In six ewes heat stressed from 39 to 125 days gestation and studied in a normothermic environment at 135 days, fetal and placental masses were less than in control sheep (1,645 vs. 3,112 and 149 vs. 356 g, respectively, P less than 0.01). Umbilical glucose uptakes (Rf,UP) were measured keeping maternal arterial plasma glucose at 70 mg/dl at spontaneously occurring fetal plasma glucose values (state A) and at two additional fetal glucose levels, to determine the transplacental glucose difference (delta) vs. Rf,UP relation. At normal delta of 49.2 mg/dl, Rf,UP was less in the experimental group (3.2 vs. 5.6 mg.min-1.kg fetus-1, P less than 0.05). Differences in placental perfusion and glucose consumption could not account for this result, thus indicating a reduced placental glucose transport capacity. In state A, fetal hypoglycemia enlarged significantly (P less than 0.01) the delta to 56.7 mg/dl and increased Rf,UP approximately 50% over the Rf,UP at a normal delta. In heat-induced fetal growth retardation, fetal hypoglycemia increases the flux of maternal glucose across a placenta with reduced glucose transport capacity.
Placental growth factor (PlGF) and vascular endothelial growth factor (VEGF) are involved in placental angiogenesis through interactions with the VEGFR‐1 and VEGFR‐2 receptors. The placenta of pregnancies whose outcome is fetal growth restriction (FGR) are characterized by abnormal angiogenic development, classically associated with hypoxia. The present study evaluated the near‐term expression of this growth factor family in an ovine model of placental insufficiency–FGR, in relationship to uteroplacental oxygenation. Compared to controls, FGR pregnancies demonstrated a 37 % increase in uterine blood flow (FGR vs. control, 610.86 ± 48.48 vs. 443.17 ± 37.39 ml min−1 (kg fetus)−1; P < 0.04), which was associated with an increased maternal uterine venous PO2 (58.13 ± 1.00 vs. 52.89 ± 1.26 mmHg; P < 0.02), increased umbilical artery systolic/diastolic ratio (3.90 ± 0.33 vs. 2.12 ± 0.26, P < 0.05), and fetal hypoxia (arterial PO2; 12.79 ± 0.97 vs. 18.65 ± 1.6 mmHg, P < 0.005). Maternal caruncle PlGF mRNA was increased in FGR (P < 0.02), while fetal cotyledon VEGF mRNA was reduced (P < 0.02). VEGFR‐1 mRNA was also reduced in FGR fetal cotyledon (P < 0.001) but was not altered in caruncle tissue. Immunoblot analysis of PlGF and VEGF demonstrated single bands at 19 000 and 18 600 Mr, respectively. Caruncle PlGF concentration was increased (P < 0.04), while cotyledon VEGF was decreased (P < 0.05) in FGR placentae. The data establish that uterine blood flow is not reduced in relationship to metabolic demands in this FGR model and that the transplacental PO2 gradient is increased, maintaining umbilical oxygen uptake per unit of tissue. Furthermore, these data suggest that an increased transplacental gradient of oxygen generates changes in angiogenic growth factors, which may underline the pathophysiology of the post‐placental hypoxic FGR.
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