A stochastic model for early placental development.

Simon L Cotter, Václav Klika, Laura Kimpton, Sally Collins, Alexander E P Heazell

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    Abstract

    In the human, placental structure is closely related to placental function and consequent pregnancy outcome. Studies have noted abnormal placental shape in small-for-gestational-age infants which extends to increased lifetime risk of cardiovascular disease. The origins and determinants of placental shape are incompletely understood and are difficult to study in vivo. In this paper, we model the early development of the human placenta, based on the hypothesis that this is driven by a chemoattractant effect emanating from proximal spiral arteries in the decidua. We derive and explore a two-dimensional stochastic model, and investigate the effects of loss of spiral arteries in regions near to the cord insertion on the shape of the placenta. This model demonstrates that disruption of spiral arteries can exert profound effects on placental shape, particularly if this is close to the cord insertion. Thus, placental shape reflects the underlying maternal vascular bed. Abnormal placental shape may reflect an abnormal uterine environment, predisposing to pregnancy complications. Through statistical analysis of model placentas, we are able to characterize the probability that a given placenta grew in a disrupted environment, and even able to distinguish between different disruptions.
    Original languageEnglish
    Article number20140149
    JournalJournal of the Royal Society, Interface / the Royal Society
    Volume11
    Issue number97
    DOIs
    Publication statusPublished - 6 Aug 2014

    Keywords

    • mathematical modelling
    • placental development
    • placental shape
    • spiral artery
    • stochastic dynamics

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