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Vet Comp Orthop Traumatol 2016; 29(01): 20-28
DOI: 10.3415/VCOT-15-07-0115
DOI: 10.3415/VCOT-15-07-0115
Original Research
Biomechanical comparison of pin and tension-band wire fixation with a prototype locking plate fixation in a transverse canine patellar fracture model
Surgeon-in-training Grant (2013), ECVS; Orthopedic Research Laboratory, Cummings School of Veterinary Medicine at Tufts University, N. Grafton, MA; RISystem AG, Davos Platz, SwitzerlandFurther Information
Publication History
Received:
06 July 2015
Accepted:
30 July 2015
Publication Date:
19 December 2017 (online)
Summary
Objective: To compare a locking plate (LP) with pin and tension-band wire (pin/TBW) for fixation of mid-patellar transverse fractures.
Materials and methods: Cadaveric canine stifle joints from 10 adult mixed breed dogs (23–36 kg) were used. Mid-patellar transverse osteotomies were randomly stabilized (in pairs) with either pin/TBW or a prototype LP. Cyclic loads (1 Hz, 500 cycles) at 100% body weight (90°-135° stifle joint extension), were applied. Survival or failure of constructs was defined as <2 mm fracture gap distraction at 500 cycles, or ≥ 2 mm fracture gap distraction at the number of cycles sustained, respectively. Number of cycles at failure and distraction gap were compared with a paired Student’s t-test, and a survival analysis performed with a Mantel-Cox test. All constructs that survived cyclic testing were tested in single cycle load to failure (1.0 mm/sec; 110° stifle joint extension); yield strength was compared with a Wilcoxon rank sum test. Significance was set at p <0.05.
Results: All 10/10 LP and three out of 10 pin/ TBW fixations survived cyclic testing. Survival analysis, number of cycles at failure, and distraction gap all were significantly different between the two groups (p = 0.0011, p = 0.0013, and p <0.0001, respectively). Construct yield strength was not significantly different (p = 0.1273).
Conclusions: The failure mode with pin/TBW was consistently similar to failures observed clinically. The LP demonstrated consistent, reliable and stable fixation.
This work was performed at the Biomechanics Orthopedic Research Laboratory, Cummings School of Veterinary Medicine at Tufts University, North Grafton, MA, USA.
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