Analysis Tools
homeostasis/metabolism
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• exposing pregnant females to hypoxic conditions on E5.5 and E6.5 results in death or resorption of most fetal-placental units at E17.5 whereas wild-type mice are unaffected
• following exposure to hypoxic conditions, the chorioallantoic placental organization is enlarged and distorted at E11.5
• following exposure to hypoxic conditions, hemorrhages are observed in uteroplacental compartments at E11.5
• following exposure to hypoxic conditions, trophoblast giant cells are overgrown at E11.5
• following exposure to hypoxic conditions, there is a decrease in the invasion of endovascular cells at E11.5
• following exposure to hypoxic conditions, mesometrial compartments have enlarged blood spaces and the mesometrial deciduas is compressed
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reproductive system
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• following exposure to hypoxic conditions, the mesometrial deciduas is compressed
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• following exposure to hypoxic conditions, mesometrial compartments have enlarged blood spaces and the mesometrial deciduas is compressed
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embryo
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• following exposure to hypoxic conditions, there is a increase in the invasion of endovascular cells at E11.5
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• following exposure to hypoxic conditions, trophoblast giant cells are overgrown at E11.5
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• following exposure to hypoxic conditions, the chorioallantoic placental organization is enlarged and distorted at E11.5
• following exposure to hypoxic conditions, hemorrhages are observed in uteroplacental compartments at E11.5
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• following exposure to hypoxic conditions, the mesometrial deciduas is compressed
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cardiovascular system
hemorrhage
(
J:117034
)
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• following exposure to hypoxic conditions, hemorrhages are observed in uteroplacental compartments at E11.5
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endocrine/exocrine glands
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• following exposure to hypoxic conditions, mesometrial compartments have enlarged blood spaces and the mesometrial deciduas is compressed
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