Biological growth and remodeling: A uniaxial example with possible application to tendons and ligaments
Document Type
Article
Publication Date
11-14-2003
Abstract
Recent discoveries in molecular and cell biology reveal that many cell types sense and respond (via altered gene expression) to changes in their mechanical environment. Such mechanotransduction mechanisms are responsible for many changes in structure and function, including the growth and remodeling process. To understand better, and ultimately to use (e.g., in tissue engineering), biological growth and remodeling, there is a need for mathematical models that have predictive and not just descriptive capability. In contrast to prior models based on reaction-diffusion equations or the concept of volumetric growth, we examine here a newly proposed constrained mixture model for growth and remodeling. Specifically, we use this new model to present illustrative computations in a representative, transversely-isotropic soft tissue subjected to homogeneous deformations under uniaxial loading. Consequences of various assumptions for the kinetics of mass production and removal are discussed, as are open problems in this important area of biomechanics.
Identifier
0242317245 (Scopus)
Publication Title
CMES Computer Modeling in Engineering and Sciences
ISSN
15261492
First Page
439
Last Page
455
Issue
3-4
Volume
4
Recommended Citation
Rao, I. J.; Humphrey, J. D.; and Rajagopal, K. R., "Biological growth and remodeling: A uniaxial example with possible application to tendons and ligaments" (2003). Faculty Publications. 13923.
https://digitalcommons.njit.edu/fac_pubs/13923
