A mathematical model of intervillous blood flow in the human placentone

I L Chernyavsky; O. E. Jensen; L. Leach

doi:10.1016/j.placenta.2009.11.003

A mathematical model of intervillous blood flow in the human placentone

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Abstract

We present a mathematical model for maternal blood flow in a placental circulatory unit (a placentone), describing flow of maternal blood via Darcy's law and steady advective transport of a dissolved nutrient. The method of images and computational integration along streamlines are employed to find flow and solute concentration distributions, which are illustrated for a range of governing system parameters. The model shows how the calibre of the basal vessels can be a dominant determinant of the maternal blood flow rate through the placentone, given a driving pressure difference between the spiral arteries and decidual veins. The model supports the hypothesis that basal veins are located on the periphery of the placentone in order to optimise delivery of nutrients and suggests the existence of an optimal volume fraction of villous tissue.

Original language	English
Pages (from-to)	44-52
Number of pages	8
Journal	Placenta
Volume	31
Issue number	1
DOIs	https://doi.org/10.1016/j.placenta.2009.11.003 https://doi.org/10.1016/j.placenta.2009.11.003
Publication status	Published - Jan 2010

Keywords

Intervillous blood flow
Method of images
Optimal uptake
Placentone
Solute transport

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title = "A mathematical model of intervillous blood flow in the human placentone",

abstract = "We present a mathematical model for maternal blood flow in a placental circulatory unit (a placentone), describing flow of maternal blood via Darcy's law and steady advective transport of a dissolved nutrient. The method of images and computational integration along streamlines are employed to find flow and solute concentration distributions, which are illustrated for a range of governing system parameters. The model shows how the calibre of the basal vessels can be a dominant determinant of the maternal blood flow rate through the placentone, given a driving pressure difference between the spiral arteries and decidual veins. The model supports the hypothesis that basal veins are located on the periphery of the placentone in order to optimise delivery of nutrients and suggests the existence of an optimal volume fraction of villous tissue.",

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author = "Chernyavsky, {I L} and Jensen, {O. E.} and L. Leach",

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AU - Jensen, O. E.

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AB - We present a mathematical model for maternal blood flow in a placental circulatory unit (a placentone), describing flow of maternal blood via Darcy's law and steady advective transport of a dissolved nutrient. The method of images and computational integration along streamlines are employed to find flow and solute concentration distributions, which are illustrated for a range of governing system parameters. The model shows how the calibre of the basal vessels can be a dominant determinant of the maternal blood flow rate through the placentone, given a driving pressure difference between the spiral arteries and decidual veins. The model supports the hypothesis that basal veins are located on the periphery of the placentone in order to optimise delivery of nutrients and suggests the existence of an optimal volume fraction of villous tissue.

KW - Intervillous blood flow

KW - Method of images

KW - Optimal uptake

KW - Placentone

KW - Solute transport

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DO - 10.1016/j.placenta.2009.11.003

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SP - 44

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A mathematical model of intervillous blood flow in the human placentone

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