A comparison of ultra-high-molecular weight polyethylene cable and stainless steel wire using two fixation techniques for repair of equine midbody sesamoid fractures: an in vitro biomechanical study.
Abstract: To compare the monotonic tensile and fatigue strength of 16-gauge stainless steel wire (SSW) to ultra-high-molecular weight polyethylene (UHMWPE) cable using a transfixed cerclage technique in an in vitro midbody sesamoid osteotomy model. Endoscopic modifications to Martins transfixed cerclage technique were developed. A new suture technique of fixation was compared with the transfixed cerclage technique by measuring gap formation after cyclic testing. Methods: An in vitro biomechanical paired equine cadaver limb study. Methods: Twenty-one paired cadaveric adult equine forelimbs. Methods: Uniaxial medial midbody sesamoid osteotomies were created in paired adult equine forelimbs. Monotonic tensile strength was measured on 10 forelimbs repaired by a transfixed cerclage technique using wire or cable. Fatigue testing to failure was performed on 4 forelimbs repaired using the transfixed cerclage technique by cycling the limbs between 500 N and 2,000 N. The limbs were initially repaired with wire, cycled until the wire broke, then repaired with cable and cycled again to failure. Fatigue testing for gap displacement was performed on 8 limbs repaired with either the transfixed cerclage technique or the suture technique. Limbs were cycled between 500 N and 2,000 N for 10,000 cycles. The limbs were repaired with wire initially, tested, and then repaired with cable and tested again. Twenty-two limbs were used for mechanical testing. The remaining limbs (20) were used to develop and practice the endoscopic transfixed cerclage (10 limbs) and suture (10 limbs) techniques. Results: Ultimate tensile strength (UTS) of UHMWPE cable constructs was 34% greater than the UTS of SSW constructs. Fatigue strength was 2 to 20 times greater for UHMWPE cable constructs than SSW constructs. Separation of fragments was 153% less for limbs repaired by the suture technique compared with those repaired by the transfixed cerclage technique. Conclusions: UHMWPE cable shows promise for this clinical application because of its greater tensile and fatigue strength. The newly described suture technique significantly reduced gap formation compared with the transfixed cerclage technique. Osteotomy gap formation occurred early in cycling, suggesting that rigid support in the form of a cast may be needed during the early postoperative period for wiring techniques. Conclusions: Clinical testing of UHMWPE cable should eliminate problems of wire breakage seen with SSW. The endoscopic transfixed cerclage technique can be used by surgeons familiar with arthroscopic surgery. However, the suture technique needs to be tested in vivo to determine whether there is a clinical advantage compared with the transfixed cerclage technique.
Copyright 2002 by The American College of Veterinary Surgeons
Publication Date: 2002-09-05 PubMed ID: 12209415DOI: 10.1053/jvet.2002.34668Google Scholar: Lookup
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- Comparative Study
- Evaluation Study
- Journal Article
- Research Support
- Non-U.S. Gov't
Summary
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The study compared the strength of two different materials, ultra-high-molecular weight polyethylene cable and stainless steel wire, for the repair of fractures in horse limbs. The results showed that the polyethylene cable was stronger and more resistant to fatigue, and a newly developed suture technique helped to reduce the likelihood of gap formation at the fracture site.
Research Overview
- This research looked at two methods for repairing equine midbody sesamoid fractures, using two different materials: 16-gauge stainless steel wire (SSW) and ultra-high-molecular weight polyethylene (UHMWPE) cable.
- The team performed an in vitro study whereby they conducted monotonic tensile strength and fatigue testing on pairs of cadaveric adult equine forelimbs. They aimed to assess the strength and resilience of the two materials and the fixation techniques.
Methodology
- The researchers created uniaxial medial midbody sesamoid fractures in the cadaveric horse limbs and then repaired them using either SSW or UHMWPE.
- The two repair methods used were the transfixed cerclage technique and a newly developed suture technique. The limbs were then subjected to various forces and cycles to test the tensile and fatigue strength of each repair.
- Gap displacement, or separation of the fracture fragments, was also measured in limbs repaired with different techniques to compare their efficacy.
Results
- The findings revealed that the UHMWPE cable constructs had ultimate tensile strength 34% greater than that of SSW constructs.
- The fatigue strength was also 2 to 20 times greater for UHMWPE cable constructs than for SSW. Therefore, UHMWPE showed potential for advantageous usage over SSW owing to its superior tensile strength and resistance to fatigue.
- The new suture technique significantly reduced separation of the fracture fragments compared to the traditional transfixed cerclage technique, by 153%.
Conclusions and Recommendations
- Based on the results, the study recommended clinical testing of UHMWPE cable to potentially replace the SSW currently used, thus addressing the problem of wire breakage.
- Based on the findings, the researchers also suggested that the suture technique should be tested in vivo to confirm its potential advantages over the transfixed cerclage technique.
- Additionally, the study suggested that a more rigid form of support, such as a cast, may be required during the early postoperative period due to the early occurrence of osteotomy gap formation during the cycling.
Cite This Article
APA
Rothaug PG, Boston RC, Richardson DW, Nunamaker DM.
(2002).
A comparison of ultra-high-molecular weight polyethylene cable and stainless steel wire using two fixation techniques for repair of equine midbody sesamoid fractures: an in vitro biomechanical study.
Vet Surg, 31(5), 445-454.
https://doi.org/10.1053/jvet.2002.34668 Publication
Researcher Affiliations
- Richard S. Reynolds, Jr, Comparative Orthopedic Research Laboratory, New Bolton Center, Department of Clinical Studies, College of Veterinary Medicine, University of Pennsylvania, Kennett Square, PA, USA.
MeSH Terms
- Animals
- Biomechanical Phenomena
- Bone Screws / veterinary
- Bone Wires / veterinary
- Cadaver
- Fracture Fixation / instrumentation
- Fracture Fixation / methods
- Fracture Fixation / veterinary
- Fractures, Bone / diagnostic imaging
- Fractures, Bone / surgery
- Fractures, Bone / veterinary
- Horses / injuries
- Horses / surgery
- Polyethylene
- Radiography
- Sesamoid Bones / injuries
- Sesamoid Bones / physiopathology
- Sesamoid Bones / surgery
- Stainless Steel
- Suture Techniques / veterinary
- Tensile Strength
Citations
This article has been cited 7 times.- Zhang Z, Yang Y, Ma Y, Mai Z, Fu H, Wang X, Cao X, Li T, Li J, Guo Q. Clinical Diagnosis, Treatment, and Outcome Analysis of a Horse with Proximal Sesamoid Bone Fracture Complicated by Flexor Tendinitis. Vet Sci 2026 Jan 2;13(1).
- Zhang Z, Li J, Mai Z, Yang Y, Fu H, Cao X, Li T, Guo Q, Ma Y. Clinical study on the effect of low-intensity pulsed ultrasound on healing of proximal sesamoid bone fractures in Yili horses. Sci Rep 2025 Aug 28;15(1):31697.
- Day S, Elder S, Brookshire C, Jaffe MH. Ex vivo evaluation of polyethylene cable compared to stainless steel cerclage wire in a canine fracture model. Front Vet Sci 2025;12:1613295.
- Paul K, Manfredi JN, Hargreaves M, Messner MK, Rahaman CA, Ponce B, Momaya AM, Brabston E. Non-screw glenoid augmentation constructs for shoulder instability with bone loss: A biomechanical assessment of static and elastic cerclage constructs. J Orthop 2025 Aug;66:1-7.
- Gupta AK, Godwin T, Poon P. Is Nice knot suture comparable to wire for cerclage fixation? A biomechanical performance study. JSES Rev Rep Tech 2022 Feb;2(1):20-25.
- Westberg SE, Acklin YP, Hoxha S, Ayranci C, Adeeb S, Bouliane M. Is suture comparable to wire for cerclage fixation? A biomechanical analysis. Shoulder Elbow 2019 Jun;11(3):225-232.
- Schröder C, Woiczinski M, Utzschneider S, Kraxenberger M, Weber P, Jansson V. [The biomechanics of screws, cerclage wire and cerclage cable]. Orthopade 2013 May;42(5):302-4, 306-8.
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