Iron Deficiency Clinical Trial
Official title:
Malaria and Iron Intervention Safety: Absorption and NTBI
The primary study hypothesis of the investigators is that administration of an iron
supplement between meals at a dose like that used in the Pemba trial (~1 mg Fe/kg) during P.
falciparum parasitemia will increase plasma non-transferrin-bound iron. A key subsidiary
hypothesis is that iron administered with meals in amounts used in food fortification (~0.1
mg Fe/kg) will not produce plasma non-transferrin-bound iron.
This research will be carried out at the Hospital for Tropical Diseases, Mahidol University,
Bangkok, Thailand. The studies are intended to help understand how giving iron and folic
acid to preschool children in Pemba, Zanzibar, Tanzania, (the "Pemba trial") in the doses
recommended by the World Health Organization, could have resulted in an increase in
hospitalizations and deaths. The investigators will examine the most likely explanation,
that the dose of iron supplements used in the Pemba trial produced iron in the blood not
bound to the usual carrier for iron (a protein called "transferrin"), that is called
"non-transferrin-bound iron", abbreviated as NTBI. In children with malaria, this NTBI might
favor the growth of malarial parasites or other causes of infection. At present, no studies
have been carried out to see if NTBI is present after giving iron to patients with malaria.
Using non-radioactive forms of iron (called "stable isotopes"), the investigators will study
iron absorption and NTBI after giving a single dose of iron (like that used in the Pemba
trial) one day after treatment for malaria has been started, while patients still have
malaria parasites in the blood, and then again two weeks later, after the malaria has been
cured. The investigators will study adults admitted to the Hospital for Tropical Diseases in
Bangkok, Thailand, with malaria. For reasons of safety, the investigators have chosen to
study adults in the hospital rather than children living in an area like Pemba but the
results should also apply to children. The outcome of this research will help us design ways
of safely giving iron in malarious areas to adults and children to prevent or treat iron
deficiency.
This research will determine the effects of acute infection with Plasmodium falciparum on
the absorption, pharmacokinetics and metabolism of iron from iron supplements and other iron
preparations in non-immune adults in Thailand. Our project will combine measurements of iron
absorption during and after successful treatment of acute uncomplicated falciparum malaria
with characterization of the pharmacokinetics of the appearance of plasma
nontransferrin-bound iron (NTBI) and measurements of the iron regulatory hormone, hepcidin,
and other proteins of iron metabolism. We will examine iron supplements like those used in
the Pemba supplementation trial (Sazawal et al., Lancet 2006; 367, 133-143) as well as
alternative iron interventions that could minimize or avoid the formation of plasma
non-transferrin-bound iron. This research has three specific aims:
1. to characterize the pharmacokinetics of the appearance of non-transferrin bound iron in
the systemic circulation after oral administration of an iron supplement or other iron
intervention;
2. to determine the effect of acute uncomplicated falciparum malaria on absorption of iron
from iron supplements and other iron interventions, using erythrocyte incorporation of
stable isotopes of iron;
3. to assess the effects of acute uncomplicated falciparum malaria on iron metabolism by
repeated measurements of serum hepcidin, transferrin receptor, ferritin, haptoglobin,
and concentrations of pro- (Th-1) and anti- (Th-2) inflammatory cytokines, erythrocyte
zinc protoporphyrin, and the complete blood count with absolute reticulocyte count and
reticulocyte hemoglobin content (CHr).
These studies of the effects of infection with P. falciparum on iron absorption and
metabolism will further our basic understanding of the interaction of iron supplements with
malaria and other infections. The results could help guide the choice of optimal means for
the prevention and treatment of iron deficiency in regions endemic for malaria.
Characterization of the pharmacokinetics of changes in plasma iron produced by
administration of conventional iron supplements could lead to the design and development of
new formulations of supplemental iron that would maximize iron absorption while minimizing
risks associated with non-transferrin-bound plasma iron. Because of the public health
importance of assuring iron sufficiency in mothers, our studies are focused on women of
childbearing age but the results should be broadly applicable to the optimal means of
providing iron to infants and children.
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Endpoint Classification: Pharmacokinetics/Dynamics Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Basic Science
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