Display Abstract

Title Modeling, Simulation and Analysis for Foreign Body Fibrotic Reactions in 2D

Name Jianzhong Su
Country USA
Email su@uta.edu
Co-Author(s) Larrissa Owens, Akif Ibraguimov, Jichen Yang, Liping Tang
Submit Time 2014-03-02 18:43:47
Session
Special Session 22: Modeling and dynamic analysis of complex patterns in biological systems and data
Contents
The implantation of medical devices often triggers several immune responses, one kind of which is categorized as foreign body reactions. It is well established that macrophages and many other cells participate in the complex processes of foreign body reactions, and cause severe inflammations and fibrotic capsule formation in surrounding tissues. However, the detailed mechanisms of macrophage responses, recruitment and activation, in foreign body reactions are not totally understood. In the meantime, mathematical models have been proposed to systematically decipher the behavior of this complex system of multiple cells, proteins and biochemical processes in wound healing responses. This talk introduces a kinetics-based model for analyzing reactions of various cells/proteins and biochemical processes as well as their transient behavior during the implant healing in 2-dimensional space. In particular, we provide a detailed modeling study of different roles of macrophages and their effects on fibrotic reactions. The mathematical result indicates that the stability of the inflamed steady state depends primarily on the reaction dynamics of the system. However, if the said equilibrium is unstable by its reaction-only system, the spatial diffusion and chemotactic effects can help to stabilize when the model is dominated by classical and regulatory macrophages over the inflammatory macrophages. We find that the simulation results are consistent with the experimental observations. These findings support that the model can reveal quantitative insights for studying foreign body reaction processes.