The role of morphology in mathematical models of placental gas exchange

A. S. Serov; C. Salafia; D. S. Grebenkov; M. Filoche

doi:10.1152/japplphysiol.00543.2015

The role of morphology in mathematical models of placental gas exchange

A. S. Serov
, C. Salafia
, D. S. Grebenkov
, M. Filoche

Placental Analytics, LLC

Research output: Contribution to journal › Review article › peer-review

Abstract

The performance of the placenta as a gas exchanger has a direct impact on the future health of the newborn. To provide accurate estimates of respiratory gas exchange rates, placenta models need to account for both the physiology of exchange and the organ morphology. While the former has been extensively studied, accounting for the latter is still a challenge. The geometrical complexity of placental structure requires use of carefully crafted approximations. We present here the state of the art of respiratory gas exchange placenta modeling and demonstrate the influence of the morphology description on model predictions. Advantages and shortcomings of various classes of models are discussed, and experimental techniques that may be used for model validation are summarized. Several directions for future development are suggested.

Original language	English
Pages (from-to)	17-28
Number of pages	12
Journal	Journal of Applied Physiology
Volume	120
Issue number	1
DOIs	https://doi.org/10.1152/japplphysiol.00543.2015
Publication status	Published - 1 Jan 2016

Keywords

Diffusing capacity
Experimental techniques
Flow patterns
Histomorphometry
Porous medium

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10.1152/japplphysiol.00543.2015

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title = "The role of morphology in mathematical models of placental gas exchange",

abstract = "The performance of the placenta as a gas exchanger has a direct impact on the future health of the newborn. To provide accurate estimates of respiratory gas exchange rates, placenta models need to account for both the physiology of exchange and the organ morphology. While the former has been extensively studied, accounting for the latter is still a challenge. The geometrical complexity of placental structure requires use of carefully crafted approximations. We present here the state of the art of respiratory gas exchange placenta modeling and demonstrate the influence of the morphology description on model predictions. Advantages and shortcomings of various classes of models are discussed, and experimental techniques that may be used for model validation are summarized. Several directions for future development are suggested.",

keywords = "Diffusing capacity, Experimental techniques, Flow patterns, Histomorphometry, Porous medium",

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AU - Serov, A. S.

AU - Salafia, C.

AU - Grebenkov, D. S.

AU - Filoche, M.

PY - 2016/1/1

Y1 - 2016/1/1

N2 - The performance of the placenta as a gas exchanger has a direct impact on the future health of the newborn. To provide accurate estimates of respiratory gas exchange rates, placenta models need to account for both the physiology of exchange and the organ morphology. While the former has been extensively studied, accounting for the latter is still a challenge. The geometrical complexity of placental structure requires use of carefully crafted approximations. We present here the state of the art of respiratory gas exchange placenta modeling and demonstrate the influence of the morphology description on model predictions. Advantages and shortcomings of various classes of models are discussed, and experimental techniques that may be used for model validation are summarized. Several directions for future development are suggested.

AB - The performance of the placenta as a gas exchanger has a direct impact on the future health of the newborn. To provide accurate estimates of respiratory gas exchange rates, placenta models need to account for both the physiology of exchange and the organ morphology. While the former has been extensively studied, accounting for the latter is still a challenge. The geometrical complexity of placental structure requires use of carefully crafted approximations. We present here the state of the art of respiratory gas exchange placenta modeling and demonstrate the influence of the morphology description on model predictions. Advantages and shortcomings of various classes of models are discussed, and experimental techniques that may be used for model validation are summarized. Several directions for future development are suggested.

KW - Diffusing capacity

KW - Experimental techniques

KW - Flow patterns

KW - Histomorphometry

KW - Porous medium

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DO - 10.1152/japplphysiol.00543.2015

M3 - Review article

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SN - 8750-7587

VL - 120

SP - 17

EP - 28

JO - Journal of Applied Physiology

JF - Journal of Applied Physiology

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ER -

The role of morphology in mathematical models of placental gas exchange

Abstract

Keywords

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