Application of a three-dimensional poroelastic BEM to modeling the biphasic mechanics of cell-matrix interactions in articular cartilage

Mansoor A. Haider; Farshid Guilak

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Application of a three-dimensional poroelastic BEM to modeling the biphasic mechanics of cell-matrix interactions in articular cartilage

机译：三维多孔弹性边界元在建模关节软骨细胞-基质相互作用的双相力学中的应用

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Articular cartilage exhibits viscoelasticity in response to mechanical loading that is well described using biphasic or poroelastic continuum models. To date, boundary element methods (BEMs) have not been employed in modeling biphasic tissue mechanics. A three-dimensional direct poroelastic BEM, formulated in the Laplace transform domain, is applied to modeling stress relaxation in cartilage. Macroscopic stress relaxation of a poroelastic cylinder in uni-axial confined compression is simulated and validated against a theoretical solution. Microscopic cell deformation due to poroelastic stress relaxation is also modeled. An extended Laplace inversion method is employed to accurately represent mechanical responses in the time domain.

机译：响应于机械负荷，关节软骨表现出粘弹性，这是使用双相或多孔弹性连续体模型很好地描述的。迄今为止，在双相组织力学建模中尚未采用边界元方法（BEM）。在Laplace变换域中制定的三维直接多孔弹性BEM用于建模软骨应力松弛。多孔弹性圆柱体在单轴约束压缩中的宏观应力松弛被模拟，并根据理论解进行了验证。还模拟了由于孔隙弹性应力松弛引起的微观细胞变形。扩展的拉普拉斯反演方法用于精确表示时域中的机械响应。

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来源
《Computer Methods in Applied Mechanics and Engineering》 |2007年第32期|p.2999-3010|共12页
作者
Mansoor A. Haider; Farshid Guilak;
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作者单位

Department of Mathematics, North Carolina State University, Box 8205, Raleigh, NC 27695, United States;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类自动化基础理论;工程基础科学;
关键词
boundary element method; biphasic theory; poroelasticity; articular cartilage; cells;

机译：边界元法;双相理论;多孔弹性;关节软骨;细胞;

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1. A radial biphasic model for local cell-matrix mechanics in articular cartilage [J] . Haider MA SIAM Journal on Applied Mathematics . 2004,第5期

机译：关节软骨局部细胞矩阵力学的径向双相模型
2. The mechanical environment of the chondrocyte: a biphasic finite element model of cell-matrix interactions in articular cartilage [J] . Guilak F., Mow VC. Journal of Biomechanics . 2000,第12期

机译：软骨细胞的机械环境：关节软骨中细胞-基质相互作用的双相有限元模型
3. AN IN SILICO AXISYMMETRIC MULTISTAGE MODEL OF LINEAR BIPHASIC MESENCHYMAL STEM CELL AND CHONDROCYTE PROTEIN SECRETED-MATRIX INTERACTIONS FOR THE RECONSTRUCTION OF THE DYNAMIC MECHANICAL ENVIRONMENT OF A TIME VARYING MAGNETIC FIELD EXPANDED CHONDROCYTE BIPHASIC FINITE ELEMENTAL MODEL IN ARTICULAR CARTILAGE [J] . Grigoriadis I. Cytotherapy . 2016,第6SSuppla期

机译：线性双相间充质干细胞与软骨细胞蛋白分泌基质相互作用的计算机模拟轴对称多阶段模型，用于重建时变电磁场扩展的超声复合体的动态机械环境
4. ARTICULAR CARTILAGE BIOMECHANICS MODELED VIA AN INTRINSICALLY COMPRESSIBLE BIPHASIC MODEL: IMPLICATIONS AND DEVIATIONS FROM AN INCOMPRESSIBLE BIPHASIC APPROACH [C] . Francesco Travascio, Roberto Serpieri, Shihab Asfour ASME bioengineering conference . 2014

机译：通过内在可压缩的双生模型建模的关节软骨生物力学：不可压缩的双生方法的含义和偏差
5. Axisymmetric poroelastic boundary element methods for biphasic mechanics of articular cartilage. [D] . Benedict, Brandy Ann. 2008

机译：关节软骨双相力学的轴对称多孔弹性边界元方法。
6. Application of a Three-Dimensional Poroelastic BEM to Modeling the Biphasic Mechanics of Cell-Matrix Interactions in Articular Cartilage (REVISION) [O] . Mansoor A. Haider, Farshid Guilak -1

机译：三维多孔弹性边界元在关节软骨细胞-基质相互作用的双相力学建模中的应用（修订版）
7. Application of a three-dimensional poroelastic BEM to modeling the biphasic mechanics of cell–matrix interactions in articular cartilage [O] . Mansoor A. Haider, Farshid Guilak 2007

机译：三维Poroelastic BEM在关节软骨中模拟细胞 - 基质相互作用的双相力学

Application of a three-dimensional poroelastic BEM to modeling the biphasic mechanics of cell-matrix interactions in articular cartilage

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