The relation between external dimensions of the human mandible and cortical bone morphology as determined with the aid of CT scans

Computerized tomographs were taken of 22 mandibles, selected from an early Arab population and aged between 17 and 60 years. A specially designed holder was used to define specific locations along the mandible, namely symphysis, mid sagittal section through the corpus, midpoint of the first molar (M1), gonion and ramus. Cortical cross sectional area and principal moments of inertia were then calculated for the locations specified, to obtain estimates of the resistance of the bone to deformation. They were analyzed in relation to age, sex, side and external dimensions of the mandible. The error of measurement calculated from (i) repeated CT scans (ii) repeated measurements (iii) from comparison of CT scans with a sectioned mandible, were of the same order of magnitude. All values were greater in males than in females; they were only slightly affected by age and were unaffected by side. Mandibular length and ramus height accounted for most of the variation observed in moments of inertia. We consider that these results can best be interpreted in accordance with the hypotheses put forward by Hylander (1975, 1985) according to which the mandible acts as a third degree lever, with "wishboning" forces acting at the symphysis and parasagittal bending at the first molar. We now plan to apply this method to study the "strength" of the mandibles of past populations with different dietary adaptations.