Effect of asphyxia on non‐protein‐bound iron and lipid peroxidation in newborn infants

The effect of asphyxia on iron metabolism and lipid peroxidation in newborn infants with hypoxic‐ischemic encephalopathy (HIE) was investigated. Non‐protein‐bound iron (NPBI) and lipid peroxidation (thiobarbituric‐acid‐reactive species; TBARS) in plasma and hematological iron indices were measured in 15 healthy newborn infants (mean gestational age 39 04 weeks, SD 1); 15 asphyxiated infants without neurological abnormalities (AS‐HIE; mean gestational age 38.8 weeks, SD 0.9); and 15 asphyxiated infants with neurological abnormalities (AS+HIE; mean gestational age 39.75 weeks, SD 1.4). Follow‐up was performed at the age of 5 months. It was found that the detectable rates of NPBI in 10 of 15 of the AS‐HIE group and 13 of 15 of the AS+HIE group were significantly higher than that of the control group (5 of 15; both p 0.01). Plasma levels of TBARS in the control (9.20μmol/L, SD 1.9) and AS‐HIE infants (10.13μmol/L, SD 2.7) were significantly lower than those of the AS+HIE group (13.42μmol/L, SD 2.8). Serum iron, total iron binding capacity, and transferrin saturation in the AS+HIE group was higher than the corresponding values of the control and AS‐HIE groups, although no statistical difference was found among them. At 5 months of age, all control and AS‐HIE infants were neurologically normal, whether or not their NPBI was detectable. Of the 12 AS+HIE infants, four (all of whom had detectable NPBI) were neurologically impaired. The average Gross Development Quotient of AS+HIE infants was significantly lower than that of the control or AS‐HIE groups (p<0.01). Results showed that asphyxia could affect iron metabolism and lead to a significant increase in NPBI and lipid peroxidation in newborn infants with HIE, indicating that iron delocalization induced by asphyxia plays a role in the brain injury of asphyxiated infants.