Variations in cortical material properties throughout the human dentate mandible.

IF 2.6 2区 地球科学 Q1 ANTHROPOLOGY American journal of physical anthropology Pub Date : 2003-03-01 DOI:10.1002/ajpa.10121
C L Schwartz-Dabney, P C Dechow
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引用次数: 293

Abstract

Material properties and their variations in individual bone organs are important for understanding bone adaptation and quality at a tissue level, and are essential for accurate mechanical models. Yet material property variations have received little systematic study. Like all other material property studies in individual bone organs, studies of the human mandible are limited by a low number of both specimens and sampled regions. The aims of this study were to determine: 1) regional variability in mandibular material properties, 2) the effect of this variability on the modeling of mandibular function, and 3) the relationship of this variability to mandibular structure and function. We removed 31 samples on both facial and lingual cortices of 10 fresh adult dentate mandibles, measured cortical thickness and density, determined the directions of maximum stiffness with a pulse transmission ultrasonic technique, and calculated elastic properties from measured ultrasonic velocities. Results showed that each of these elastic properties in the dentate human mandible demonstrates unique regional variation. The direction of maximum stiffness was near parallel to the occlusal plane within the corpus. On the facial ramus, the direction of maximum stiffness was more vertically oriented. Several sites in the mandible did not show a consistent direction of maximum stiffness among specimens, although all specimens exhibited significant orthotropy. Mandibular cortical thickness varied significantly (P < 0.001) between sites, and decreased from 3.7 mm (SD = 0.9) anteriorly to 1.4 mm posteriorly (SD = 0.1). The cortical plate was also significantly thicker (P < 0.003) on the facial side than on the lingual side. Bone was 50-100% stiffer in the longitudinal direction (E(3), 20-30 GPa) than in the circumferential or tangential directions (E(2) or E(1); P < 0.001). The results suggest that material properties and directional variations have an important impact on mandibular mechanics. The accuracy of stresses calculated from strains and average material properties varies regionally, depending on variations in the direction of maximum stiffness and anisotropy. Stresses in some parts of the mandible can be more accurately calculated than in other regions. Limited evidence suggests that the orientations and anisotropies of cortical elastic properties correspond with features of cortical bone microstructure, although the relationship with functional stresses and strains is not clear.

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人类齿状下颌骨皮质材料特性的变化。
材料特性及其在单个骨器官中的变化对于在组织水平上理解骨适应和质量非常重要,并且对于精确的力学模型至关重要。然而,材料性质的变化几乎没有得到系统的研究。像所有其他单个骨器官的材料特性研究一样,人类下颌骨的研究受到样本数量和采样区域数量的限制。本研究的目的是确定:1)下颌骨材料特性的区域变异性,2)这种变异性对下颌功能建模的影响,以及3)这种变异性与下颌结构和功能的关系。我们从10个新鲜成人齿状下颌骨的面部和舌皮层上提取了31个样本,测量了皮质厚度和密度,用脉冲透射超声技术确定了最大刚度方向,并通过测量的超声速度计算了弹性特性。结果表明,这些弹性特性在齿状人下颌骨中表现出独特的区域差异。最大刚度方向与体内咬合平面接近平行。在面部分支上,最大刚度方向更偏向于垂直方向。下颌骨的几个部位在标本中没有显示出一致的最大刚度方向,尽管所有标本都表现出显著的正交异性。不同部位下颌骨皮质厚度差异显著(P < 0.001),由前牙3.7 mm (SD = 0.9)降至后牙1.4 mm (SD = 0.1)。面侧皮质板也明显比舌侧厚(P < 0.003)。骨在纵向(E(3), 20-30 GPa)比在周向或切向(E(2)或E(1)更硬50-100%;P < 0.001)。结果表明,材料性能和方向变化对下颌骨力学有重要影响。根据应变和平均材料性能计算的应力的准确性因区域而异,这取决于最大刚度和各向异性方向的变化。下颌骨某些部位的应力可以比其他部位更精确地计算。有限的证据表明,皮质弹性性能的取向和各向异性与皮质骨微观结构的特征相对应,但与功能应力和应变的关系尚不清楚。
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来源期刊
CiteScore
4.80
自引率
0.00%
发文量
3
审稿时长
3-8 weeks
期刊介绍: The American Journal of Physical Anthropology (AJPA) is the official journal of the American Association of Physical Anthropologists. The Journal is published monthly in three quarterly volumes. In addition, two supplements appear on an annual basis, the Yearbook of Physical Anthropology, which publishes major review articles, and the Annual Meeting Issue, containing the Scientific Program of the Annual Meeting of the American Association of Physical Anthropologists and abstracts of posters and podium presentations. The Yearbook of Physical Anthropology has its own editor, appointed by the Association, and is handled independently of the AJPA. As measured by impact factor, the AJPA is among the top journals listed in the anthropology category by the Social Science Citation Index. The reputation of the AJPA as the leading publication in physical anthropology is built on its century-long record of publishing high quality scientific articles in a wide range of topics.
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