The usefulness of mathematical models for bone remodeling

## Abstract A mathematical model is presented for the transport and precipitation of mineral in refilling osteons. One goal of this model was to explain calcification “halos,” in which the bone near the haversian canal is more highly mineralized than the more peripheral lamellae, which have been mi

## Abstract The aim of this article was to present a new thermodynamic‐based model for bone remodeling which is able to predict the functional adaptation of bone in response to changes in both mechanical and biochemical environments. The model was based on chemical kinetics and irreversible thermod

## Abstract We propose a two‐dimensional mathematical model of trabecular bone remodeling that simulates the surface‐based addition and removal of material in the actual physiological process. The model is based on a finite element representation of individual trabecular struts in which the materia

## Abstract In a companion paper, we presented a time‐dependent theory for bone modeling and remodeling in response to a daily loading history. This paper represents a preliminary attempt to use the theory to determine the distribution of bone density within the adult proximal femur under an assume

## Abstract A time‐dependent approach for emulating bone modeling and remodeling in response to the daily loading history is presented. We postulate that genotype, systemic metabolic conditions, and local tissue interactions establish the level of local tissue mechanical stimulation (attractor stat

## Abstract The modeling and remodeling of the rat incisor alveolar bone was followed as the animals grew. The weight of the hemimandible, the length of the socket, and the width of the lower incisor were measured. Osteoclasts and resorption areas were identified by tartrate‐resistant acid phosphat