The Effect of Lactoferrin and Dosing Regimen on Iron Absorption From a Maize-based Porridge in Kenyan Infants

Overview

The purpose of this study is to measure iron absorption from maize-based porridge fortified with either apo-lactoferrin, holo-lactoferrin or ferrous sulfate and to test whether there is an effect of these. Additionally, iron absorption from maize-based porridge containing 12 mg ferrous sulfate will be measured when consumed every other day versus every third day.

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. Oral iron syrups, typically containing iron as ferrous sulfate, can also be given to prevent/correct IDA. However, iron absorption from MNPs and iron syrups, particularly when given with complementary foods high in inhibitors of iron absorption, is low. Thus, there is a need to find iron formulations with higher bioavailability for use in African infants. In a recent trial in Kenya, the investigators demonstrated that a prebiotic could improve iron bioavailability from an iron-containing MNP. In this study, the investigators plan to assess the human milk compound lactoferrin (Lf) as a possible enhancer of iron absorption. Lf is an important iron-binding protein in human milk, which has been thought to be responsible for the high bioavailability of breast-milk iron. It has many biological functions, including iron absorption, antimicrobial activity, immunomodulatory effects and stimulatory effect on cell proliferation. Lf has different iron binding statuses: the iron free form (apo-Lf) and the iron-saturated form (holo-Lf). One of the two main biological activities of Lf provided by the diet is the control of iron uptake, which is mediated by the Lf receptor (LFR) as undigested Lf can bind to LFR and facilitate the uptake of iron. Therefore, Lf may be a nutritional iron source and may enhance iron absorption in infants. To evaluate the possible role of Lf on the availability of iron, iron absorption will be measured from bovine Lf (bLf). BLf has GRAS (generally considered as safe) status by the US Food and Drug Administration. To optimize iron absorption, timing of supplementation might as well be important. Hepcidin, a key regulator of systemic iron balance and 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. The investigators will conduct two studies, where 24 infants aged 3-14 months in Msambweni, Kenya, will be enrolled. In study 1, on three alternate mornings, these infants will consume maize porridge containing a low iron dose (1.5 mg) to compare iron absorption between meals with apo-Lf, holo-Lf and ferrous sulfate (FeSO4) as a reference; and whether the addition of either apo- or holo-Lf has a beneficial effect on iron absorption. The investigators hypothesize that iron absorption will be higher when holo-Lf is present in the meal compared to apo-Lf. In study 2, the investigators want to compare two different dosing regimens, in which they measure iron absorption after one-day washout period and after a two-day washout period, and hypothesize that absorption will be higher after 2 days of washout. The data from this project will provide valuable information towards the development of new, highly bioavailable iron formulations and dosing regimen that is most efficient.

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