Exploring the biomechanics of taurodontism

Journal of Anatomy - Tập 226 Số 2 - Trang 180-188 - 2015
Stefano Benazzi1,2, Huynh Nhu Nguyễn2, Ottmar Kullmer3, Jean‐Jacques Hublin2
1Department of Cultural Heritage, University of Bologna, Ravenna, Italy
2Department of Human Evolution, Max Planck Institute for Evolutionary Anthropology, Leipzig, Germany
3Department of Palaeoanthropology and Messel Research, Senckenberg Research Institute, Frankfurt am Main, Germany

Tóm tắt

AbstractTaurodontism (i.e. enlarged pulp chamber with concomitant apical displacement of the root bi/trifurcation) is considered a dental anomaly with relatively low incidence in contemporary societies, but it represents a typical trait frequently found in Neandertal teeth. Four hypotheses can be envisioned to explain the high frequency in Neandertals: adaptation to a specific occlusal loading regime (biomechanical advantage), adaptation to a high attrition diet, pleiotropic or genetic drift effects. In this contribution we used finite element analysis (FEA) and advanced loading concepts based on macrowear information to evaluate whether taurodontism supplies some dental biomechanical advantages. Loads were applied to the digital model of the lower right first molar (RM1) of the Neandertal specimen Le Moustier 1, as well as to the digital models of both a shortened and a hyper‐taurodontic version of Le Moustier RM1. Moreover, we simulated a scenario where an object is held between teeth and pulled in different directions to investigate whether taurodontism might be useful for para‐masticatory activities. Our results do not show any meaningful difference among all the simulations, pointing out that taurodontism does not improve the functional biomechanics of the tooth and does not favour para‐masticatory pulling activities. Therefore, taurodontism should be considered either an adaptation to a high attrition diet or most likely the result of pleiotropic or genetic drift effects. Finally, our results have important implications for modern dentistry during endodontic treatments, as we observed that filling the pulp chamber with dentine‐like material increases tooth stiffness, and ultimately tensile stresses in the crown, thus favouring tooth failure.

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Journal of Anatomy

Tập 226 Số 2

180-188

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