Background: Oral iron supplementation (OIS) is a widely-used strategy to treat iron deficiency anemia. However, absorption of OIS is often low and response is variable. To overcome this, large doses are given but this may reduce compliance due to gastric irritation. Thus, OIS doses should be low, while maximizing absorption. The prevailing serum hepcidin concentration (SHep) is the major determinant of iron absorption and erythrocyte iron utilization. Based on limited data in humans, SHep can be increased by a single OIS dose but the duration of the increase is uncertain: In a recent study conducted in our laboratory it has been found to last approx. 24 h. Also, there are few data on how the increase in SHep determines the absorption of further doses of oral iron. Is there a threshold SHep at which subsequent iron absorption is sharply reduced? Better understanding of this relationship would be valuable to design more effective and safer OIS regimens. Objectives: 1) Determine whether two consecutive dosages of 60 mg Fe differently affect hepcidin response and iron bioavailability (Study 1) 2) Compare the bioavailability of iron supplement dosages given at different times of the day (Study 2). Methods/Subjects: Healthy female subjects will be screened for low iron status. Anemic subjects will be excluded from the study. Thirty two subjects will be included with serum ferritin \<20 µg/L, C-reactive protein \<5 mg/L and Hemoglobin \>117 g/L. Subjects will be randomized in two groups and their Hepcidin (sHep) and iron status markers monitored at day 1 (baseline). Subjects will receive iron supplement dosages of 60 mg with stable iron isotopes 54Fe, 57Fe, 58Fe in form of 4 mg of FeSO4. Prior administration blood samples will be collected to monitor sHep and iron status markers. Outcome: The combined use of stable iron isotopes and a sensitive SHep assay will allow for better understanding of the iron-hepcidin relationship and this may enable design of more effective OIS regimens.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
PREVENTION
Masking
NONE
Enrollment
32
Subjects will receive FeSo4 supplements labeled with stable isotopic labels (54Fe, 57Fe, 58Fe) and iron absorption will be measured for each administration
ETH Zürich, Laboratory of Human Nutrition
Zurich, Canton of Zurich, Switzerland
Iron absorption of stable isotopic tracers.
Stable iron isotopes will be administered under standardized conditions and close supervision. Iron absorption will be calculated from the shift in the normal isotopic abundance in Red blood cells 14 days after test meal incorporation.
Time frame: 14 days
Iron status
To characterize participants, iron status will be assessed by measuring serum ferritin.
Time frame: 14 days
Inflammatory status
To characterize subjects participating to the study, C- reactive protein will be measured as inflammatory marker.
Time frame: 14 days
Hepcidin level
As a determinant of iron absorption (primary outcome) hepcidin level will be measured at all timepoint prior administration of stable isotopic label tracers.
Time frame: 14 days
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.