Effect of Timing of Micronutrient Powder Consumption on Iron Absorption in Infants

Anemia Clinical Trial

Official title: Testing Iron Absorption From a New Micronutrient Powder Containing Galacto-oligosaccharides (GOS) for Fortification of Infant Foods in Sub-Saharan Africa

Status Completed

Clinical Trial Summary

Infants and young children in sub-Saharan Africa have high rates of iron deficiency anemia (IDA), which adversely affects their growth and cognitive development. In-home iron fortification of complementary foods using micronutrient powders (MNPs) reduces risk for IDA by ensuring that the iron needs of infants and young children are met without changing their traditional diet. In order to optimize iron absorption timing of MNP consumption might as well be important. This is because hepcidin, a key regulator of systemic iron balance, shows a circadian increase that may influence morning versus afternoon iron absorption from the MNP. Furthermore, a single dose of iron can increase hepcidin levels and potentially inhibit iron absorption from a second dose, consumed close in time to the first dose.

To determine the difference between i) morning versus afternoon iron absorption and ii) consecutive versus alternate day iron absorption, investigators will enrol 20 infants from Kwale County aged 6-14 months and conduct two studies. In study 1, infants will consume 2 test meals consisting of maize porridge containing isotopically labelled Ferrous Sulphate in the morning and afternoon on 2 days. In study 2, infants will consume 3 test meals consisting of maize porridge containing isotopically labelled Ferrous Sulphate on two consecutive days and 1 alternate day. In both studies, fourteen days after the last test meal administration, a whole blood sample will be collected by venipuncture for iron isotopic analysis. Iron and inflammation status parameter will be determined at baseline and endpoint. Hepcidin concentrations will be measured before the morning and afternoon meals (study 1) and after second consecutive meal (study 2).

Knowing the effect of time on the expected iron absorption will inform decisions on the ideal timing of MNP to cover the infant's requirement for absorbed iron.

Clinical Trial Description

20 infants will be recruited from the Msambweni County Referral Hospital in southern coastal Kenya to participate in both studies.

Study 1:

At baseline a morning blood sample will be collected from potential study participants for the determination of the following iron and inflammation status parameters: hemoglobin (Hb), hepcidin, plasma ferritin (PF), soluble transferrin receptor (sTfR), zinc protoporphyrin (ZnPP), C-reactive protein (CRP), alpha-1-acid glycoprotein (AGP). Anthropometrics (height, weight, mid-upper arm and head circumference) will be measured, and demographics, the medical history and the feeding habits will be assessed using a questionnaire.

Infants will consume the 1st test meal the next day after enrolment in the morning (day1). On day 2 a 2nd blood sample (1ml) will be collected in the afternoon quantify afternoon concentration of hepcidin in plasma and then the infants will consume the 2nd meal on the 3rd day in the afternoon.

The two isotopically labelled test meals will be fed to the infants by their caregivers under supervision of the research team. The morning test meal A will contain 12 mg of iron as ferrous sulfate given as 2 mg of 57Fe and 10mg of 56Fe. The afternoon test meal will contain 12 mg of iron as ferrous sulfate given as 2 mg of 58Fe and 10 mg of 56Fe.

The test meals will consist of maize porridge (5-10% dry weight) and mineral water (8ml) and will be randomly administered on the two alternate days (AB or BA). Overnight, only breast milk will be allowed to the infant before coming for the morning meal and no breast milk will be given at least 3 h before both morning and afternoon test meal administration. Infants will not be allowed to eat or drink for 2 h after the test meal. Fourteen days after the second test meal administration, 3 ml of whole blood will be collected by venipuncture for iron isotopic analysis and iron and inflammation status. Anthropometrics and health status will be assessed.

Study 2:

At baseline a blood sample will be collected from potential study participants for the determination of iron and inflammation status parameters: hemoglobin (Hb), hepcidin, plasma ferritin (PF), soluble transferrin receptor (sTfR), zinc protoporphyrin (ZnPP), C-reactive protein (CRP), alpha-1-acid glycoprotein (AGP). Anthropometrics (height, weight, mid-upper arm and head circumference) will be measured, and demographics, the medical history and the feeding habits will be assessed using a questionnaire.

Infants will be randomized to consume the consecutive days or alternate day meal schedule on day 1. 1ml of blood will be collected after the second consecutive meal to determine hepcidin level.

Test meal A will contain 12 mg of iron as ferrous sulfate given as 2 mg of 54Fe and 10mg of 56Fe. Test meal B will contain 12 mg of iron as ferrous sulfate given as 2 mg of 57Fe and 10mg of 56Fe. Test meal C will contain 12 mg of iron as ferrous sulfate given as 2 mg of 58Fe and 10mg of 56Fe. All test meals will be consumed in the morning.

The test meals will consist of maize porridge (5-10% dry weight) and mineral water (8ml). Overnight, only breast milk will be allowed to the infant and no breast milk will be given at least 3 h before test meal administration. Test meals plus mineral water will be consumed completely in the presence of the investigators, and the infant will not be allowed to eat or drink for 2 h after the test meal. Fourteen days after the third test meal, 3 ml of whole blood will be collected by venipuncture for iron and inflammation status, and iron analysis in red blood cells. ;

Related Conditions & MeSH terms

• Anemia
• Anemia, Iron-Deficiency
• Iron Deficiency

• NCT number: NCT02989311
• Study type: Interventional
• Source: Swiss Federal Institute of Technology
• Status: Completed
• Phase: N/A
• Start date: August 2016
• Completion date: December 2016