Simulation of mechanical behaviour of the proximal femur as a poroelastic solid using particles

Full understanding of the mechanical behaviour of living bone is the key to solving many important problems of modern orthopaedics and arthroplasty. An important role in the study of the mechanical behaviour of living bone belongs to the development and use of comprehensive numerical models. In this...

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Bibliographic Details
Published inJournal of physics. Conference series Vol. 1391; no. 1; pp. 12005 - 12013
Main Authors Smolin, A. Yu, Eremina, G. M., Dimaki, A. V., Shilko, E. V.
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.11.2019
Subjects
Bones
Cellular automata
Computational fluid dynamics
Computer simulation
Elastic deformation
Elastic properties
Femur
Fluid flow
Mechanical properties
Numerical models
Orthopedics
Physics
Poroelasticity
Porosity
Simulation
Viscous fluids
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Summary:Full understanding of the mechanical behaviour of living bone is the key to solving many important problems of modern orthopaedics and arthroplasty. An important role in the study of the mechanical behaviour of living bone belongs to the development and use of comprehensive numerical models. In this work, we model the mechanical behaviour of the proximal femur as a 3D poroelastic solid consisting of the interior cancellous part and the outer cortical part. For simplicity, both parts are assumed isotopic linear poroelastic material. However, they have different values of porosity, fluid content and elastic properties, which are taken from literature. For computer simulation, we used the so-called movable cellular automaton method, which is a representative of simply deformed discrete elements i.e. computational particle mechanics. The method allows simulating dynamics of the elastic skeleton deformation and viscous fluid flow in the skeleton pores according to Biot's theory of linear poroelasticity. Using the model developed we study the mechanical behaviour of the proximal part of the femur in compression with different rate of loading and different permeability. The results obtained for both saturated and drained bones are discussed.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/1391/1/012005