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Three-Scale Multiphysics Modeling of Transport Phenomena within Cortical Bone

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  • T. Lemaire
  • J. Kaiser
  • S. Naili
  • V. Sansalone

Abstract

Bone tissue can adapt its properties and geometry to its physical environment. This ability is a key point in the osteointegration of bone implants since it controls the tissue remodeling in the vicinity of the treated site. Since interstitial fluid and ionic transport taking place in the fluid compartments of bone plays a major role in the mechanotransduction of bone remodeling, this theoretical study presents a three-scale model of the multiphysical transport phenomena taking place within the vasculature porosity and the lacunocanalicular network of cortical bone. These two porosity levels exchange mass and ions through the permeable outer wall of the Haversian-Volkmann canals. Thus, coupled equations of electrochemohydraulic transport are derived from the nanoscale of the canaliculi toward the cortical tissue, considering the intermediate scale of the intraosteonal tissue. In particular, the Onsager reciprocity relations that govern the coupled transport are checked.

Suggested Citation

  • T. Lemaire & J. Kaiser & S. Naili & V. Sansalone, 2015. "Three-Scale Multiphysics Modeling of Transport Phenomena within Cortical Bone," Mathematical Problems in Engineering, Hindawi, vol. 2015, pages 1-10, September.
    • Handle: RePEc:hin:jnlmpe:398970
    DOI: 10.1155/2015/398970
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