Validity and sensitivity of a human cranial finite element model: Implications for comparative studies of biting performance (2015)
Journal Article
Toro-Ibacache, V., Fitton, L. C., Fagan, M. J., & O'Higgins, P. (2016). Validity and sensitivity of a human cranial finite element model: Implications for comparative studies of biting performance. Journal of anatomy, 228(1), 70-84. https://doi.org/10.1111/joa.12384

Finite element analysis (FEA) is a modelling technique increasingly used in anatomical studies investigating skeletal form and function. In the case of the cranium this approach has been applied to both living and fossil taxa to (for example) investi... Read More about Validity and sensitivity of a human cranial finite element model: Implications for comparative studies of biting performance.

Masticatory biomechanics in the rabbit: a multi-body dynamics analysis (2014)
Journal Article
Watson, P. J., Gröning, F., Curtis, N., Fitton, L. C., Herrel, A., McCormack, S. W., & Fagan, M. J. (2014). Masticatory biomechanics in the rabbit: a multi-body dynamics analysis. Journal of the Royal Society interface / the Royal Society, 11(99), Article 20140564. https://doi.org/10.1098/rsif.2014.0564

Multi-body dynamics is a powerful engineering tool which is becoming increasingly popular for the simulation and analysis of skull biomechanics. This paper presents the first application of multi-body dynamics to analyse the biomechanics of the rabbi... Read More about Masticatory biomechanics in the rabbit: a multi-body dynamics analysis.

The Mechanical Significance of the Temporal Fasciae in Macaca fascicularis: An Investigation Using Finite Element Analysis (2011)
Journal Article
Curtis, N., Witzel, U., Fitton, L., O'Higgins, P., & Fagan, M. (2011). The Mechanical Significance of the Temporal Fasciae in Macaca fascicularis: An Investigation Using Finite Element Analysis. Anatomical Record: Advances in Integrative Anatomy and Evolutionary Biology, 294(7), 1178-1190. https://doi.org/10.1002/ar.21415

Computational finite element analyses (FEAs) of the skull predict structural deformations under user specified loads and constraints, with results normally presented as stress and strain distributions over the skull's surface. The applied loads are g... Read More about The Mechanical Significance of the Temporal Fasciae in Macaca fascicularis: An Investigation Using Finite Element Analysis.