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All Outputs (6)

Why do humans have chins? Testing the mechanical significance of modern human symphyseal morphology with finite element analysis (2010)
Journal Article
Gröning, F., Liu, J., Fagan, M. J., & O'Higgins, P. (2011). Why do humans have chins? Testing the mechanical significance of modern human symphyseal morphology with finite element analysis. American journal of physical anthropology, 144(4), 593-606. https://doi.org/10.1002/ajpa.21447

The modern human mandibular symphysis differs from those of all other primates in being vertically orientated and possessing a chin, but the functional significance of this unique morphology is not well understood. Some hypotheses propose that it is... Read More about Why do humans have chins? Testing the mechanical significance of modern human symphyseal morphology with finite element analysis.

Combining geometric morphometrics and functional simulation: an emerging toolkit for virtual functional analyses (2010)
Journal Article
O'Higgins, P., Cobb, S. N., Fitton, L. C., Gröning, F., Phillips, R., Liu, J., & Fagan, M. J. (2011). Combining geometric morphometrics and functional simulation: an emerging toolkit for virtual functional analyses. Journal of anatomy, 218(1), 3-15. https://doi.org/10.1111/j.1469-7580.2010.01301.x

The development of virtual methods for anatomical reconstruction and functional simulation of skeletal structures offers great promise in evolutionary and ontogenetic investigations of form-function relationships. Key developments reviewed here inclu... Read More about Combining geometric morphometrics and functional simulation: an emerging toolkit for virtual functional analyses.

Feedback control from the jaw joints during biting: An investigation of the reptile Sphenodon using multibody modelling (2010)
Journal Article
Curtis, N., Jones, M. E. H., Evans, S., Evans, S. E., O'Higgins, P., & Fagan, M. J. (2010). Feedback control from the jaw joints during biting: An investigation of the reptile Sphenodon using multibody modelling. Journal of biomechanics, 43(16), 3132-3137. https://doi.org/10.1016/j.jbiomech.2010.08.001

Sphenodon, a lizard-like reptile, is the only living representative of a group that was once widespread at the time of the dinosaurs. Unique jaw mechanics incorporate crushing and shearing motions to breakdown food, but during this process excessive... Read More about Feedback control from the jaw joints during biting: An investigation of the reptile Sphenodon using multibody modelling.

Comparison between in vivo and theoretical bite performance: Using multi-body modelling to predict muscle and bite forces in a reptile skull (2010)
Journal Article
Curtis, N., Jones, M. E. H., Lappin, A. K., O'Higgins, P., Evans, S. E., & Fagan, M. J. (2010). Comparison between in vivo and theoretical bite performance: Using multi-body modelling to predict muscle and bite forces in a reptile skull. Journal of biomechanics, 43(14), 2804-2809. https://doi.org/10.1016/j.jbiomech.2010.05.037

In biomechanical investigations, geometrically accurate computer models of anatomical structures can be created readily using computed-tomography scan images. However, representation of soft tissue structures is more challenging, relying on approxima... Read More about Comparison between in vivo and theoretical bite performance: Using multi-body modelling to predict muscle and bite forces in a reptile skull.

Circadian variation of human ventricular fibrillation dominant frequency (2010)
Journal Article
Langley, P., MacGowan, G. A., & Murray, A. (2010). Circadian variation of human ventricular fibrillation dominant frequency. Resuscitation, 81(8), 950-955. https://doi.org/10.1016/j.resuscitation.2010.03.026

Aim Circadian variation in human ventricular fibrillation (VF) dominant frequency is unknown. If present this would provide evidence of physiological influence on VF. The objective was to quantify the circadian variation in human VF dominant frequen... Read More about Circadian variation of human ventricular fibrillation dominant frequency.