The interplay between maternal-infant anemia and iron deficiency.
Study Goal
The researchers aimed to determine the impact of maternal iron deficiency anemia during pregnancy on infant hemoglobin and iron stores in the first year of life, and whether iron supplementation could mitigate these effects.
Results Summary
Severe maternal iron deficiency anemia in pregnancy was associated with lower infant ferritin and hemoglobin levels at birth, and increased risk of iron deficiency and anemia in infants aged 6-12 months. Iron supplementation during pregnancy may reduce infant anemia risk, but more evidence is needed to confirm its functional impact.
Population
Pregnant women and their infants up to 12 months of age.
Effective Dosage
Not specified
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
severe maternal iron deficiency anemia in pregnancy | decrease | ferritin levels | infants at birth | - | is associated with lower | #1 |
severe maternal iron deficiency anemia in pregnancy | decrease | hemoglobin levels | infants at birth | - | is associated with lower | #2 |
severe anemia in pregnancy | increase | iron deficiency | infants 6-12 months of age | - | increases the risk of | #3 |
severe anemia in pregnancy | increase | anemia | infants 6-12 months of age | - | increases the risk of | #4 |
iron supplementation | decrease | infant anemia | infants during the first year of life | - | could reduce the risk of | #5 |
iron supplementation | decrease | iron deficiency | infants during the first year of life | - | could reduce the risk of | #6 |
Iron deficiency anemia in pregnancy is a major public health problem known to cause maternal morbidity and adverse birth outcomes, and it may also have lasting consequences on infant development. However, the impact of the maternal hematological environment on fetal and infant hemoglobin and iron stores in the first year of life remains unclear. This review of the epidemiological evidence found that severe maternal iron deficiency anemia in pregnancy is associated with lower ferritin, and to a lesser degree hemoglobin levels, in infants at birth. Emerging data also suggests that severe anemia in pregnancy increases the risk of iron deficiency and anemia in infants 6-12 months of age, although longitudinal studies are limited. Effective anemia prevention in pregnancy, such as iron supplementation, could reduce the risk of infant anemia and iron deficiency during the first year of life; however, more evidence is needed to determine the functional impact of iron supplementation in pregnancy on infant hematological indices.