A mathematical model of bone remodeling dynamics for normal bone cell populations and myeloma bone disease

Multiple myeloma is a hematologic malignancy associated with the development of a destructive osteolytic bone disease. Mathematical models are developed for normal bone remodeling and for the dysregulated bone remodeling that occurs in myeloma bone disease. The models examine the critical signaling...

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Bibliographic Details
Published in:Biology direct 2010-04, Vol.5 (1), p.28-28
Main Authors: Ayati, Bruce P, Edwards, Claire M, Webb, Glenn F, Wikswo, John P
Format: Article
Language:English
Subjects:
Animals
Biology
Bone cells
Bone marrow
Bone Remodeling - physiology
Cancer
Care and treatment
Development and progression
Feedback
Genetic aspects
Humans
Mathematical models
Mathematics
Models, Theoretical
Multiple myeloma
Multiple Myeloma - pathology
Ordinary differential equations
Osteoclasts - cytology
Osteocytes - cytology
Osteolysis
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Summary:Multiple myeloma is a hematologic malignancy associated with the development of a destructive osteolytic bone disease. Mathematical models are developed for normal bone remodeling and for the dysregulated bone remodeling that occurs in myeloma bone disease. The models examine the critical signaling between osteoclasts (bone resorption) and osteoblasts (bone formation). The interactions of osteoclasts and osteoblasts are modeled as a system of differential equations for these cell populations, which exhibit stable oscillations in the normal case and unstable oscillations in the myeloma case. In the case of untreated myeloma, osteoclasts increase and osteoblasts decrease, with net bone loss as the tumor grows. The therapeutic effects of targeting both myeloma cells and cells of the bone marrow microenvironment on these dynamics are examined. The current model accurately reflects myeloma bone disease and illustrates how treatment approaches may be investigated using such computational approaches. This article was reviewed by Ariosto Silva and Mark P. Little.
ISSN:1745-6150
1745-6150
DOI:10.1186/1745-6150-5-28