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Literature DB >> 20226715

Poroelastic behaviour of cortical bone under harmonic axial loading: a finite element study at the osteonal scale.

Vu-Hieu Nguyen¹, Thibault Lemaire, Salah Naili.

Abstract

Bone fluid flow and its induced effects on the bone cells are important players in triggering and signalling bone formation and bone remodelling. This study aims to numerically investigate the behaviour of interstitial fluid flows in cortical bone under axial cyclic harmonic loads that mimics in vivo bone behaviour during daily activities like walking. Here, bone tissue is modelled as a fluid-saturated anisotropic poroelastic medium which consists of a periodic group of osteons. By using a frequency-domain finite element analysis, the fluid velocity field is quantified for various loading conditions and bone matrix parameters.

Mesh：

Year: 2010 PMID： 20226715 DOI： 10.1016/j.medengphy.2010.02.001

Source DB: PubMed Journal: Med Eng Phys ISSN： 1350-4533 Impact factor: 2.242

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Cited

8 in total

1. Effects of Osteocyte Shape on Fluid Flow and Fluid Shear Stress of the Loaded Bone.

Authors: Fengjian Yang; Weilun Yu; Xuyang Huo; Hongliang Li; Qiuju Qi; Xiaohang Yang; Nianqiu Shi; Xiaogang Wu; Weiyi Chen
Journal: Biomed Res Int Date: 2022-05-30 Impact factor: 3.246

2. Mathematically modeling fluid flow and fluid shear stress in the canaliculi of a loaded osteon.

Authors: Xiaogang Wu; Ningning Wang; Zhaowei Wang; Weilun Yu; Yanqin Wang; Yuan Guo; Weiyi Chen
Journal: Biomed Eng Online Date: 2016-12-28 Impact factor: 2.819

3. A multi-layered poroelastic slab model under cyclic loading for a single osteon.

Authors: Yaogeng Chen; Wenshuai Wang; Shenghu Ding; Xu Wang; Qun Chen; Xing Li
Journal: Biomed Eng Online Date: 2018-07-17 Impact factor: 2.819

4. Study on the biomechanical responses of the loaded bone in macroscale and mesoscale by multiscale poroelastic FE analysis.

Authors: WeiLun Yu; XiaoGang Wu; HaiPeng Cen; Yuan Guo; ChaoXin Li; YanQin Wang; YiXian Qin; WeiYi Chen
Journal: Biomed Eng Online Date: 2019-12-23 Impact factor: 2.819

8. Network architecture strongly influences the fluid flow pattern through the lacunocanalicular network in human osteons.

Authors: Alexander F van Tol; A Roschger; F Repp; J Chen; P Roschger; A Berzlanovich; G M Gruber; P Fratzl; Richard Weinkamer
Journal: Biomech Model Mechanobiol Date: 2019-11-28