Bone tissue stiffness in the mandibular condyle is dependent on the direction and density of the cancellous structure.
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Publication year
2004Source
Calcified Tissue International, 75, 6, (2004), pp. 502-8ISSN
Publication type
Article / Letter to editor
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Organization
Orthodontics and Oral Biology
Journal title
Calcified Tissue International
Volume
vol. 75
Issue
iss. 6
Page start
p. 502
Page end
p. 8
Subject
UMCN 4.3: Tissue engineering and reconstructive surgeryAbstract
Variation in the apparent stiffness of cancellous bone is generally ascribed to variation in cancellous structure and density, while the bone tissue stiffness is assumed to be constant. The purpose of the present study was to examine whether the bone tissue stiffness is dependent on the direction and density of the cancellous structure. Bone tissue stiffness was estimated by combining mechanical testing and micro-finite element (micro-FE) modeling on cylindrical bone specimens obtained from the human mandibular condyle. One set of specimens was tested in the vertical direction of the condyle (n = 39) and another set in the transverse direction (n = 30). The cancellous structure of the specimens was characterized by micro-CT. The apparent bone stiffnesses predicted by the FE model correlated strongly (r2 = 0.91) with the measured apparent bone stiffnesses. Apparent bone stiffness in the transverse direction was considerably smaller than that in the vertical direction. In contrast, the predicted bone tissue stiffness was significantly larger in the transverse direction (E = 13.70 GPa) than in the vertical direction (E = 11.87 GPa). In addition, bone tissue stiffness correlated negatively with the bone volume fraction and directional sensitivity of the bone tissue stiffness increased with a decrease of bone volume fraction. The results suggest that the transversely oriented trabeculae in the mandibular condyle are stiffer and more mineralized than the vertically oriented trabeculae and that bone loss is compensated by an increase in the degree of mineralization.
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- Academic publications [248471]
- Electronic publications [135728]
- Faculty of Medical Sciences [94202]
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