X-RAY BEAM GEOMETRY AS APPLIED TO CIRCULAR EXTERNAL FIXATOR IMAGING

Abstract

IntroductionThe various problems that are managed with circular external fixation (e.g. deformity, complex fractures) also typically require serial plain x-ray imaging.One of the challenges here is that the relatively radio-opaque components of the circular external fixator (e.g. the rings) can obscure the view of the area of interest (e.g. osteotomy site, fracture site).In this presentation we describe how the geometry of the x-ray beam affects the produced image and how we can use knowledge of this to our advantage.Whilst this can be applied to any long bone, we have focused on the tibia, given that it's the most common long bone that is treated by circular external fixation.Materials & MethodsIn the first part of the presentation we describe the known attributes (geometry) of the x-ray beam and postulate what effect it would have when we x-ray a long bone that is surrounded by a circular external fixator.In the second part we demonstrate this in practice using a tibia and a 3 ring circular external fixator. Differing x-ray beam orientations are used to demonstrate both how the geometry of the beam affects the produced image and how we can use this to our advantage to better visualise part of the bone.ResultsThe practical part of the study confirmed the theoretical part.ConclusionsKnowledge of the beam geometry can be used to minimise the obscuring nature of the circular fixator. This technique is simple and can be easily taught to the radiographer. It is a useful adjunct for the limb reconstruction surgeon.