Although the association between osteoporosis and adolescent idiopathic scoliosis (AIS) has become widely accepted, the mechanism behind the development of osteoporosis and AIS remains unknown. To elucidate this relationship, we investigated the radiological and histological changes in a model of scoliosis in chickens, focusing on the cervical vertebrae that are not affected by scoliosis. 40 newly hatched broiler chickens were divided randomly into four equal groups: sham-operated chickens serving as control (CNT); pinealectomised chickens (PNX); and sham-operated (CNT+MLT) and pinealectomized chickens (PNX+MLT) that received intraperitoneal administration of MLT (8 mg/kg) at 2200 h daily. Pinealectomies were done at the age of 3 days. Before killing the chickens at 2 months of age, blood samples were collected at midnight and MLT concentrations were measured by radioimmunoassay. Post-mortem radiographs were examined for the presence of scoliosis, and microcomputed tomography (micro-CT) images were taken to assess the microstructure of the cervical vertebrae. Histological specimens of the scanned cervical vertebra were prepared, and a mid-sagittal section was stained with haematoxylin and eosin (HE) and tartrate-resistant acid phosphatase (TRAP) to assess the numbers of osteoblasts and osteoclasts, respectively.Introduction
Methods
Expandable prostheses were designed to allow progressive growth after tumour resection in children. The aim of this study was to report the late results of the non-invasive growing prostheses designed by A Soubeyran (Phenix prosthesis or Wright Repiphysis). From 1994 to January 2006, 27 children aged 4 to 12 (mean 8.5), underwent a resection of the knee for a bone tumour, with reconstruction by a non invasive expandable prosthesis. There were 16 boys and 11 girls. The tumours were 25 osteosarcomas and 2 Ewing tumours. All patients received pre and post-operative chemotherapy. There were 18 distal femur, 7 proximal tibia, and 2 femur + tibia resections. There were different successive designs based on the same electro-magnetic growing mechanism using a pre bent spring, released by eating in an induction coil. After, 7.2 years mean follow-up (4 months to 15 years), 20 patients had no evidence of disease and 7 were deceased. Two with a local recurrence were amputated. Mean lengthening was 5.1 centimeters (0 to 8), after 3 to 11 lengthening procedures. Mean limb-length discrepancy was 1.8 cm. Two patients had a secondary infection. Eleven had a revision for arthrofibrosis. All surviving patients were revised to a conventional hinged prosthesis. The mean MSTS functional score of the definitive prosthesis was 82% (63 to 96%). Theses prostheses showed many mechanical complications as loosening, fracture of the growing mechanism, and arthrofibrosis. The positive outcome was the possibility to perform a progressive lengthening, without surgery limiting the risk of infection. Theses prostheses should be considered as temporary until reconstruction with a conventional hinged prosthesis. Patients with multiple revisions had a tendency to show less favourable late functional results than with primary implanted hinged prosthesis.
Pearson’s correlation coefficient between deformity angles obtained by the two methods was highly significant (0.86) with a P value <
0.0001. The measurements from four independent sites were not significantly different.
After in vitro validation based on 24 specimens and 4 different instrumentations, the model was used to simulate real cases. Applied loads were based on patient characteristics (weight, imbalance). Simulation results included mechanical stresses in the discs and within the implants. Clinical consistency of the simulations was tested through the gathering of clinical data for 66 patients instrumented with lumbo-sacral rigid screw-rod systems. Two subsets were considered: “mechanical successes” (53), and “mechanical failures” (13, including 11 screw breakage and 2 screw loosening). Blind comparison was then performed between these observed clinical outcomes and numerical simulations results.
Supported by the Fondation Yves Cotrel, Institut de France.
Reductions in radiation exposure of x8 to x10 fold in 2D, and x800 to x1000 in 3D. It gives data from standing imaging compared with supine in a CT scanner. It allows imaging of the skeleton from head to foot, which in CT imaging demands excessive radiation. It allows surface reconstruction from head to foot It can be used with a force plate to indicate gravity forces It, uniquely, can give a view of the skeleton from the top It can measure thoracic cage volume It can assess the effects of bracing When combined with other non-invasive methods of measurement, can help to define operative procedures Overall it provides a new approach to assessing spinal deformity both in the horizontal plane and in volumetric measurement.
Graft lengths varied from nine to 21 cm (mean 14 cm). Plate fixation was used in most cases. All patients wore a cast for six to twelve weeks after surgery.
Methods and results: From the last 15 years, we have observed 18 cases from various aetiologies of compression of the airway by the “billot” created by the protrusion of the vertebral bodies inside the thoracic cage. This status lead to atelectasia intermittent or permanent with subsequent recurrent lung infection and sometimes abscesses with impairment of the respiratory function perfectly demonstrated by CT scan as well as with bronchoscopy showing extrinsic bronchi stenosis. Such pathology necessitates an anterior vertebral body resection for decompression of the airway done in 15 patients and sometimes partial lung removal lobectomy done in 4 cases. Subsequently repeated lung infection disappeared in all cases but vital capacity only improved by 2%. Discussion: This pushed us to study this point and to propose a new 3D entity called spinal penetration index seen as well on regular CT scan cut of the chest as on 3D volumetric reconstruction representing the amount of vertebral, rib, soft tissues and sometimes empty space protruding inside the thoracic cage. This presented as an endothoracic vertebral hump compared to the exothoracic classical rib hump. Compared to normal subject where the amount is less than 10%, it can reach 50% in some severe scoliotic cases. The deformity is evident and can be quantified easily with a computer programme. Done today with regular CT scan cuts at rest, in the near future this will be obtained with regular stereographic X-rays in a much less invasive manner with low dose radiation. Conclusion: The spinal penetration index measure in 3D is the amount of protrusion of the spine and surrounding tissues inside the thoracic cage. It is an anatomical parameter entering into the measurement on the useful thoracic volume for breathing given by the thoracic skeleton. It is very different from vital capacity where diaphragm, joints, muscle function play an important role. This concept allows to quantify in 3D the results of surgery of the spine in a much better way for 3D consideration than the classical Cobb angle. It helps also for analysis of the chest for example before and after thoracoplasty and allows to classify the rib hump and the vertebral hump in a logical way with their therapeutic consequences.
Purpose of the study: To analyse post-operative imbalance after C.D.I. (Cotrel Dubousset Instrumentation) for idiopathic scoliosis according to the fused area, particularly the lower level of fusion. To recall a classification for determination of fusion area based on pre-operative standing coronal radiograph. Patients and methods: To be included in this study the patients had to have an adolescent idiopathic scoliosis, at least two years of post-operative follow up. One hundred and twenty-two patients met the criteria; mean follow-up was three years, five months (minimum two years, maximum nine years). Scoliotic curves were classified as single structural (81), double structural (41). Balance was clinically analysed by plumbline, radiographically by a plumbline dropped from C7 to the sacrum and measuring deviation from the midpoint of the sacrum in centimetres. A curve with a deviation of 10 mms or less was considered as balanced. Results: Imbalance in single structural curves was 70% when using stable vertebra (King) or “other vertebra” (beyond stable vertebra or one or two levels upper stable vertebra). Using end vertebra (J.MOE), (elected vertebra – C. Salanova) imbalance was 10%. In double structural (41 cases) imbalance was 50% using stable, or “other vertebra” 10% when elected vertebra was fused. Conclusion: In this study there was a strong statistical relationship between the lower level of fusion and imbalance.