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The impact of heat-set milk protein gel textures modified by pH on circulating amino acid appearance and gastric function in healthy female adults: a randomised controlled trial

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posted on 2024-08-09, 01:08 authored by Amber M. Milan, Giselle Menting, Matthew BarnettMatthew Barnett, Yutong Liu, Warren McNabb, Nicole Roy, Scott HutchingsScott Hutchings, Tanyaradzwa Mungure, Mike WeeksMike Weeks, Siqi Li, Joanne Hort, Stefan CalderStefan Calder, Greg O'GradyGreg O'Grady, Richard MithenRichard Mithen

Modification of dairy proteins during processing impacts structural assemblies, influencing textural and nutritional properties of dairy products, and release and availability of amino acids during digestion. By modifying only pH, acid heat-set bovine dairy gels with divergent textural properties were developed to alter protein digestion. In vitro assay confirmed faster digestion of protein from a firm gel (pH 5.65) versus a soft gel (pH 6.55). We hypothesised that firm gel (FIRM-G; pH 5.6) would result in greater indispensable amino acid (IAA) appearance in circulation over 5 h and corresponding differences in gastric myoelectrical activity relative to soft gel (SOFT-G; pH 6.2). In a randomised, single-blind cross-over trial, healthy females (n = 20) consumed 150 g of each gel; plasma amino acid appearance was assessed over 5 hours. Iso-nitrogenous, iso-caloric gels were prepared from identical mixtures of bovine milk and whey protein concentrates; providing 17.7 g (FIRM-G) and 18.9 g (SOFT-G) of protein per serving. Secondary outcomes included gastric myoelectrical activity measured by body surface gastric mapping, glycaemic, triglyceridaemic, and subjective appetite and digestive responses. Overall plasma IAA (area under the curve) did not differ between gels. However, plasma IAA concentrations were higher, and increased more rapidly over time after SOFT-G compared with FIRM-G (1455 ± 53 versus 1350 ± 62 μmol L−1 at 30 min, p = 0.024). Similarly, total, branched-chain and dispensable amino acids were higher at 30 min with SOFT-G than FIRM-G (total: 3939 ± 97 versus 3702 ± 127 μmol L−1, p = 0.014; branched-chain: 677 ± 30 versus 619 ± 34 μmol L−1, p = 0.047; dispensable: 2334 ± 53 versus 2210 ± 76 μmol L−1, p = 0.032). All other measured parameters were similar between gels. Peak postprandial aminoacidaemia was higher and faster following ingestion of SOFT-G. Customised plasma amino acid appearance from dairy is achievable by altering gel coagulum structure using pH during processing and may have minimal influence on related postprandial responses, with implications for targeting food design for optimal health. The Clinical Trial Registry number is ACTRN12622001418763 (https://www.anzctr.org.au) registered November 7, 2022.

Funding

Milks Mean More: Unlocking the potential of New Zealand's ruminant milks

Ministry of Business, Innovation and Employment

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Rights statement

© The Royal Society of Chemistry 2024. This article is licensed under a Creative Commons Attribution-NonCommercial 3.0 Unported Licence.

Publication date

2024-03-11

Project number

  • Non revenue

Language

  • English

Does this contain Māori information or data?

  • No

Publisher

Royal Society of Chemistry

Journal title

Food and Function

ISSN

2042-6496

Volume/issue number

15

Page numbers

5613-5626

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