Modelling the effect of intervillous flow on solute transfer based on 3D imaging of the human placental microstructure
Modelling the effect of intervillous flow on solute transfer based on 3D imaging of the human placental microstructure
Introduction: A healthy pregnancy depends on placental transfer from mother to fetus. Placental transfer takes place at the micro scale across the placental villi. Solutes from the maternal blood are taken up by placental villi and enter the fetal capillaries. This study investigated the effect of maternal blood flow on solute uptake at the micro scale.
Methods: A 3D image based modelling approach of the placental microstructures was undertaken. Solute transport in the intervillous space was modelled explicitly and solute uptake with respect to different maternal blood flow rates was estimated. Fetal capillary flow was not modelled and treated as a perfect sink.
Results: For a freely diffusing small solute, the flow of maternal blood through the intervillous space was found to be limiting the transfer. Ignoring the effects of maternal flow resulted in a 2.4 ± 0.4 fold over-prediction of transfer by simple diffusion, in absence of binding. Villous morphology affected the efficiency of solute transfer due to concentration depleted zones. Interestingly, less dense microvilli had lower surface area available for uptake which was compensated by increased flow due to their higher permeability. At super-physiological pressures, maternal flow was not limiting, however the efficiency of uptake decreased.
Conclusions: This study suggests that the interplay between maternal flow and villous structure affects the efficiency of placental transfer but predicted that flow rate will be the major determinant of transfer.
computational modelling, 3D reconstruction, placenta
21-27
Perazzolo, Simone
bc5e3f83-6eb6-4ed6-9173-860a2d03817d
Lewis, Rohan
caaeb97d-ea69-4f7b-8adb-5fa25e2d3502
Sengers, Bram
d6b771b1-4ede-48c5-9644-fa86503941aa
December 2017
Perazzolo, Simone
bc5e3f83-6eb6-4ed6-9173-860a2d03817d
Lewis, Rohan
caaeb97d-ea69-4f7b-8adb-5fa25e2d3502
Sengers, Bram
d6b771b1-4ede-48c5-9644-fa86503941aa
Perazzolo, Simone, Lewis, Rohan and Sengers, Bram
(2017)
Modelling the effect of intervillous flow on solute transfer based on 3D imaging of the human placental microstructure.
Placenta, 60, .
(doi:10.1016/j.placenta.2017.10.003).
Abstract
Introduction: A healthy pregnancy depends on placental transfer from mother to fetus. Placental transfer takes place at the micro scale across the placental villi. Solutes from the maternal blood are taken up by placental villi and enter the fetal capillaries. This study investigated the effect of maternal blood flow on solute uptake at the micro scale.
Methods: A 3D image based modelling approach of the placental microstructures was undertaken. Solute transport in the intervillous space was modelled explicitly and solute uptake with respect to different maternal blood flow rates was estimated. Fetal capillary flow was not modelled and treated as a perfect sink.
Results: For a freely diffusing small solute, the flow of maternal blood through the intervillous space was found to be limiting the transfer. Ignoring the effects of maternal flow resulted in a 2.4 ± 0.4 fold over-prediction of transfer by simple diffusion, in absence of binding. Villous morphology affected the efficiency of solute transfer due to concentration depleted zones. Interestingly, less dense microvilli had lower surface area available for uptake which was compensated by increased flow due to their higher permeability. At super-physiological pressures, maternal flow was not limiting, however the efficiency of uptake decreased.
Conclusions: This study suggests that the interplay between maternal flow and villous structure affects the efficiency of placental transfer but predicted that flow rate will be the major determinant of transfer.
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Accepted/In Press date: 10 October 2017
e-pub ahead of print date: 12 October 2017
Published date: December 2017
Keywords:
computational modelling, 3D reconstruction, placenta
Identifiers
Local EPrints ID: 414945
URI: http://eprints.soton.ac.uk/id/eprint/414945
ISSN: 0143-4004
PURE UUID: 2ab37054-f76e-44d8-ac65-1eeb636e7922
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Date deposited: 17 Oct 2017 16:30
Last modified: 16 Mar 2024 05:49
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Author:
Simone Perazzolo
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