天然和氧化果胶和二甘氨酸亚铁基质及其在胃肠道条件下的体外行为

IF 2.5 Q3 CHEMISTRY, PHYSICAL Colloids and Interfaces Pub Date : 2023-04-23 DOI:10.3390/colloids7020035
M. Jiménez, Daniela Viteri, Daniela Oña, M. León, V. Ochoa-Herrera, Natalia Carpintero, F. Sepulcre, J. Álvarez-Barreto
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引用次数: 0

摘要

开发了天然果胶和氧化果胶的胶体基质,以提高铁在消化道中的生物利用度。通过甘氨酸螯合到Fe2+的沉淀获得的双甘氨酸亚铁(Gly-Fe)与天然和过氧化物氧化的柑橘果胶混合,随后冻干。对照品包括含铁和甘氨酸的基质,不含螯合物。在模拟唾液、胃液和肠液中进行体外消化前后,通过FTIR、SEM和TGA/DSC对所得样品进行表征。在这些消化过程中,对溶胀能力和铁释放进行了评估。所有基质配方都是多孔的,虽然果胶氧化不会改变结构,但它改变了它们的性质,提高了热稳定性,这可能是由于氧化过程中产生的羰基有更多的相互作用可能性。这也导致较低的溶胀能力,当使用螯合络合物时观察到更大的稳定性。在胃液和肠液中发现了更高的肿胀。果胶氧化也增加了螯合形式的保留,与未螯合铁相反。因此,果胶氧化与铁以二甘酸亚铁的形式结合对基质稳定性和铁通过消化道的释放具有重要影响。这些基质可以潜在地提高铁的生物利用度,减少强化铁食品的感官变化。
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Matrices of Native and Oxidized Pectin and Ferrous Bisglycinate and Their In Vitro Behavior through Gastrointestinal Conditions
Colloidal matrices of native and oxidized pectin were developed to improve iron bioavailability through the digestive tract. Ferrous bisglycinate (Gly-Fe), obtained by precipitation of glycine chelation to Fe2+, was mixed with native and peroxide-oxidized citrus pectin, and subsequently lyophilized. Controls included matrices with iron and glycine without chelation. The resulting samples were characterized through FTIR, SEM, and TGA/DSC before and after in vitro digestion, which was performed in simulated salivary, gastric, and intestinal fluids. During these digestions, swelling capacity and iron release were assessed. All matrix formulations were porous, and while pectin oxidation did not alter architecture, it changed their properties, increasing thermal stability, likely due to greater number of interaction possibilities through carbonyl groups generated during oxidation. This also resulted in lower swelling capacity, with greater stability observed when using the chelated complex. Higher swelling was found in gastric and intestinal fluids. Pectin oxidation also increased retention of the chelated form, contrary to what was observed with unchelated iron. Thus, there is an important effect of pectin oxidation combined with iron in the form of ferrous biglyscinate on matrix stability and iron release through the digestive tract. These matrices could potentially improve iron bioavailability, diminishing organoleptic changes in fortified iron foods.
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来源期刊
Colloids and Interfaces
Colloids and Interfaces CHEMISTRY, PHYSICAL-
CiteScore
3.90
自引率
4.20%
发文量
64
审稿时长
10 weeks
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