Finite element analysis of Neanderthal and early Homo sapiens maxillary central incisor

IF 3.1 1区 地球科学 Q1 ANTHROPOLOGY Journal of Human Evolution Pub Date : 2024-03-10 DOI:10.1016/j.jhevol.2024.103512
Ali Najafzadeh , María Hernaiz-García , Stefano Benazzi , Bernard Chen , Jean-Jacques Hublin , Ottmar Kullmer , Ariel Pokhojaev , Rachel Sarig , Rita Sorrentino , Antonino Vazzana , Fiorenza Luca
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Abstract

Neanderthal anterior teeth are very large and have a distinctive morphology characterized by robust ‘shovel-shaped’ crowns. These features are frequently seen as adaptive responses in dissipating heavy mechanical loads resulting from masticatory and non-masticatory activities. Although the long-standing debate surrounding this hypothesis has played a central role in paleoanthropology, is still unclear if Neanderthal anterior teeth can resist high mechanical loads or not. A novel way to answer this question is to use a multidisciplinary approach that considers together tooth architecture, dental wear and jaw movements. The aim of this study is to functionally reposition the teeth of Le Moustier 1 (a Neanderthal adolescent) and Qafzeh 9 (an early Homo sapiens adolescent) derived from wear facet mapping, occlusal fingerprint analysis and physical dental restoration methods. The restored dental arches are then used to perform finite element analysis on the left central maxillary incisor during edge-to-edge occlusion. The results show stress distribution differences between Le Moustier 1 and Qafzeh 9, with the former displaying higher tensile stress in enamel around the lingual fossa but lower concentration of stress in the lingual aspect of the root surface. These results seem to suggest that the presence of labial convexity, lingual tubercle and of a large root surface in Le Moustier 1 incisor helps in dissipating mechanical stress. The absence of these dental features in Qafzeh 9 is compensated by the presence of a thicker enamel, which helps in reducing the stress in the tooth crown.

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尼安德特人和早期智人上颌中切齿的有限元分析
尼安德特人的前牙非常大,具有独特的形态特征,即坚固的 "铲形 "牙冠。这些特征经常被认为是为了减轻咀嚼和非咀嚼活动产生的沉重机械负荷而做出的适应性反应。尽管围绕这一假说的争论由来已久,并在古人类学中发挥了核心作用,但尼安德特人的前牙是否能抵抗高机械负荷仍不清楚。回答这一问题的新方法是采用多学科方法,综合考虑牙齿结构、牙齿磨损和颌骨运动。本研究的目的是根据磨损面绘图、咬合指纹分析和物理牙齿修复方法,对 Le Moustier 1(尼安德特人青少年)和 Qafzeh 9(早期智人青少年)的牙齿进行功能性重新定位。然后利用修复后的牙弓对左侧上颌中央切牙进行边缘对边缘咬合时的有限元分析。结果显示,Le Moustier 1 和 Qafzeh 9 的应力分布存在差异,前者在舌窝周围的珐琅质中显示出较高的拉伸应力,但在牙根表面舌侧的应力集中度较低。这些结果似乎表明,Le Moustier 1 号门牙存在唇凸、舌小结和较大的牙根表面,有助于消散机械应力。而在 Qafzeh 9 中,较厚的珐琅质弥补了这些牙齿特征的缺失,有助于减少牙冠的应力。
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来源期刊
Journal of Human Evolution
Journal of Human Evolution 生物-进化生物学
CiteScore
6.30
自引率
15.60%
发文量
104
审稿时长
3 months
期刊介绍: The Journal of Human Evolution concentrates on publishing the highest quality papers covering all aspects of human evolution. The central focus is aimed jointly at paleoanthropological work, covering human and primate fossils, and at comparative studies of living species, including both morphological and molecular evidence. These include descriptions of new discoveries, interpretative analyses of new and previously described material, and assessments of the phylogeny and paleobiology of primate species. Submissions should address issues and questions of broad interest in paleoanthropology.
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