Impact of reduced pancreatin and bile on Fe and Zn bioaccessibility assessment using the INFOGEST in vitro digestion method with stable isotopic labelling
Alexandre Minami Fioroto, Molly Muleya, Lolita Wilson, Kaja Kristensen, Ruth Price, David A. Gray, Eduardo Purgatto, Elizabeth H. Bailey

TL;DR
This study examines how reducing pancreatin and bile in digestion experiments affects the measurement of iron and zinc availability in different foods.
Contribution
The study reveals that reducing pancreatin and bile impacts mineral solubility and digestion, highlighting the need for standardized methods in mineral bioaccessibility assessments.
Findings
Fe solubility increased in cereals, beans, and nuts but decreased in sweet potato.
Zn solubility increased in oats, nuts, and leafy vegetables but decreased in potatoes and beans.
Standard INFOGEST conditions generally showed higher Fe and Zn solubility.
Abstract
In a previously proposed stable isotope approach based on the INFOGEST protocol, pancreatin and bile amounts were reduced due to their high mineral content, which interferes with Fe and Zn measurements. The present study examined the impact of reagent reduction on macronutrient digestibility and, consequently, mineral release in ten food samples. Macronutrient digestibility was higher under INFOGEST conditions. However, Fe and Zn solubility were not consistently modified across matrices, although, a general trend of increased solubility was observed in the standard INFOGEST method. Fe solubility increased by 64–91 % in cereals, beans, and nuts but decreased by 48 % in sweet potato. Similarly, Zn solubility increased by 11–75 % in oats, nuts, and leafy vegetables, while it decreased by 18–64 % in potatoes and beans. Overall, the influence of enzymatic action and background minerals could…
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Taxonomy
TopicsTrace Elements in Health · Plant Micronutrient Interactions and Effects · Heavy metals in environment
