In vivo bone strain and finite element modeling of the mandible of Alligator mississippiensis

J Anat. 2013 Sep;223(3):195-227. doi: 10.1111/joa.12080. Epub 2013 Jul 16.


Forces experienced during feeding are thought to strongly influence the morphology of the vertebrate mandible; in vivo strain data are the most direct evidence for deformation of the mandible induced by these loading regimes. Although many studies have documented bone strains in the mammalian mandible, no information is available on strain magnitudes, orientations or patterns in the sauropsid lower jaw during feeding. Furthermore, strain gage experiments record the mechanical response of bone at a few locations, not across the entire mandible. In this paper, we present bone strain data recorded at various sites on the lower jaw of Alligator mississippiensis during in vivo feeding experiments. These data are used to understand how changes in loading regime associated with changes in bite location are related to changes in strain regime on the working and balancing sides of the mandible. Our results suggest that the working side mandible is bent dorsoventrally and twisted about its long-axis during biting, and the balancing side experiences primarily dorsoventral bending. Strain orientations are more variable on the working side than on the balancing side with changes in bite point and between experiments; the balancing side exhibits higher strain magnitudes. In the second part of this paper, we use principal strain orientations and magnitudes recorded in vivo to evaluate a finite element model of the alligator mandible. Our comparison demonstrates that strain orientations and mandibular deformation predicted by the model closely match in vivo results; however, absolute strain magnitudes are lower in the finite element model.

Keywords: biomechanics; crocodilians; feeding; validation.

MeSH terms

  • Alligators and Crocodiles / physiology*
  • Analysis of Variance
  • Animals
  • Biomechanical Phenomena
  • Eating / physiology
  • Finite Element Analysis*
  • Mandible / physiology*
  • Models, Biological*