The Influence of Network Structure on the Transport of Blood in the Human Cerebral Microvasculature
Journal
Microcirculation
Journal Volume
19
Journal Issue
2
Pages
175-187
Date Issued
2012
Author(s)
Abstract
In this article, we explore how the structural properties of miniature networks influence the transport of blood through the human cerebral microvasculature. We propose four methods for generating such networks, and investigate both how the resulting network properties match available experimental data from the human cortex and how these properties affect the flow of blood through the networks. As the nature of such microvascular flow patterns is inherently random, we run multiple simulations. We find that the modified spanning tree method produces artificial networks having characteristics closest to those of the microvasculature in human brain, and also allows for high network flow passage per unit material cost, being statistically significantly better than three other methods considered here. Such results are potentially extremely valuable in interpreting experimental data acquired from humans and in improving our understanding of cerebral blood flow at this very small length scale. This could have a significant impact on improving clinical outcomes for vascular brain diseases, particularly vascular dementia, where localized flow patterns are very important. ? 2012 John Wiley & Sons Ltd.
Subjects
article
brain
brain blood flow
brain blood vessel
cerebrovascular disease
hemodynamics
human
microcirculation
microvasculature
multiinfarct dementia
outcomes research
priority journal
Blood Flow Velocity
Brain
Cerebrovascular Circulation
Humans
Microcirculation
Models, Cardiovascular
SDGs
Type
journal article