Placentation in mammals: Definitive placenta, yolk sac, and paraplacenta

An overview is given of variations in placentation with particular focus on yolk sac, paraplacenta, and other structures important to histotrophic nutrition. The placenta proper varies in general shape, internal structure, and the number of tissues in the interhemal barrier. Yolk sac membranes persi...

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Bibliographic Details
Published in:Theriogenology 2016-07, Vol.86 (1), p.278-287
Main Authors: Carter, A.M., Enders, A.C.
Format: Article
Language:English
Subjects:
Animals
Chorion
Choriovitelline placentation
Female
Hemophagous areas
Mammals - embryology
Mammals - physiology
Placenta - physiology
Placentation - physiology
Pregnancy
Smooth chorioallantois
Vascular paraplacenta
Yolk Sac - physiology
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Summary:An overview is given of variations in placentation with particular focus on yolk sac, paraplacenta, and other structures important to histotrophic nutrition. The placenta proper varies in general shape, internal structure, and the number of tissues in the interhemal barrier. Yolk sac membranes persist to term in insectivores, colugos, rodents, and lagomorphs. In the latter two orders, they are of known importance for maternal–fetal transfer of antibodies, vitamins, lipids, and proteins. The detached yolk sac of bats is also active throughout gestation. A vascular paraplacenta, or smooth chorioallantois, has known functions in ruminants and carnivores and is found in several other orders of mammal where its function has yet to be explored. In human gestation, the chorion (avascular chorioallantois) is important for hormone synthesis. The true chorion of squirrels and hedgehogs is avascular but may nevertheless allow transfer from mother to fetus through the exocelom. Hemophagous areas with columnar trophoblast are paraplacental structures in carnivores and elephants but occur also within the placenta as in hyenas and moles. In shrews, it is the yolk sac that ingests and processes red cells. Areolas and chorionic vesicles are other structures important for absorption of uterine secretions and ingestion of cellular debris. In conclusion, we find that paraplacental structures, while showing less variation than the placenta proper, contribute not just to the integrity of overall placentation, but in various ways to maternal–fetal interrelationships.
ISSN:0093-691X
1879-3231
DOI:10.1016/j.theriogenology.2016.04.041