Placental passage of benzoic acid, caffeine, and glyphosate in an ex vivo human perfusion system

Tina Mose; Mia Birkhoej Kjaerstad; Line Mathiesen; Jesper Bo Nielsen; Sven Edelfors; Lisbeth E. Knudsen

doi:10.1080/01932690801934513

Placental passage of benzoic acid, caffeine, and glyphosate in an ex vivo human perfusion system

Tina Mose, Mia Birkhoej Kjaerstad, Line Mathiesen, Jesper Bo Nielsen, Sven Edelfors, Lisbeth E. Knudsen

43 Citations (Scopus)

Abstract

Ex vivo perfusion of the human term placenta is a method to study placental transfer without extrapolation from animal to human and with no ethical concerns for mother and child. However, ex vivo placenta perfusion has a limited potential within chemical screening and testing as the method is time-consuming. This study was an attempt to construct data needed to develop quantitative structure-activity relationship (QSAR) models that are able to predict placental transfer of new compounds. Placental transfer is a biological activity that statistically may be related to the physiochemical properties of a given group of compounds. Benzoic acid, caffeine, and glyphosate were chosen as model compounds because they are small molecules with large differences in physiochemical properties. Caffeine crossed the placenta by passive diffusion. The initial transfer rate of benzoic acid was more limited in the first part of the perfusion compared to caffeine, but reached the same steady-state level by the end of perfusion. The transfer of glyphosate was restricted throughout perfusion, with a lower permeation rate, and only around 15% glyphosate in maternal circulation crossed to the fetal circulation during the study period.

Original language	English
Journal	Journal of Toxicology and Environmental Health. Part A: Current Issues
Volume	71
Issue number	15
Pages (from-to)	984-91
Number of pages	8
ISSN	1528-7394
DOIs	https://doi.org/10.1080/01932690801934513
Publication status	Published - 2008

Keywords

Adult
Benzoic Acid
Caffeine
Female
Glycine
Humans
In Vitro Techniques
Maternal-Fetal Exchange
Models, Biological
Perfusion
Placenta
Pregnancy
Quantitative Structure-Activity Relationship

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10.1080/01932690801934513

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title = "Placental passage of benzoic acid, caffeine, and glyphosate in an ex vivo human perfusion system",

abstract = "Ex vivo perfusion of the human term placenta is a method to study placental transfer without extrapolation from animal to human and with no ethical concerns for mother and child. However, ex vivo placenta perfusion has a limited potential within chemical screening and testing as the method is time-consuming. This study was an attempt to construct data needed to develop quantitative structure-activity relationship (QSAR) models that are able to predict placental transfer of new compounds. Placental transfer is a biological activity that statistically may be related to the physiochemical properties of a given group of compounds. Benzoic acid, caffeine, and glyphosate were chosen as model compounds because they are small molecules with large differences in physiochemical properties. Caffeine crossed the placenta by passive diffusion. The initial transfer rate of benzoic acid was more limited in the first part of the perfusion compared to caffeine, but reached the same steady-state level by the end of perfusion. The transfer of glyphosate was restricted throughout perfusion, with a lower permeation rate, and only around 15% glyphosate in maternal circulation crossed to the fetal circulation during the study period.",

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AU - Mose, Tina

AU - Kjaerstad, Mia Birkhoej

AU - Mathiesen, Line

AU - Nielsen, Jesper Bo

AU - Edelfors, Sven

AU - Knudsen, Lisbeth E.

PY - 2008

Y1 - 2008

N2 - Ex vivo perfusion of the human term placenta is a method to study placental transfer without extrapolation from animal to human and with no ethical concerns for mother and child. However, ex vivo placenta perfusion has a limited potential within chemical screening and testing as the method is time-consuming. This study was an attempt to construct data needed to develop quantitative structure-activity relationship (QSAR) models that are able to predict placental transfer of new compounds. Placental transfer is a biological activity that statistically may be related to the physiochemical properties of a given group of compounds. Benzoic acid, caffeine, and glyphosate were chosen as model compounds because they are small molecules with large differences in physiochemical properties. Caffeine crossed the placenta by passive diffusion. The initial transfer rate of benzoic acid was more limited in the first part of the perfusion compared to caffeine, but reached the same steady-state level by the end of perfusion. The transfer of glyphosate was restricted throughout perfusion, with a lower permeation rate, and only around 15% glyphosate in maternal circulation crossed to the fetal circulation during the study period.

AB - Ex vivo perfusion of the human term placenta is a method to study placental transfer without extrapolation from animal to human and with no ethical concerns for mother and child. However, ex vivo placenta perfusion has a limited potential within chemical screening and testing as the method is time-consuming. This study was an attempt to construct data needed to develop quantitative structure-activity relationship (QSAR) models that are able to predict placental transfer of new compounds. Placental transfer is a biological activity that statistically may be related to the physiochemical properties of a given group of compounds. Benzoic acid, caffeine, and glyphosate were chosen as model compounds because they are small molecules with large differences in physiochemical properties. Caffeine crossed the placenta by passive diffusion. The initial transfer rate of benzoic acid was more limited in the first part of the perfusion compared to caffeine, but reached the same steady-state level by the end of perfusion. The transfer of glyphosate was restricted throughout perfusion, with a lower permeation rate, and only around 15% glyphosate in maternal circulation crossed to the fetal circulation during the study period.

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KW - Benzoic Acid

KW - Caffeine

KW - Female

KW - Glycine

KW - Humans

KW - In Vitro Techniques

KW - Maternal-Fetal Exchange

KW - Models, Biological

KW - Perfusion

KW - Placenta

KW - Pregnancy

KW - Quantitative Structure-Activity Relationship

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DO - 10.1080/01932690801934513

M3 - Journal article

C2 - 18569607

SN - 1528-7394

VL - 71

SP - 984

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JO - Journal of Toxicology and Environmental Health. Part A: Current Issues

JF - Journal of Toxicology and Environmental Health. Part A: Current Issues

IS - 15

ER -

Placental passage of benzoic acid, caffeine, and glyphosate in an ex vivo human perfusion system

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Keywords

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