Institution: | 1.Orthopaedics,Don Gnocchi Foundation, ONLUS,Milan,Italy;2.Neurosurgery,S. Andrea Hospital,Rome,Italy;3.Department Neurology and Psychiatry,Neurosurgery, Sapienza Rome University,Rome,Italy;4.Orthopaedics,Polo Pontino Sapienza Rome University,Latina,Italy;5.Rome,Italy |
Abstract: | PurposeSagittal imbalance of severe adult degenerative deformities requires surgical correction to improve pain, mobility and quality of life. Our aim was a harmonic and balanced spine, treating a series of adult degenerative thoracolumbar and lumbar kyphoscoliosis by a non posterior subtraction osteotomy technique.MethodsWe operated 22 painful thoracolumbar and lumbar compensated degenerative deformities by anterior (ALIF), extreme lateral (XLIF) and transforaminal (TLIF) interbody fusion and grade 2 osteotomy (SPO) to restore lumbar lordosis and mobilize the coronal curve. Two-stage surgery, first anterior and after 2 or 3 weeks posterior, was proposed when the Oswestry Disability Index (ODI) was equal to or greater than 50% and VAS more than 5. All patients were submitted to X-ray and clinical screening during pre, post-operative and follow-up periods.ResultsWe performed 5 ALIFs, 39 XLIFs, 8 TLIFs, 32 SPOs. No major complications were recorded and complication rate was 18% after lateral fusion and 22.7% after posterior approach. Pelvic tilt, lumbar lordosis, sagittal vertical axis and thoracic kyphosis improved (p < 0.05). Clinical follow-up (mean 20.5; range 18–24) was satisfactory in all cases, except for two due to sacroiliac pain. Mean preoperative VAS was 7.7 (range 6–10), while ODI was 67% on average (range 50–78). After two-stage surgery, VAS and ODI decreased, respectively, to 2.4 (range 2–4) and 31% (range 25–45), while their values were 4 (range 2-6) and 35% (range 20–55) at the final follow-up.ConclusionCurrent follow-up does not allow definitive conclusions. However, the surgical approach adopted in this study seems promising, improving balance and clinical condition of adult patients with a compensated sagittal degenerative imbalance of the thoracolumbar spine. |