Abstract

BackgroundExternal fixation improves open fracture management in emerging countries. However, sophisticated models are often expensive and unavailable. We assessed the biomechanical properties of a low-cost external fixation system in comparison with the Hoffmann® 3 system, as a reference.MethodsTransversal, oblique, and comminuted fractures were created in the diaphysis of tibia sawbones. Six external fixators were tested in three modes of loading—axial compression, medio-lateral (ML) bending, and torsion—in order to determine construction stiffness. The fixator construct implies two uniplanar (UUEF1, UUEF2) depending the pin-rods fixation system and two biplanar (UBEF1, UBEF2) designs based on different bar to bar connections. The designed low-cost fixators were compared to a Hoffmann® 3 fixator single rod (H3-SR) and double rod (H3-DR). Twenty-seven constructs were stabilized with UUEF1, UUEF2, and H3-SR (nine constructs each). Nine constructs were stabilized with UBEF1, UBEF2, and H3-DR (three constructs each).ResultsUUEF2 was significantly stiffer than H3-SR (p < 0.001) in axial compression for oblique fractures and UUEF1 was significantly stiffer than H3-SR (p = 0.009) in ML bending for transversal fractures. Both UUEFs were significantly stiffer than H3-SR in axial compression and torsion (p < 0.05), and inferior to H3-SR in ML bending, for comminuted fractures. In the same fracture pattern, UBEFs were significantly stiffer than H3-DR (p = 0.001) in axial compression and torsion, while only UBEF1 was significantly stiffer than H3-DR in ML bending (p = 0.013).ConclusionsThe results demonstrated that the stiffness of the UUEF and UBEF device compares to the reference fixator and may be helpful in maintaining fracture reduction. Fatigue testing and clinical assessment must be conducted to ensure that the objective of bone healing is achievable with such low-cost devices.

Highlights

  • External fixation improves open fracture management in emerging countries

  • A post hoc Tukey test revealed that both Unilateral uniplanar external fixator (UUEF) were stiffer than Hoffmann® 3 fixator single rod (H3-SR) in axial compression and torsion

  • Hoffmann® 3 (H3)-SR was stiffer than both UUEFs in ML bending

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Summary

Introduction

External fixation improves open fracture management in emerging countries. sophisticated models are often expensive and unavailable. The generally poor infrastructure and hygiene conditions make it Kouassi et al Journal of Orthopaedic Surgery and Research (2020) 15:247 dilemma to the healthcare industry in poorer countries where there may be patients in need who are unable to afford optimum medical care One way around this is to reduce the cost of manufacturing a typical fixator so that it is more affordable. This could be brought about by varying the choice of material to make the fixator, the overall product finish, and overall complexity of the design [6] With all these considerations in mind, the new low-cost external fixators, 304 L stainless steel external fixator (biplanar and unilateral) was designed for the treatment of simple and comminuted patterns. The aim of this study was to determine the biomechanical characteristics of a low-cost external fixator in comparison with a validated reference fixator

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