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Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XXXVII | Pages 276 - 276
1 Sep 2012
Arndt J Charles Y Bogorin I Steib J
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Introduction

Degenerative disc disease results from mechanical alteration of the intervertebral disc. Biochemical modifications of the nucleus matrix are also incriminated. Furthermore, genetic predispositions as well as vascular factors have been advocated in the process of disc degeneration. A relationship between sciatica and Propionibacterium acnes has been described. However, it remains unclear if the hypothesis of a subclinical spondylodiscitis might play a role in the pathophysiology of degenerative disc disease. The purpose of this study was to analyze the possible presence of bacteria in lumbar discs of patients with degenerative disc disease.

Methods

We prospectively analyzed the presence of bacteria in 83 patients (34 males and 49 females, average age 41 years) treated by lumbar disc replacement at L3-L4, L4-L5 or L5-S1. An intraoperative biopsy and microbiological culture were performed for each disc to determine if intradiscal bacteria were present. Great care was taken to avoid any source of contamination during the conditioning process of the biopsy. Microbiological results were compared to the magnetic resonance stages of disc degeneration according to the Pfirrmann and Modic classifications. Possible sources of previous iatrogenic disc contamination after discography or nucleotomy were analyzed.


Orthopaedic Proceedings
Vol. 92-B, Issue SUPP_II | Pages 344 - 344
1 May 2010
Charles Y Barbe B Bogorin I Beaujeux R Steib J
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Introduction: The lumbosacral medulla is vascularized by the Adamkiewicz arteria which irrigates the anterior spinal arteria. Occlusion or section of the Adamkiewicz arteria may induce an ischemia of the medulla during anterior or transforaminal spine surgery. An angiography allows to determine the exact topography of this artery. The purpose of this study was to describe its preoperative topography and to analyze the impact of angiography on the surgical strategy.

Methods: In this retrospective study, 100 preoperative medullar angiographies, performed by a vascular radiologist between january 1998 and august 2007, were reviewed. Surgical indications were: 50 vertebrectomies in tumors, 20 anterior fusions in dorsolumbar fractures, 10 anterior fusions in malunions, 10 anterior releases in scoliosis, 3 transpedicular osteotomies, 7 disc hernias (T7-L4). The level and the side of foraminal entrance of the Adamkiewicz arteria and collateral arterias irrigating the anterior spinal arteria were analyzed. We looked for the occurence of postoperative ischemic signs of the medulla. Modifications of surgical planning because of Adamkiewicz’ arteria topography were noted. The possibilities of preoperative tumor embolisation were analyzed.

Results: The Adamkiewicz arteria was always localized between T8 and L3. It was present at the foraminal levels L1/L2 or L2/L3 in 48% of the cases. The left side was concerned in 65% of the cases. A modification of the surgical strategy was noted in 16% of the cases: 12 side changements of operative approach, 4 contra-indications for anterior surgery. An ischemic syndrome of the anterior lumbosacral medulla were not found. In the group of tumors, the preoperative angiography allowed to perform a selective embolisation of tumor vessels in 80% of the cases. In all other cases, the tumor vascularisation was common with the vascularisation of the medulla which could have made the embolisation dangerous.

Conclusion: Although the occurence of a lumbosacral medullar ischemia secondary to an Adamkiewicz arteria lesion is rarely reported in the literature, the preoperative angiography reduces this potential risk. The exact knowledge of the anterior medullar vascularisation allows to better plan the surgical strategy and to adapt the side of operative approach. Furthermore, the angiography enables to perform a selective embolisation of tumors safely.


Orthopaedic Proceedings
Vol. 90-B, Issue SUPP_II | Pages 246 - 246
1 Jul 2008
CHARLES Y MARCOUL M BOURGIN J MARCOUL A DIMÉGLIO A
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Purpose of the study: Idiopathic scoliosis is a tridimensional deformation of the spine. For an overall description of the deformation, it is important to determine the exact deformation in each dimension to identify the topography and amplitude of the curvatures as well as the sagittal balance and vertebral rotation. Scoliosis is actually a deformation of the thoracic cage, which could be considered as its fourth dimension. The purpose of this study was to measure thoracic parameters, particularly thoracic volume, as a function of spinal curvature and growth in children. The goal was to better describe the deformation and difference in comparison with the normal population.

Material and methods: In this prospective study, The Orten (Lyon) optical acquisition system was used to fashion a corset for 130 patients (110 girls, 20 boys, aged 4–16 years) with idiopathic scoliosis. The volume, circumference, anteroposterior and frontal diameters as well as the lengths T1–T12 and sternum were noted. These data were confronted with the clinical growth parameters: age, height in the upright and sitting position, body length, body weight, body mass index. Thoracic curvatures were measured using the Cobb system (15–45°). The vertebral rotation component was noted. In order to compare these pathological data with those observed in a normal population, the same optical acquisition protocol was performed in a control group of 65 girls and 61 boys free of thoracic deformation.

Results: There was no significant difference in thoracic volume relative to the different growth parameters between the control group and the scoliosis group (Wilcoxon test: p=0.056). There was a correlation between thoracic volume (3–17 dm3) and age: boys r=0.75 and girls r=0.74. At about 4 years, thoracic volume was on average 33% of volume attained at puberty and at 10 years, 55%. These reference points were true for girls and for boys in the scoliosis and the control groups. The following relationships between thoracic measurements and sitting height were found to remain unchanged during growth: frontal diameter is about 30% of sitting height; anteroposterior diameter is equal to the length of the sternum and is about 20% of sitting height.

Discussion and conclusion: The Orton optical acquisition system can be used to describe quantitatively the deformation of the thoracic cage caused by scoliosis. There was however no significant difference in thoracic volume between the normal controls and the scoliosis children with a curvature < 45°. Major scoliosis leads to deformation of the vertebral bodies and thus the thorax. This fourth dimension of the deformation should be taken into consideration when establishing the treatment by corset or surgery. This study described the thoracic parameters observed during growth in children with mild to moderate scoliosis. A later study on more severe forms will complete these data and enable an objective assessment of the thoracic deformation.