The thermodynamic driving force for bone growth and remodelling: a hypothesis.

The thermodynamic driving force for bone growth and remodelling: a hypothesis. Research Abstract Details 

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The thermodynamic driving force for bone growth and remodelling: a hypothesis. Abstract Text:

Helmut O K Kirchner,Markus Lazar,Helmut O K Kirchner,Markus Lazar,

The Eshelby stress (static energy momentum) tensor is derived for bone modelled as an inhomogeneous piezoelectric and piezomagnetic Cosserat (micropolar) medium. The divergence of this tensor is the configurational force felt by material gradients and defects in the medium. Just as in inhomogeneous elastic media, this force is identified with the thermodynamic force for phase transformations, in bone it is the thermodynamic cause of structural transformations, i.e. remodelling and growth. The thermodynamic approach shows that some terms of driving force are proportional to the stress, and some acting on material inhomogeneities are quadratic in the stress-the latter outweigh by far the former. Since inertial forces due to acceleration enter the energy-momentum tensor, it follows that the rate of loading matters and that both tension and compression stimulate growth, which is favoured at heterogeneities.

The thermodynamic driving force for bone growth and remodelling: a hypothesis. Publishing Authors By Initials

HO Kirchner,M Lazar,HO Kirchner,M Lazar,

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The thermodynamic driving force for bone growth and remodelling: a hypothesis. Journal Published:

PUBLICATION TYPE: Journal Article

Journal: Journal of the Royal Society, Interface / the Roya

VOLUME: 5

Page Numbers: 183-93

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ISSN: 1742-5689

DAY: 22

MONTH: Apr

YEAR: 2008

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LANGUAGE: eng

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Grant and Affiliation Information for The thermodynamic driving force for bone growth and remodelling: a hypothesis.

AFFILIATION: Université Paris-Sud, UMR, 8182, Orsay 91405, France CNRS, 91405 Orsay, France.

Country: England

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MEDLINETA: J R Soc Interface

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