AI Article Synopsis
- Iron is crucial for human health, with a high demand for iron atoms to support haemoglobin formation in the body.
- To measure how well iron is absorbed, three main methods are commonly used: faecal recovery, plasma appearance, and erythrocyte incorporation.
- A new technique integrating Isotope Pattern Deconvolution (IPD) allows researchers to better assess how much iron is incorporated into red blood cells after supplementation, using stable isotopes for precise measurements.
Article Abstract
Iron is an essential element for human life and its nutritional status in the human body is directly linked to human health. More than 1015 atoms of iron per second are necessary for the maintenance of haemoglobin formation. To predict iron bioavailability three approaches are normally employed: (a) faecal recovery; (b) plasma appearance; and (c) erythrocyte incorporation (the most used). Isotope Pattern Deconvolution (IPD) is a mathematical tool that allows the isolation of distinct isotope signatures from mixtures of natural abundance and enriched tracers. In this work we propose a novel strategy to assess erythrocyte iron incorporation, based on the use of an iron stable isotope (Fe) and the IPD concept. This strategy allows direct calculation of the exogenous concentration of Fe incorporated into RBCs after supplementation. In this way, to determine the mass of iron incorporated into erythrocytes, the unique prediction that must be made is the blood volume, estimate to reproduce the natural dilution of the tracer (Fe) in the blood. This novel bioanalytical approach was applied for the measurements of iron incorporation and further iron absorption studies in humans, using a group of twelve healthy participants, that should be further evaluated for the assessment of other chemical elements that could be of health concerns and directly impact society.
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| http://dx.doi.org/10.1016/j.talanta.2023.125579 | DOI Listing |
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