Why do humans have chins? Testing the mechanical significance of modern human symphyseal morphology with finite element analysis

Flora Gröning, Jia Liu, Michael J. Fagan, Paul O'Higgins

Research output: Contribution to journalArticlepeer-review

38 Citations (Scopus)

Abstract

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 an adaptation to specific loads occurring during masticatory function. This study uses finite element analysis to examine these symphyseal loads in a model of a modern human mandible. By modifying the symphyseal cross-sectional form, the mechanical significance of the presence of the chin and symphyseal orientation is tested, and modern human and Neanderthal symphyseal cross-sections are compared with regard to their ability to withstand different loads. The results show that changes in symphyseal form have profound effects on the strains. The presence of a chin leads to lower symphyseal strains overall, whereas a vertical orientation of the symphysis results in higher strains under wishboning, but not under vertical bending in the coronal plane and dorsoventral shear. Compared to Neanderthals, the modern human symphysis shows higher strains during dorsoventral shear and wishboning, but is as effective as the Neanderthal symphysis in resisting vertical bending in the coronal plane and the loads resulting from simulated incision and unilateral molar biting. In general, the results of this study corroborate prior hypotheses about the mechanical effects of the human chin and vertical symphyseal orientation and support the idea that the relative importance of wishboning and vertical bending in the coronal plane might have played a role in the evolution of modern human symphyseal morphology.
Original languageEnglish
Pages (from-to)593-606
Number of pages14
JournalAmerican Journal of Physical Anthropology
Volume144
Issue number4
Early online date16 Dec 2010
DOIs
Publication statusPublished - Apr 2011

Keywords

  • animals
  • biomechanics
  • chin
  • finite element analysis
  • fossils
  • hominidae
  • humans
  • mastication
  • models, biological
  • tomography scanners, x-ray computed
  • weight-bearing

Fingerprint Dive into the research topics of 'Why do humans have chins? Testing the mechanical significance of modern human symphyseal morphology with finite element analysis'. Together they form a unique fingerprint.

Cite this