Multiscale mathematical modeling of aqueous humor dynamics: Applications for precision care in glaucoma

Abstract

Background and Hypothesis: Reduction of intraocular pressure (IOP) resulting from overproduction or impaired outflow of aqueous humor is, to date, the only approved medical treatment for the disease. IOP is determined by the balance between aqueous humor production at the ciliary body and drainage at the anterior chamber angle. A mathematical model describing aqueous humor (AH) flow was employed in order to study the effects of glaucoma medications and risk factors on IOP.

Experimental Design or Project Methods: IOP can be calculated as the unknown variable in the mathematical balance between AH inflow (J_in) and outflow (J_out). Model simulations using MATLAB were used to calculate IOP in conditions of varied trabecular meshwork resistance (R) over changes in episcleral venous pressure (EVP), uveosclearal outflow facility (C_uv), and ciliary capillary blood pressure (cBP) in order to simulate the effects of EVP reducing medications, prostaglandin analogs, and systemic BP, respectively.

Results: The simulated effects of EVP reducing medications and prostaglandin analogs led to IOP decrease of 13.12%, 5.51%, and 2.88% for conditions of R₀, 3R₀, and 6R₀, respectively, where R₀ is equal to the trabecular meshwork resistance when IOP = EVP. The simulated effects of prostaglandin analogs resulted an IOP decrease of 13.73%, 18.34%, and 19.83%, for conditions of R₀, 3R₀, and 6R₀, respectively. The simulated effects of increasing systemic BP resulted in an IOP increase of 49.88%, 58.51%, and 60.71% for conditions of R₀, 3R₀, and 6R₀, respectively.

Conclusion and Potential Impact: The model simulations predict differential efficacy in IOP reducing medications in patients of varied R as well as the differential impact of systemic BP on IOP in patients of varied R. This model has the potential to predict the IOP reducing effect of medications in an individual as well as the impact of risk factors such as systemic BP on IOP.