TITLE:
Stochastic Modelling of Solution Particle Movement: An Individual Case of Coupled Concentration Gradient Dependent and Independent Movements of Efavirenz
AUTHORS:
Tafireyi Nemaura
KEYWORDS:
Stochastic Differential Equation, Secondary Saturation Movement, Self Diffusion, Transport Diffusion
JOURNAL NAME:
Journal of Applied Mathematics and Physics,
Vol.5 No.5,
May
16,
2017
ABSTRACT: This work proposed a coupled model of diffusion. It adopted two forms of coupled movement, the interacting and non-interacting driven forms of movement of a solution particle of efavirenz concentration measured in blood plasma. Data from projected pharmacokinetics in a patient on efavirenz were used. A relationship between interacting and non-interacting diffusion was suggested through a stochastic differential equation. The solution particle with a small value of relative acceleration drift to its active neighbourhood was projected to have a corresponding high transport/interacting diffusion.