M Szabó1, B Vásárhelyi, G Balla, T Szabó, T Machay, T Tulassay. 1. First Department of Pediatrics, Joint Research Program of the Hungarian Academy of Sciences, Semmelweis University, Budapest. szabmik@gyer1.sote.hu
Abstract
UNLABELLED: In this study we investigated the extracellular antioxidant capacity of neonates during the first two postnatal days and its association with iron metabolism. Cord blood and blood samples at 47+/-6 postnatal hours were taken from 10 healthy neonates and their antioxidant capacity was determined using Randox Antioxidant kits and the heme-specific antioxidant activity (HSAA). Randox indicates the chain-breaking antioxidant capacity; HSAA corresponds to the ability to limit lipid peroxidation. Iron, ferritin and transferrin levels were also measured. Randox and HSAA values were 30% higher, ferritin was 100% higher and iron was 60% lower postnatally. The amount of change in HSAA values correlated with the change in ferritin level (r= 0.67, p < 0.05). CONCLUSION: These results suggest that extracellular antioxidant capacity (both chain-breaking and heme-specific antioxidant activities) increases shortly after birth. Lower iron and higher ferritin levels could also be responsible for this phenomenon.
UNLABELLED: In this study we investigated the extracellular antioxidant capacity of neonates during the first two postnatal days and its association with iron metabolism. Cord blood and blood samples at 47+/-6 postnatal hours were taken from 10 healthy neonates and their antioxidant capacity was determined using Randox Antioxidant kits and the heme-specific antioxidant activity (HSAA). Randox indicates the chain-breaking antioxidant capacity; HSAA corresponds to the ability to limit lipid peroxidation. Iron, ferritin and transferrin levels were also measured. Randox and HSAA values were 30% higher, ferritin was 100% higher and iron was 60% lower postnatally. The amount of change in HSAA values correlated with the change in ferritin level (r= 0.67, p < 0.05). CONCLUSION: These results suggest that extracellular antioxidant capacity (both chain-breaking and heme-specific antioxidant activities) increases shortly after birth. Lower iron and higher ferritin levels could also be responsible for this phenomenon.
Authors: James H Cross; Ousman Jarjou; Nuredin Ibrahim Mohammed; Santiago Rayment Gomez; Bubacarr J B Touray; Andrew M Prentice; Carla Cerami Journal: EBioMedicine Date: 2020-01-22 Impact factor: 8.143