic Cages Provide Better Segmental Lordosis Versus Nonlordotic Cages in Lateral Lumbar Interbody Fusion (LLIF)? , 2014, Clinical spine surgery.

[3]  Kai-Ming G. Fu,et al.  The minimally invasive spinal deformity surgery algorithm: a reproducible rational framework for decision making in minimally invasive spinal deformity surgery. , 2014, Neurosurgical focus.

[4]  N. Anand,et al.  Long-term 2- to 5-Year Clinical and Functional Outcomes of Minimally Invasive Surgery for Adult Scoliosis , 2013, Spine.

[5]  P. Guigui,et al.  Surgery of lumbar and thoracolumbar scolioses in adults over 50. Morbidity and survival in a multicenter retrospective cohort of 180 patients with a mean follow-up of 4.5 years. , 2012, Orthopaedics & traumatology, surgery & research : OTSR.

[6]  J. Chapman,et al.  Risk factors for medical complication after spine surgery: a multivariate analysis of 1,591 patients. , 2012, The spine journal : official journal of the North American Spine Society.

[7]  S. Aunoble,et al.  Equilibrium of the human body and the gravity line: the basics , 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]  K. Yonenobu,et al.  Induction of early degeneration of the adjacent segment after posterior lumbar interbody fusion by excessive distraction of lumbar disc space. , 2010, Journal of neurosurgery. Spine.

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

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

[12]  Alexander R. Vaccaro,et al.  Lumbar Adjacent Segment Degeneration and Disease After Arthrodesis and Total Disc Arthroplasty , 2008, Spine.

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

[14]  Yongjung Kim,et al.  Adjacent Segment Disease FollowingLumbar/Thoracolumbar Fusion With Pedicle Screw Instrumentation: A Minimum 5-Year Follow-up , 2007, Spine.

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

[16]  P. Roussouly,et al.  Sagittal balance of the pelvis-spine complex and lumbar degenerative diseases. A comparative study about 85 cases , 2007, European Spine Journal.

[17]  K. Bridwell,et al.  A Clinical Impact Classification of Scoliosis in the Adult , 2006, Spine.

[18]  C. Shaffrey,et al.  Degenerative lumbar scoliosis. , 2006, Neurosurgery clinics of North America.

[19]  M. Takemitsu,et al.  A Prospective Study of De Novo Scoliosis in a Community Based Cohort , 2006, Spine.

[20]  T. Toyone,et al.  Anatomic Changes in Lateral Spondylolisthesis Associated with Adult Lumbar Scoliosis , 2005, Spine.

[21]  Jeffrey C. Wang,et al.  Adjacent segment degeneration in the lumbar spine. , 2004, The Journal of bone and joint surgery. American volume.

[22]  Serena S. Hu Blood loss in adult spinal surgery , 2004, European Spine Journal.

[23]  P. Guigui,et al.  [Intraoperative and early postoperative complications of lumbar and lumbosacral fusion: prospective analysis of 872 patients]. , 2004, Revue de chirurgie orthopedique et reparatrice de l'appareil moteur.

[24]  L. Rillardon,et al.  Complications per et postopératoires immédiates des arthrodèses lombaires et lombosacrées: Étude prospective d’une cohorte de 872 patients , 2004 .

[25]  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.

[26]  Philippe Gillet,et al.  The Fate of the Adjacent Motion Segments After Lumbar Fusion , 2003, Journal of spinal disorders & techniques.

[27]  Clifford B Tribus,et al.  Degenerative Lumbar Scoliosis: Evaluation and Management , 2003, The Journal of the American Academy of Orthopaedic Surgeons.

[28]  P. Korovessis,et al.  Adult Idiopathic Lumbar Scoliosis: A Formula for Prediction of Progression and Review of the Literature , 1994, Spine.

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

[30]  C. Sherbourne,et al.  The MOS 36-Item Short-Form Health Survey (SF-36) , 1992 .

[31]  R. Deyo,et al.  Surgery for Lumbar Spinal Stenosis: Attempted Meta‐Analysis of the Literature , 1992, Spine.

[32]  O. Boachie-Adjei,et al.  The Cotrel‐Dubousset System—Results in Spinal Reconstruction: Early Experience in 47 Patients , 1991, Spine.

[33]  P. McAfee,et al.  Cotrel‐Dubousset Instrumentation in Adults: A Preliminary Report , 1988, Spine.

[34]  B. Allen,et al.  The Galveston experience with L-rod instrumentation for adolescent idiopathic scoliosis. , 1988, Clinical orthopaedics and related research.

[35]  R. Steinberg,et al.  Scoliosis in the Elderly: A Follow-Up Study , 1982, Spine.

[36]  E. Spitznagel,et al.  ASA Physical Status Classifications: A Study of Consistency of Ratings , 1978, Anesthesiology.

[37]  K. Yonenobu,et al.  Excessive Distraction of Lumbar Disc Space Induces Early Degeneration of the Adjacent Segment after Posterior Lumbar Interbody Fusion(PLIF) , 2008 .

[38]  C. Chung Surgery for lumbar spinal stenosis. , 1995, Journal of neurosurgery.

[39]  Ware J.E.Jr.,et al.  THE MOS 36- ITEM SHORT FORM HEALTH SURVEY (SF- 36) CONCEPTUAL FRAMEWORK AND ITEM SELECTION , 1992 .

[40]  R. Winter,et al.  Adult scoliosis. , 1983, Instructional course lectures.