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  • Title: An in vitro biomechanical study of a multiplanar circular external fixator applied to equine third metacarpal bones.
    Author: Cervantes C, Madison JB, Miller GJ, Casar RS.
    Journal: Vet Surg; 1996; 25(1):1-5. PubMed ID: 8719080.
    Abstract:
    The biomechanical characteristics of a 4-ring circular multiplanar fixator applied to equine third metacarpal bones with a 5 mm mid-diaphyseal osteotomy gap were studied. Smooth Steinmann pins, either 1/8 inch, 3/16 inch, or 1/4 inch, were driven through pilot holes in the bone in a crossed configuration and full pin fashion and fastened to the fixator rings using cannulated fixation bolts. The third metacarpal bone fixator constructs were tested in three different modes (cranial-caudal four-point bending, axial compression, and torsion). Loads of 2,000 N were applied in bending and axial compression tests and a load of 50 N x m was applied during testing in torsion. Fixator stiffness was determined by the slope of the load displacement curves. Three constructs for each pin size were tested in each mode. Comparisons between axial stiffness, bending stiffness, and torsional stiffness for each of the three different pin sizes were made using one-way analysis of variance. There was no visually apparent deformation or permanent damage to the fixator frame, and no third metacarpal bone failure in any of the tests. Plastic deformation occurred in the 1/8 inch pins during bending, compression, and torsion testing. The 3/16 inch and 1/4 inch pins elastically deformed in all testing modes. Mean (+/-SE) axial compressive stiffness for the 1/8 inch, 3/16 inch, and 1/4 inch pin fixator constructs was: 182 +/- 16 N/mm, 397 +/- 21 N/mm, and 566 +/- 8.7 N/mm; bending stiffness was 106 +/- 3.3 N/mm, 410 +/- 21 N/mm, and 548 +/- 12 N/mm; and torsional stiffness was 6.15 +/- 0.82 N x m/degree, 7.14 +/- 0.0 N x m/degree, and 11.9 +/- 1.0 N x m/degree respectively. For statically applied loads our results would indicate that a 4-ring fixator using two 1/4 inch pins per ring may not be stiff enough for repair of an unstable third metacarpal bone fracture in a 450 kg horse.
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