1997
DOI: 10.1016/s0143-4004(97)90096-5
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The ultrastructure of the trophoblastic layer of the degu (Octodon degus) Placenta: a Re-evaluation of the ‘Channel Problem’

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Cited by 31 publications
(11 citation statements)
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“…By TEM analysis, Kertschanska et al (1997) demonstrated that the placental channels that begin from the basal trophoblastic plasmalemma and terminate on the maternal surface range from 15-25 nm in diameter under normal intravascular pressure [ 92 ]. Therefore, this pore size would allow the NPs of size under 25 nm to cross the PB by passive diffusion.…”
Section: The Possible Ways For Nps Across the Pbmentioning
confidence: 99%
“…By TEM analysis, Kertschanska et al (1997) demonstrated that the placental channels that begin from the basal trophoblastic plasmalemma and terminate on the maternal surface range from 15-25 nm in diameter under normal intravascular pressure [ 92 ]. Therefore, this pore size would allow the NPs of size under 25 nm to cross the PB by passive diffusion.…”
Section: The Possible Ways For Nps Across the Pbmentioning
confidence: 99%
“…In the guinea-pig placenta, which is haemeomonochorial and syncytial like the human, with a similar permeability to the inert hydrophilic solutes, tubules or bag-like structures in the syncytiotrophoblast can be visualized under the electron microscope but only if the placentas are fixed following imposition of a significant hydrostatic pressure (Kaufmann et al 1982). Similar structures may also be visualized in the placenta of the degu (Kertschanska et al 1997). However, it has not been possible to demonstrate whether these structures really are channels which span the width of Figure 2.…”
Section: The Syncytiotrophoblast As a Transporting Epitheliummentioning
confidence: 99%
“…Because the placenta is a lipid-pore membrane (Kurz and Fasching, 1968), QDs and Cd 2þ could cross the placental barrier by passive diffusion. Even though the placental barrier could only partly prevent the QDs penetrating into the fetuses on account of the small diameter of placental channels (Kertschanska et al, 1997), QDs may also be ingested by endocytosis (Chu et al, 2010). The less toxicity of PEG-or SiO 2 -coated QDs may be ascribed to the larger particle size and the reduced release of Cd 2þ ions.…”
Section: Np-induced Embryo-fetal Toxicity In Animal Models Quantum Dotsmentioning
confidence: 99%