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An in vitro biomechanical comparison of two interlocking-nail systems for fixation of ostectomized equine third metacarpal bones.
Abstract: To compare the mechanical properties of 2 interlocking-nail systems for fixation of ostectomized equine third metacarpi (MC3): (1) a standard interlocking nail with 2 parallel screws proximal and distal to a 1-cm ostectomy; and (2) a modified interlocking nail with 2 screws proximal and distal to a 1-cm ostectomy with the screws offset by 30 degrees. Methods: Twelve pairs of adult equine forelimbs intact from the midradius distally. Methods: Twelve pairs of equine MC3 were divided into 2 test groups (6 pairs each): torsion and caudocranial 4-point bending. Standard interlocking nails (6-hole, 13-mm diameter, 230-mm length) were placed in 1 randomly selected bone from each pair. Modified interlocking nails (6-hole, 13-mm, 230-mm length, screw holes offset by 30 degrees) were placed in the contralateral bone from each pair. All bones had 1-cm mid-diaphyseal ostectomies. Six construct pairs were tested in caudocranial 4-point bending to determine stiffness and failure properties. The remaining 6 construct pairs were tested in torsion to determine torsional stiffness and yield load. Mean values for each fixation method were compared using a paired t test within each group. Significance was set at P <.05. Results: Mean (+/-SEM) values for the MC3-standard interlocking-nail composite and the MC3-modified interlocking-nail composite, respectively, in 4-point bending were: composite rigidity, 3,119 +/- 334.5 Nm/rad (newton. meter/radian) and 3,185 +/- 401.2 Nm/rad; yield bending moment, 205.0 +/- 18.46 Nm and 186.7 +/- 6.17 Nm; and failure bending moment, 366.4 +/- 21.82 Nm and 378.1 +/- 20.41 Nm. There were no significant differences in the biomechanical values for bending between the 2 fixation methods. In torsion, mean (+/-SEM) values for the MC3-standard interlocking-nail composite and the MC3-modified interlocking-nail composite were: composite rigidity, 135.5 +/- 7.128 Nm/rad and 112.5 +/- 7.432 Nm/rad; gap stiffness, 207.6 +/- 10.57 Nm/rad and 181.7 +/- 12.89 Nm/rad; and yield load, 123.3 +/- 2.563 Nm and 107.5 +/- 8.353 Nm, respectively. Composite rigidity and gap stiffness for standard interlocking-nail fixations were significantly higher than the modified interlocking-nail fixation technique in torsion. Yield load had a tendency to be higher for the standard interlocking-nail fixation (P =.15). Conclusions: No significant differences in biomechanical properties were identified between a standard interlocking nail and one with the screw holes offset by 30 degrees in caudocranial 4-point bending. The standard interlocking nail was superior to the modified interlocking nail in torsional gap stiffness and composite rigidity. The torsional yield load also tended to be higher for the standard interlocking nail. Conclusions: The standard interlocking nail with parallel screw holes is superior to a modified interlocking nail with the screw holes offset by 30 degrees in ostectomized equine MC3 bones in vitro when tested in torsion.
Copyright 2001 by The American College of Veterinary Surgeons
Publication Date: 2001-05-08 PubMed ID: 11340556DOI: 10.1053/jvet.2001.23346Google Scholar: Lookup The Equine Research Bank provides access to a large database of publicly available scientific literature. Inclusion in the Research Bank does not imply endorsement of study methods or findings by Mad Barn.
- Comparative Study
- Journal Article
- Research Support
- Non-U.S. Gov't
Summary
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This research compares the effectiveness of two interlocking-nail systems used to fix ostectomized (or surgically cut) equine third metacarpal bones (MC3) – a standard model and a modified version with screws set at a 30 degree offset. The study found that the standard interlocking nail offered superior biomechanical properties in torsional tests, but both systems performed similarly in caudocranial 4-point bending tests.
Research Methodology
- Twelve pairs of adult horse MC3s were used in the study and divided into two equal groups for distinct tests – torsion and four-point bending.
- In one bone from each pair, a standard interlocking nail (6-hole, 13-mm diameter, 230-mm length) was inserted.
- A modified interlocking nail (6-hole, 13-mm, 230-mm length, with screw holes offset by 30 degrees) was inserted in the other bone from each pair.
- All test bones had a 1-cm mid-diaphyseal ostectomy, or surgical cut, applied.
- Six construct pairs were tested in caudocranial 4-point bending to determine stiffness and failure properties.
- The remaining six construct pairs were tested in torsion to determine torsional stiffness and yield load.
- A paired t test was performed to compare the mean values for each fixation method within each group.
Research Findings
- During 4-point bending tests, no significant differences were noted in biomechanical properties between the standard and modified interlocking nails.
- In torsion tests, both composite rigidity and gap stiffness were significantly higher for the standard interlocking nail fixations compared to the modified technique.
- Yield load also tended to be higher for the standard interlocking nail, although this was not statistically significant (P =.15).
Conclusions
- The standard interlocking nail with parallel screw holes outperformed the modified version when applied to ostectomized equine MC3 bones and tested in torsion conditions in vitro.
- Both the standard and the modified interlocking nails showed similar results during the caudocranial 4-point bending tests.
- These results have important implications for surgical approaches for treating bone fractures in equine patients, suggesting that the standard interlocking nail system may offer superior support in certain physical stress scenarios.
Cite This Article
APA
Lopez MJ, Wilson DG, Trostle SS, Markel MD.
(2001).
An in vitro biomechanical comparison of two interlocking-nail systems for fixation of ostectomized equine third metacarpal bones.
Vet Surg, 30(3), 246-252.
https://doi.org/10.1053/jvet.2001.23346 Publication
Researcher Affiliations
- Comparative Orthopaedic Research Laboratory, School of Veterinary Medicine, University of Wisconsin, Madison, WI 53706, USA.
MeSH Terms
- Animals
- Biomechanical Phenomena
- Bone Nails / standards
- Bone Nails / veterinary
- Bone Plates / veterinary
- Forelimb
- Fracture Fixation, Internal / methods
- Fracture Fixation, Internal / veterinary
- Fractures, Bone / surgery
- Fractures, Bone / veterinary
- Horses / injuries
- Horses / surgery
- Metacarpal Bones / injuries
- Metacarpal Bones / surgery
- Torsion Abnormality / veterinary
Citations
This article has been cited 1 times.- Lang JJ, Li X, Micheler CM, Wilhelm NJ, Seidl F, Schwaiger BJ, Barnewitz D, von Eisenhart-Rothe R, Grosse CU, Burgkart R. Numerical evaluation of internal femur osteosynthesis based on a biomechanical model of the loading in the proximal equine hindlimb. BMC Vet Res 2024 May 10;20(1):188.
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