Abstract
Fine-wire fixators are a powerful tool in the management of acute fractures, non-unions, mal-unions and limb lengthening. The tension in the wires is very important in achieving stiffness of the whole fixator construct and current guidelines suggests tensioning wires to 900-1275N. There is evidence that during long term use the tension in the wires can reduce significantly. The effects of a reduction in tension on the fixator stiffness has been well characterised however the effect on the stresses imparted on the bone at the interface with the wire remain unknown. The main aim of this study was to identify any relationship between wire tension and wire-bone interface pressure.
An experimental system utilizing artificial cancellous bone mounted on a tensioned 2mm wire and then loaded by a material testing machine was employed. Pressure sensitive film allowed determination of interface stresses. The experiment was repeated at wire tensions of 600, 900 and 1200N. All other variables were kept the same during testing.
The highest pressures were found closest to the wire. At 1200N the peak pressures were 6-8 MPa, at 900N of tension the pressures rose to 8-10 MPa and at 600N pressures up to 14 MPa were observed. Deeper in the bone the pressures observed at 600N tension were double that seen at 1200N.
This is the first characterisation of the relationship between interface pressure and wire tension in fine-wire fixators. At 1200N the highest pressures are less than the compressive yield strength of cancellous bone whereas at both 600 and 900N pressures are greater than the yield which may lead to loosening. We therefore conclude that a tension of 1200N be employed when applying fine-wire fixators and during long term treatments the tensions should be regularly monitored to prevent loss of tension.
Correspondence should be addressed to Mr Carlos Wigderowitz, Senior Lecturer, University Department of Orthopaedic and Trauma Surgery, Ninewells Hospital and Medical School, Dundee DD1 9SY.