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Orthopaedic Proceedings
Vol. 104-B, Issue SUPP_11 | Pages 32 - 32
1 Nov 2022
Bernard J Bishop T Herzog J Haleem S Ajayi B Lui D
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Abstract

Aims

Vertebral body tethering (VBT) is a non-fusion technique to correct scoliosis allowing correction of scoliosis through growth modulation (GM) by tethering the convex side to allow concave unrestricted growth similar to the hemiepiphysiodesis concept. The other modality is anterior scoliosis correction (ASC) where the tether is able to perform most of the correction immediately where limited growth is expected.

Methods

A retrospective analysis of 20 patients (M:F=19:1 – 9–17 years) between January 2014 to December 2016 with a mean five-year follow-up (4 to 7).


Orthopaedic Proceedings
Vol. 101-B, Issue SUPP_14 | Pages 5 - 5
1 Dec 2019
Jean-David A Corvec ML Antoine M Xavier G Claire D Sylvie H Claudie G Emmanuel H Goff BL Sandrine J Bernard J Olivier S Pascal G Loreal O
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Background

Septic arthritis diagnostic is an emergency which implies a treatment with antibiotics and hospitalization. The diagnosis is based on the cytobacteriological examination of the synovial fluid (SF), but direct bacteriological examination is insensitive, and the result of the culture is obtained only after several days. Therefore, there is still a need for a rapid, simple and reliable method for the positive diagnosis of septic arthritis. Such method must allow avoiding both unrecognized septic arthritis leading to major functional consequences, and overdiagnosis that will induce unnecessary expensive hospitalization and unjustified treatment. Mid-infrared (MIR) spectroscopy, that gives a metabolic profiling of biological fluids, has been proposed for early and fast diagnosis.

Objectives

To confirm the MIR spectroscopy to discriminate SF samples from patients with septic arthritis from other causes of joint effusion.


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_III | Pages 99 - 99
1 Feb 2012
Aarvold A Casey A Bernard J
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Introduction

Atlanto-occipital dislocation is rare and usually fatal. Stabilisation is typically from Occiput to C2, sacrificing atlanto-axial movement. To preserve movement, screw fixation from the articular mass of C1 to the occipital condyle has been described. Amongst other structures, the hypoglossal nerve is at risk. No previous study has addressed the anatomy of the hypoglossal canal in relation to screw trajectory. We aim to identify landmarks to aid safe screw passage into the occipital condyle.

Methods

20 dry skulls provided 40 hypoglossal canals (HCs) and 40 occipital condyles (OCs). No distinction was made between sex, race or age. 9 parameters were measured for each HC, and relation to skull base was noted.