2007
DOI: 10.1007/s10237-006-0070-x
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On the theory of reactive mixtures for modeling biological growth

Abstract: Mixture theory, which can combine continuum theories for the motion and deformation of solids and fluids with general principles of chemistry, is well suited for modeling the complex responses of biological tissues, including tissue growth and remodeling, tissue engineering, mechanobiology of cells and a variety of other active processes. A comprehensive presentation of the equations of reactive mixtures of charged solid and fluid constituents is lacking in the biomechanics literature. This study provides the … Show more

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Cited by 185 publications
(103 citation statements)
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“…2830 The disc is modeled as an inhomogeneous, porous, mixture consisting of a charged solid phase (with cells and PG fixed to the solid phase), a fluid (i.e., water) phase, and a solute phase [with different species of sodium ion Na + (+), chloride ion Cl − (−), glucose (g), oxygen (o), and lactate (l)]. In the model, the PG content is estimated by the chondroitin sulfated GAG content.…”
Section: Methodsmentioning
confidence: 99%
“…2830 The disc is modeled as an inhomogeneous, porous, mixture consisting of a charged solid phase (with cells and PG fixed to the solid phase), a fluid (i.e., water) phase, and a solute phase [with different species of sodium ion Na + (+), chloride ion Cl − (−), glucose (g), oxygen (o), and lactate (l)]. In the model, the PG content is estimated by the chondroitin sulfated GAG content.…”
Section: Methodsmentioning
confidence: 99%
“…In this study, the cell-activity coupled mechano-electrochemical theory (Zhu et al, 2012), which was developed based on the triphasic theory (Ateshian, 2007; Gu et al, 1998; Lai et al, 1991), was extended to include PG, a charged component in the solid matrix. The equation of mass balance for PG (estimated by GAG concentration) was described as follows: (CitalicGAG)t+·false(CGAGvsfalse)=QGAG, where C GAG is the GAG concentration (mole per tissue volume), v s is the velocity of the solid phase, and Q GAG (mole per tissue volume per time) is the rate of GAG production (or consumption), which is assumed to be dependent on the cell density and GAG content by: QGAG=λ10.16667emρcell-λ20.16667emCGAG.…”
Section: Methodsmentioning
confidence: 99%
“…Since ρrα is the mass of α in the current configuration per volume of the mixture in the reference configuration (an invariant quantity), this parameter represents a direct measure of the evolving mass content of α in the mixture, which may thus be used as a state variable in a framework that accounts for chemical reactions (Ateshian 2007; Myers and Ateshian 2013). A distinction is now made between solid and solute species in the mixture, since they are often treated differently in an analysis.…”
Section: Governing Equationsmentioning
confidence: 99%
“…In a biological mixture under isothermal conditions, the minimum set of state variables needed to describe reactive mixtures that include a solid matrix are: the (uniform) absolute temperature θ , the solid matrix deformation gradient F (or related strain measures), and the molar content c α of the various constituents (Ateshian 2007). This set differs from the classical treatment of chemical kinetics in fluid mixtures by the inclusion of F and the subset of constituents bound to the solid matrix.…”
Section: Governing Equationsmentioning
confidence: 99%
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