To determine effects of diabetic gestation on plasma concentration of the coagulation regulatory protein, protein C, pregnant ewes were given glucose infusions to raise plasma glucose to twice baseline concentration or insulin infusions to lower glucose concentration to half baseline value. Control animals received no infusions. Concentrations of protein S, factor X, and antithrombin 111 were determined for comparison. Concentrations of glucose, insulin, and those above were determined thrice weekly for 2-9 wk. Short-term (8-12 h) infusions of glucose or insulin were performed to isolate their effects on concentration of protein C. Results were analyzed using a two-tailed t test, and protein C concentrations were further analyzed using a full linear mixed-effects model. In long-term infusions, hyperglycemia-induced hyperinsulinemia (mean insulin concentration 141 kU/mL) exerted negative effects on maternal concentrations of protein C [0.69 U/mL, n (number of samples) = 32, experimental versus 0.97 U/mL, t~ = 157, control], protein S (0.86 U/mL, n = 31, experimental versus 1.04 U/mL, n = 109, control), and factor X (0.89 U/mL, n = 31, experimental versus 1.08 U/mL, n = 109, control); it exerted no effects on antithrombin I11 (1.05 U/mL, tz = 23, experimental versus 1.04 U/mL, n = 32, control). The fetal lamb did not respond to chronic moderate hyperglycemia (mean 33 mg/dL) with a consistent change in insulin concentration (mean 10 I~C~. S I I . S 9 kU/mL): no coagulation protein changed. In contrast, fetal hypoglycemia resulted in decreased fetal plasma insulin (5 kU/mL t1er.slt.s 10 kU/ mL) and a corresponding increase in protein C (0.56 U/mL, tz = 17, experimental, tler.slcs 0.48 UImL, tz = 180, control) protein S (0.65 UImL, tz = 17, experimental versus 0.44 U/mL, 11 = 87, control), factor X (0.31 U/mL, t~ = 16, experimental ver.str.s 0.24 UImL, n = 86, control), and antithrombin I11 (0.96 U/mL, tl = 14, experimental versus 0.84 U/mL, PI = 32, control). Insulin concentration varied inversely with protein C concentration when all groups were considered together and accounted for 12% of the variability of protein C concentration in control ewes. Glucose was not found to exert an independent effect on protein C concentration within any study group but was significant when all groups were considered together. Short-term studies confirmed the long-term infusion findings in the maternal group with hyperglycemia-induced hyperinsulinemia. These studies indicate that hyperglycemia-induced hyperinsulinemia may predispose to hypercoagulability and thrombosis in the diabetic ewe and her fetus.
