The influence of nail blocking conditions in cattle femoral fractures

To investigate the effect of different fixation strategies of the intramedullary interlocking nail (IIN) on the mechanical behavior of a polymeric implant applied for femoral fracture fixation in calves, and to evaluate the performance of a glass fiber-reinforced polymer applied in a bovine femoral...

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Bibliographic Details
Published in:Research in veterinary science 2018-08, Vol.119, p.27-36
Main Authors: Paolucci, Leopoldo A., Las Casas, Estevam B., Faleiros, Rafael R., Paz, Cahuê F.R., Rocha Junior, Sergio S.
Format: Article
Language:English
Subjects:
Animals
Biocompatibility
Biomechanical Phenomena
Biomechanics
Bone Nails - veterinary
Bone Screws
Bone surgery
Bones
Calves
Cattle
Cattle - injuries
Cattle - surgery
Composite materials
Computer simulation
Femoral Fractures - surgery
Femoral Fractures - veterinary
Femur
Fiber reinforced polymers
Finite element method
Fixation
Fracture Fixation, Intramedullary
Fractures
Glass fiber reinforced plastics
Implants
Load
Load resistance
Male
Mathematical models
Mechanical loading
Mechanical properties
Medical equipment
Polyesters
Polymers
Postoperative period
Stainless steel
Strategy
Stresses
Transplants & implants
Veterinary medicine
Weight reduction
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Summary:To investigate the effect of different fixation strategies of the intramedullary interlocking nail (IIN) on the mechanical behavior of a polymeric implant applied for femoral fracture fixation in calves, and to evaluate the performance of a glass fiber-reinforced polymer applied in a bovine femoral fracture reduction system, five Holstein male animals with a mean weight (±SD) of 62.8 ± 20.4 kg and aged 74 ± 15 were used to generate biomechanical parameters for this study. Twelve models of the fractured bovine femur, simulating a simple oblique fracture, were developed for use during the simulations. The models were divided into three groups, with each group of four models being associated with a different fixation strategy. Models were used to simulate the loading conditions corresponding to a calf in the transition (decubitus position to static position) condition. The maximum stresses found in each set (bone/implant) were compared with the reference stresses of each nail material. Maximum implant stresses were found in the screws and at the interface between the screw and the nail. The performance of implants was influenced by the material and fixation strategy, which can be confirmed by the stress values found in the set. The analysis indicated that the composite nail is able to withstand the loading demands in all fixation strategies. The finite element analysis (FEA) demonstrated that all polymeric materials analyzed provided sufficient resistance to withstand the loading forces imposed to the femur when an adequate blocking strategy was applied. [Display omitted] •The largest stresses were found in the screws and at the interface screw-nail.•The performance of implants was influenced by the material and blocking strategy.•Polymeric materials resist the loading forces whith adequate blocking strategy.•The composite nail withstands the loading demands in all blocking conditions.
ISSN:0034-5288
1532-2661
DOI:10.1016/j.rvsc.2018.05.004