Applied Sciences (Feb 2024)

Finite Element Model of Canine-Specific Vertebrae Incorporating Biomechanical Tissue Nonlinearity

  • Ernest Kostenko,
  • Jakov Šengaut,
  • Nikolaj Višniakov,
  • Algirdas Maknickas

DOI
https://doi.org/10.3390/app14052027
Journal volume & issue
Vol. 14, no. 5
p. 2027

Abstract

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As dogs are considered valuable members of many families, ensuring their health and well-being is essential. This study introduces a numerical nonlinear model that explores the complexities of canine vertebrae, with a specific focus on their experimentally observed mechanical properties. The model underwent rigorous testing, and its results were compared with actual data on the compression of canine lumbar vertebrae. The numerical results and experimental data comparison had a 12% RRMSE. This research enhances our understanding of canine bone health and lays the groundwork for future initiatives aimed at treating and mitigating bone-related diseases in dogs.

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