Objective: An anatomical study to describe the radiographic pattern of canal, foraminal and lateral recess stenosis in degenerative lumbar stenosis associated with open and closed subluxations of the lumbar spine. Introduction: Degenerative lumbar scoliosis is a three-dimensional deformity frequently associated with facet joint subluxation. It is suggested that the causative mechanism of open subluxation is vertebral rotation, whereas closed subluxation is driven by erosion of the convex facet joint. Patients with degenerative lumbar scoliosis are predominantly symptomatic on standing. However, standing MRI scans are not currently feasible to investigate this dynamic problem, therefore an accurate interpretation of the standing and lateral radiographs is essential to effectively treat this condition. We have undertaken a study to compare standing radiographs with supine MRI to determine the pattern of nerve root entrapment with open and closed facet joint dislocations in DLS. Methods: Plain radiographs and MRI scans of 35 consecutive patients with de novo degenerative lumbar scoliosis (average age 72 years) were evaluated. Radiographic measurements included the angle of the dislocation, degree of translation, position of osteophytes, vertebral rotation and the degree and location of any stenosis present on the axial MRI images. Results: Open dislocations were associated with a pre-dominant contralateral lateral recess and/or foraminal stenosis in 74% of cases. Closed dislocations were associated with ipsilateral lateral recess and/or foraminal stenosis in 82% of cases. Both open and closed dislocations had a similar degree of vertebral rotation. 67% of open subluxations occurred at L3/4. In closed subluxations the most frequent level involved was LI/2 (53% of cases). Open dislocations are located closest to the apex of the curve, with closed dislocations being more peripheral. The curve was noted to rotate towards the apex. Conclusion: Open and closed subluxations of the lumbar spine result in different, but predictable, patterns of stenosis. The findings are important in the diagnosis and planning of treatment in patients with lumbar spinal stenosis, when associated with degenerative scoliosis and lateral spondylolisthesis

The incidence of degenerative scoliosis in the lumbar spine is not known. In the ageing population deformity may coexist or cause stenosis. MRI gives limited information on this important parameter in the treatment of stenosis. The aim of this study was to highlight the incidence of coronal abnormalities of the lumbar spine dependent on age in a large population of patients. We reviewed all abdominal radiographs performed in our hospital over ten months. 2276 radiographs were analysed for degenerative lumbar scoliosis and lateral vertebral slips in patients who are over 20 years. Evidence of osteoarthritis of the spine was also documented. Radiographs were included if the inferior border of T12 to the superior border of S1 was visualised and no previous spinal surgery was evident (metal work). 2233 (98%) radiographs were included. 48% of patients were female. The incidence of degenerative lumbar scoliosis, lateral listhesis and osteoarthritis increased with age. Degenerative scoliosis was present in 1.6% of 30–39 year olds increasing every decade to 29.7% of patients 90 years or older. In all age groups curves were more frequent and had greater average Cobb angles in female patients. Degenerative lumbar scoliosis starts to appear in the third decade of life increasing in frequency every decade thereafter, affecting almost a third of patients in the ninth decade. It is more common in female patients and has a greater magnitude. Deformity may be even greater on standing views and is important to recognise in all patients that are undergoing lumbar spinal decompressive surgery. A failure to do so may lead to inferior results or the need for further surgery

The incidence of degenerative scoliosis in the lumbar spine is not known. In the ageing population deformity may coexist or cause stenosis. MRI gives limited information on this important parameter in the treatment of stenosis. The aim of this study was to highlight the incidence of coronal abnormalities of the lumbar spine dependent on age in a large population of patients. We reviewed all abdominal radiographs performed in our hospital over ten months. 2276 radiographs were analysed for degenerative lumbar scoliosis and lateral vertebral slips in patients who are ≥ 20 years old. Evidence of osteoarthritis of the spine was also documented. Radiographs were included if the inferior border of T12 to the superior border of S1 was visualised and no previous spinal surgery was evident (metal work). 2233 (98%) radiographs were analysed. 48% of patients were female. The incidence of degenerative lumbar scoliosis, lateral listhesis and osteoarthritis increased with age. Degenerative scoliosis was present in 1.6% of 30–39 year olds increasing every decade to 29.7% of patients 90 years or older. In all age groups curves were more frequent and had greater average Cobb angles in female patients except in the 30–39 year olds - where males equalled females. Degenerative lumbar scoliosis starts to appear in the third decade of life increasing in frequency every decade thereafter, affecting almost a third of patients in the ninth decade. It is more common in female patients and has a greater magnitude. Deformity may be even greater on standing views and is important to recognise in all patients that are undergoing lumbar spinal decompressive surgery. A failure to do so may lead to inferior results or the need for further surgery

Introduction: The incidence of degenerative scoliosis in the lumbar spine is not known. In the ageing population deformity may coexist or cause stenosis. MRI gives limited information on this important parameter and is often the only investigation used pre-operatively in the treatment of stenosis. The aim of this study was to highlight the incidence of coronal abnormalities of the lumbar spine dependent on age in a large population of patients requiring abdominal and KUB radiographs at our institution. Method: We reviewed all abdominal and KUB radiographs performed in our hospital in the first ten months from the introduction of our digital PACS system. 2276 radiographs were analysed for the incidence of degenerative lumbar scoliosis and lateral vertebral slips in patients who are ≥ 20 years old, in ten-year age ranges. Evidence of osteoarthritis of the spine was also documented. Radiographs were included if the inferior border of T12 to the superior border of S1 was visualised and no previous spinal surgery was evident (metal work/laminectomy). Results: 2233 (98%) radiographs were analysed. 48% of patients were female. The youngest patient was 20 and the oldest 101 years. The incidence of degenerative lumbar scoliosis, lateral listhesis and osteoarthritis increased with age. In all age groups curves were more frequent and had greater average Cobb angles in female patients except in the 30–39 year olds–where the males equalled females in frequency and had the greatest Cobb angles. Conclusions: Degenerative lumbar scoliosis starts to appear in the third decade of life and increases in frequency every decade thereafter, affecting almost a third of patients in the ninth decade. It is more common in female patients and has a greater magnitude. Deformity may be even greater on standing views and is important to recognise in all patients that are undergoing lumbar spinal decompressive surgery. A failure to do so may lead to inferior results or the need for further surgery

Objective: An anatomical study to describe the radiographic pattern of canal, foraminal and lateral recess stenosis in degenerative lumbar stenosis associated with open and closed subluxations of the lumbar spine. Introduction: Degenerative lumbar scoliosis is a three-dimensional deformity frequently associated with facet joint subluxation. It is suggested that the causative mechanism of open subluxation is vertebral rotation, whereas closed subluxation is driven by erosion of the convex facet joint. Methods: Plain radiographs and MRI scans of 40 consecutive patients with de novo degenerative lumbar scoliosis (average age 72 years) were evaluated. Radiographic measurements included the angle of the dislocation, degree of translation, position of osteophytes, vertebral rotation and the degree and location of any stenosis present on the axial MRI images. Results: Open dislocations were associated with a contralateral lateral recess and/or foraminal stenosis in 85.7% of cases. Closed dislocations were associated with ipsilateral lateral recess and/or foraminal stenosis in 83.3% of cases. Open dislocations had a greater degree of vertebral rotation than closed (10.9° v 7.8°). 56% of open subluxations occurred at L3/4. In closed subluxations the most frequent level involved was LI/2 (36% of cases). Where both subluxations coexisted, the open subluxation was more proximal. Conclusion: Open and closed subluxations of the lumbar spine result in different, but predictable, patterns of stenosis. The findings are important in the diagnosis and planning of treatment in patients with lumbar spinal stenosis, when associated with degenerative scoliosis and lateral spondylolisthesis

Degenerative lumbar scoliosis with lateral deviation of the spine is frequently seen in elderly. Clinical presentation varies. The deformity is often associated with loss of lordosis, axial rotation and spinal stenosis. The operative treatment is a challenge to achieve the greatest benefit with least amount of intervention. Therefore the potential benefit to be obtainened by means of spinal fusion must be measured against the operative risks. A retrospective study was performed to investigate patient outcomes after fusion for degenerative lumbar scoliosis using XIA-Instrumentation. Functional outcome was assessed 2 to 9 years later using the Roland Morris score, a visual analogue scale and the Short Form 36 Health survey. The aim was to determine the effectiveness of the surgical procedure in terms of patient satisfaction, outcome scores and radiological aspects. There is an accepted deficiency of this form of outcomes assessment in the literature. Methods: Final evaluation was possible in 28 patients at a mean period of observation of 48 months. Inclusion criteria were: age ≥60 years, Cobb angle preop. greater than 15degrees, degenerative deformity, no prior surgery (spine), and complete records. Each patient completed the standard Short Form-36 (SF-36) questionnaire. Radiographic and clinical data were evaluated. The measures of outcomes assessment included patient satisfaction, pain scores, low back outcome, medication use and social status. Results: Questionnaire data indicated good satisfactory and bad surgical results in 9 (32%), 12 (43%) and 7 (25%) patient. Scoliosis was converted from a mean preoperative Cobb angle of 17 degrees to 10 degrees. On an average of 5 spinal segments were instrumented and fused. In the first two years after spinal fusion the patient satisfaction was about 90%. In the following years until final evaluation the satisfaction rate decrease continuously by all patients often caused by adjacent instability of neighbouring unfixed motion segments. No pseudarthrosis were seen in final evaluation. Conclusion: Proper preoperative planning, a sufficient fusion length and a good biomechanical properties of the used implants, such as XIA, are prior to prevent adjacent instability and can achieve satisfactory results with less operative risks

During the last 2 decades it has been recognized that scoliosis may start de novo during adult life as a result of advanced degenerative disc disease, osteoporosis or both. In some the degenerative process is superimposed on a previous adolescent curve. Aside from the disfigurement caused by the spinal deformity, pain and disability are usually the major clinical problem. The prevalence of adult scoliosis rises with age: from 4% before age 45, 6% at age 59 to 15% in-patients older than 60 years. More than two thirds of the patients are females and the prevalence of right lumber curves is higher than in comparable series of patients with adolescent scoliosis. Adult scoliosis is characterized by vertebral structural changes with translatory shifts i.e. lateral olisthesis accompanied by degenerative disc and facet joint arthrosis. Although the magnitude of these curves is usually mild (20–30 degrees) lateral spondylolisthesis is observed frequently. It is also common to observe degenerative spondylolisthesis in patients with degenerative lumbar scoliosis. The annual rate of curve progression ranges from 0.3 to 3%. Patients present with a history of a spinal deformity accompanied by loss of lumbar lordosis, trunk imbalance and significant mechanical back pain. Pain may arise not only from degenerative disc disease and facet arthritis leading to symptoms of spinal stenosis, but also from muscle fatigue due to the altered biomechanics secondary to a deformity in the coronal and sagittal planes. Root entrapment is common and occurs more often on the concavity of the curve. Symptoms of neurogenic claudication are also common in adults with lumbar scoliosis. Non-operative care includes exercises, swimming, NSAIDs, and occasional epidural injections. Brace treatment can be tried as well. Curve progression as well as axial or radicular pain not responding to non-operative care are indications for surgical intervention. Surgery may include decompression alone or in conjunction with curve correction and stabilization. Posterior instrumentation may be supplemented with interbody cages. Fusion is usually carried down to L5 but occasional instrumentation to the sacropelvis is mandatory. Problems with a high pseudoarthrosis rate are common with sacral fixation. Even in the best of hands a long recovery period (6–12 month) and moderate pain relief should be expected. As summarized by Dr. Bradford “despite recent advancements evaluation and successful management of patients with adult spinal deformity remains a significant challenge”