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Clinical Trial Summary

Iron deficiency is the most common micronutrient deficiency in the world today, affecting more than 60% of the global population (www.who.int/nut/ida.htm). The two main strategies for the prevention and treatment of iron deficiency involve fortification of food with iron, or direct supplementation with iron tablets. Simple iron salts (e.g. ferrous sulphate) are well absorbed but at supplemental levels (and potentially at lower levels, as used in food fortificants) can induce free radical activity resulting in gastrointestinal side effects and systematic oxidative stress. As a result, supplementation has poor compliance and improvement in iron status is compromised. Ferric salts are less inclined to produce side effects and although they are relatively well absorbed at fortification levels in food, they are poorly absorbed at the higher supplemental doses. Because certain components of food, such as organic acids, can facilitate ferric iron absorption, we now wish to determine whether dietary organic acids may similarly enable efficient absorption of supplemental ferric iron while preventing the formation of non-transferrin-bound iron (NTBI) which is a proxy for free radical activity. Our strategy is to use an iterative process between in vitro and in vivo experimentation, aimed at identifying the best choice of organic acid and the optimal ratio of iron:organic acid. The study was a cross-over, single-dose comparison against standard-of-care therapy (namely ferrous sulphate) in mildly iron deficient anaemic women. Both the investigational products and the active comparator were administered as a single dose on 2 different occasions, i.e. the investigational products on the first study visit and the active comparator 14 days later on the second study visit.


Clinical Trial Description

The study was a first-in-human iron absorption study of ferric iron oxide-organic acid preparations (Fe-OAs). The study design was cross-over, single-dose, single-blinded comparison against standard-of-care therapy (namely ferrous sulphate) in mildly iron deficient anaemic women. Methyl-cellulose capsules containing single doses of Fe-OAs (60 mg elemental iron equivalent) were given to four subjects per test mixture to determine iron absorption and bioavailability. The study was initially designed in 2 parts (A and B). Part A was an iterative process to determine the best choice of organic acids and the optimal ratio of iron to organic acid that allowed efficient iron absorption, while part B was a comparison of absorption of the two most promising Fe-OA preparations against the standard-of-care therapy (namely ferrous sulphate). Following this iterative-based study we had a candidate Fe-OA preparation that showed nearly equivalent bioavailability to ferrous sulphate and we decided to stop the study at the end of Part A.

On day 1 of the study (Part A), the participants were given one methyl-cellulose capsule containing one of the Fe-OA preparations to be taken on an empty stomach or with a light breakfast consisting of water and 2 slices of white bread with jam. Participants were blinded to which test preparation they received. Serial serum iron levels were obtained at baseline and then 30, 60, 90, 120, 180, 210 and 240 minutes after ingestion of the iron dosage. Fourteen days later the participants returned for the second study visit where they ingested one ferrous sulphate tablet with a light breakfast, and the same visit protocol was followed. Each subject acted as her own control.

The bioavailability of iron from the Fe-OA preparations was determined by measuring erythrocyte incorporation of labelled iron 14 days following a single oral dose. Each Fe-OA preparation was labelled with 2 mg of the stable isotope 58Fe per single dose of the Fe-OA material. Ferrous sulphate was used as a reference for oral iron therapy and to determine individuals who were non-iron absorbers. Non-iron absorbers were defined as those who had no significant net area under the curve (AUC) for serum iron following ferrous sulphate oral ingestion (i.e. this was defined as a serum iron increase ≤ 5 μM). The data obtained for these individuals were excluded from the final analysis.

The bioavailability of ferrous sulphate was determined using short-term changes in serum iron levels using published algorithms. ;


Study Design

Allocation: Randomized, Endpoint Classification: Pharmacokinetics Study, Intervention Model: Crossover Assignment, Masking: Double Blind (Subject, Outcomes Assessor), Primary Purpose: Basic Science


Related Conditions & MeSH terms


NCT number NCT01991600
Study type Interventional
Source Medical Research Council
Contact
Status Completed
Phase Phase 0
Start date May 2006
Completion date May 2010

See also
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