an:05830389
Zbl 1203.92037
Ibragimov, A. I.; McNeal, C. J.; Ritter, L. R.; Walton, J. R.
Stability analysis of a model of atherogenesis: an energy estimate approach. II
EN
Comput. Math. Methods Med. 11, No. 1, 67-88 (2010).
00271712
2010
j
92C50 35K57 35Q92 92C37 35K55 35B35
[For part I of this paper see ibid. 9, No.~2, 121--142 (2008; Zbl 1140.92011).]
Summary: This paper considers modelling atherogenesis, the initiation of atherosclerosis, as an inflammatory instability. Motivated by the disease paradigm of \textit{R. Ross} [New Engl. J. Med. 340, No.~2, 115--126 (1999)] atherogenesis is viewed as an inflammatory spiral with positive feedback loop involving key cellular and chemical species interacting and reacting within the intimal layer of muscular arteries. The inflammation is modelled through a system of nonlinear reaction-diffusion-convection partial differential equations. The inflammatory spiral is initiated as an instability from a healthy state which is defined to be an equilibrium state devoid of certain key inflammatory markers. Disease initiation is studied through a linear, asymptotic stability analysis of a healthy equilibrium state. Various theorems are proved giving conditions on system parameters guaranteeing stability of the health state and conditions on system parameters leading to instability. Among the questions addressed in the analysis is the possible mitigating effect of anti-oxidants upon transition to the inflammatory spiral.
Zbl 1140.92011