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. 2008 Jan 23:5:2.
doi: 10.1186/1742-4682-5-2.

A mathematical model of venous neointimal hyperplasia formation

Paula Budu-Grajdeanu  1 Richard C SchugartAvner FriedmanChristopher ValentineAnil K AgarwalBrad H Rovin
Affiliations

A mathematical model of venous neointimal hyperplasia formation

Paula Budu-Grajdeanu et al. Theor Biol Med Model. .

Abstract

Background: In hemodialysis patients, the most common cause of vascular access failure is neointimal hyperplasia of vascular smooth muscle cells at the venous anastomosis of arteriovenous fistulas and grafts. The release of growth factors due to surgical injury, oxidative stress and turbulent flow has been suggested as a possible mechanism for neointimal hyperplasia.

Results: In this work, we construct a mathematical model which analyzes the role that growth factors might play in the stenosis at the venous anastomosis. The model consists of a system of partial differential equations describing the influence of oxidative stress and turbulent flow on growth factors, the interaction among growth factors, smooth muscle cells, and extracellular matrix, and the subsequent effect on the stenosis at the venous anastomosis, which, in turn, affects the level of oxidative stress and degree of turbulent flow. Computer simulations suggest that our model can be used to predict access stenosis as a function of the initial concentration of the growth factors inside the intimal-luminal space.

Conclusion: The proposed model describes the formation of venous neointimal hyperplasia, based on pathogenic mechanisms. The results suggest that interventions aimed at specific growth factors may be successful in prolonging the life of the vascular access, while reducing the costs of vascular access maintenance. The model may also provide indication of when invasive access surveillance to repair stenosis should be undertaken.

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Figures

Figure 1
Figure 1
A schematic diagram illustrating some causes and effects of intimal hyperplasia. The red letters represent the variables in our model, while the blue numbers indicate the sources cited.
Figure 2
Figure 2
Numerical simulations showing that decrease of initial concentration of growth factors in the proximal vein, a(0), by a factor of 5 delays the onset of stenosis by more than 2 months.
See this image and copyright information in PMC

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