Low serum carnitine level is associated with increased urinary carnitine excretion in late pregnancy.

BACKGROUND: Carnitine is essential for fatty acid metabolism. Free carnitine (FCA) is excreted in the urine in the glomerulus, but is partly reabsorbed by a carnitine transporter. The mechanism underlying the decrease in serum carnitine level during pregnancy is unclear. OBJECTIVE: To investigate whether low carnitine level is associated with increased renal excretion in pregnant women. METHODS: We recruited 43 healthy pregnant and 25 non-pregnant women. Total carnitine (TCA) and FCA levels were measured using the enzymatic cycling method, and the acylcarnitine (ACA) level was calculated. Fractional excretion (FE) was calculated as carnitine clearance divided by creatinine clearance. RESULTS: The mean TCA, FCA, and ACA levels were lower at 12 weeks of gestation in pregnant than non-pregnant women (P < .001); the levels decreased further at 36 weeks, reaching 39%, 36%, and 52% of those in non-pregnant women, respectively (P < .001). The FEs were 3-4-fold higher in pregnant women than non-pregnant women. Pregnant women had a lower serum FCA/TCA ratio than non-pregnant women (0.788 ± 0.098 vs 0.830 ± 0.074, respectively; P < .05), whereas the urine FCA/TCA ratio was similar between the groups. CONCLUSION: Low carnitine level is associated with increased renal excretion during late pregnancy.

Lipoprotein lipase concentration in umbilical cord blood reflects neonatal birth weight.

BACKGROUND: Insulin resistance (IR) is exacerbated during pregnancy via increases in insulin counterregulatory hormones. Maternal lipids are strong determinants of neonatal growth, although triglyceride-rich lipoproteins (TGRLs) cannot be transferred directly to the fetus through the placenta. The catabolism of TGRLs under physiological IR and the reduced synthesis of lipoprotein lipase (LPL) are poorly understood. We examined the association of maternal and umbilical cord blood (UCB)-LPL concentrations with maternal metabolic parameters and fetal development. METHODS: Changes in anthropometric measures and lipid-, glucose-, and insulin-related parameters, including maternal and UCB-LPL concentrations, were examined in 69 women during pregnancy. The relationship between those parameters and neonatal birth weight was assessed. RESULTS: Parameters reflecting glucose metabolism did not change during pregnancy, whereas those associated with lipid metabolism and IR changed markedly, particularly in the second and third trimesters. In the third trimester, the maternal LPL concentration gradually decreased, by 54%, whereas the UCB-LPL concentration was âˆ¼2-fold higher than the maternal LPL concentration. Univariate and multivariate analyses showed that the UCB-LPL concentration was a significant determinant of neonatal birth weight, together with placental birth weight. CONCLUSION: The LPL concentration in UCB reflects neonatal development under a decreased LPL concentration in maternal serum.