A two phase model of oxygen transport in cerebral tissue
Journal
Proceedings of the 31st Annual International Conference of the IEEE Engineering in Medicine and Biology Society: Engineering the Future of Biomedicine, EMBC 2009
Pages
4921-4924
Date Issued
2009
Author(s)
Abstract
The dynamics of oxygen transport in the human brain are crucial to its response to local mismatches between flow and metabolism, such as occur in vascular dementia. We propose here a two phase continuum model, based on the coupled behaviour of oxygen transport in tissue and blood, which we use to simulate micro-strokes. The two phase coupled model is based on the assumption of porous media, being described by Darcy's equation for blood flow and the mass transport equation for oxygen. Simulation results suggest that the flow input is of importance to maintain the oxygen level at the remote region from the arterial-capillary junctions. ?2009 IEEE.
Subjects
Blood
Continuum mechanics
Flow of fluids
Porous materials
Tissue
Cerebral tissues
Continuum Modeling
Coupled modeling
Darcy's equations
Mass transport equation
Oxygen transport
Two-phase model
Vascular dementia
Oxygen
Type
conference paper