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European Journal of Nutrition
Published in: European Journal of Nutrition 7/2019

01-10-2019 | Original Contribution

Predicting mixed-meal measured glycaemic index in healthy subjects

Authors: Simon Ballance, Svein Halvor Knutsen, Øivind Winther Fosvold, Aida Sainz Fernandez, John Monro

Published in: European Journal of Nutrition | Issue 7/2019

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Abstract

Purpose

To determine the influence of meal composition on the glycaemic impact of different carbohydrate staples, and the accuracy of “adjusted calculated meal GI” compared with “measured mixed-meal GI”.

Methods

In a non-blind randomized crossover trial fasted healthy subjects consumed four dinner-type mixed meals of realistic serving size comprising a carbohydrate staple of either mashed potato, pasta, rice or a glucose drink, combined with fixed portions of boiled carrots, poached salmon and herb sauce. Blood samples collected between 0 and 180 min were analysed for glucose and insulin concentrations. Adjusted calculated meal GI values were determined against a 50 g reference glucose drink, and compared to corresponding measured mixed-meal GIs, supplemented with data from four previous mixed-meal postprandial glycaemic response studies.

Results

The common carbohydrate staples, and the glucose drink, ingested as part of the salmon mixed meal induced a significantly lower post-prandial relative glycaemic response (RGR) and concurrent higher relative insulin response than the same amount of staple eaten alone. Adjusted calculated mixed-meal GI closely predicted measured mixed-meal GI in healthy subjects for 15 out of 17 mixed meals examined, showing the need to account for effects of fat and protein when predicting measured mixed-meal GI. Further, we showed the validity of using customarily consumed food amounts in mixed-meal postprandial RGR study design.

Conclusions

Adjusted calculated mixed-meal GI appears a useful model to predict measured mixed-meal GI in healthy subjects and with further development and validation could aid nutrition research and rational design of healthy meals for personalized nutrition and particular consumer groups.
Literature
1.
Jenkins D, Wolever T, Taylor RH, Barker H, Fielden H, Baldwin JM, Bowling AC, Newman HC, Jenkins AL, Goff DV (1981) Glycemic index of foods: a physiological basis for carbohydrate exchange. Am J Clin Nutr 34:362–366CrossRef
2.
Augustin LSA, Kendall CWC, Jenkins DJA, Willett WC, Astrup A, Barclay AW, Björck I, Brand-Miller JC, Brighenti F, Buyken AE, Ceriello A, La Vecchia C, Livesey G, Liu S, Riccardi G, Rizkalla SW, Sievenpiper JL, Trichopoulou A, Wolever TMS, Baer-Sinnott S, Poli A (2015) Glycemic index, glycemic load and glycemic response: an international scientific consensus summit from the International Carbohydrate Quality Consortium (ICQC). Nutr Metab Cardiovasc Dis 25:795–815. https://​doi.​org/​10.​1016/​j.​numecd.​2015.​05.​005 CrossRefPubMed
3.
Wolever T (2006) The glycaemic index: a physiological classification of dietary carbohydrates. CABI, WallingfordCrossRef
4.
Rietman A, Schwarz J, Tomé D, Kok FJ, Mensink M (2014) High dietary protein intake, reducing or eliciting insulin resistance? Eur J Clin Nutr 68:973CrossRef
5.
Wolever T (2013) Is glycaemic index (GI) a valid measure of carbohydrate quality? Eur J Clin Nutr 67:522CrossRef
6.
Wolever TM, Jenkins DJ (1986) The use of the glycemic index in predicting the blood glucose response to mixed meals. Am J Clin Nutr 43:167–172CrossRef
7.
Moghaddam E, Vogt JA, Wolever TM (2006) The effects of fat and protein on glycemic responses in nondiabetic humans vary with waist circumference, fasting plasma insulin, and dietary fiber intake. J Nutr 136:2506–2511CrossRef
8.
Lan-Pidhainy X, Wolever TM (2009) The hypoglycemic effect of fat and protein is not attenuated by insulin resistance. Am J Clin Nutr 91:98–105CrossRef
9.
Hätönen KA, Virtamo J, Eriksson JG, Sinkko HK, Sundvall JE, Valsta LM (2011) Protein and fat modify the glycaemic and insulinaemic responses to a mashed potato-based meal. Br J Nutr 106:248–253CrossRef
10.
Dodd H, Williams S, Brown R, Venn B (2011) Calculating meal glycemic index by using measured and published food values compared with directly measured meal glycemic index. Am J Clin Nutr 94:992–996CrossRef
11.
Foster-Powell K, Holt SH, Brand-Miller JC (2002) International table of glycemic index and glycemic load values: 2002. Am J Clin Nutr 76:5–56CrossRef
12.
Henry C, Lightowler H, Kendall F, Storey M (2006) The impact of the addition of toppings/fillings on the glycaemic response to commonly consumed carbohydrate foods. Eur J Clin Nutr 60:763–769CrossRef
13.
Monro J, Mishra S (2009) Nutritional value of potatoes: digestibility, glycemic index, and glycemic impact. In: Singh JKL (ed) Advances in potato chemistry and technology. Elsevier, London, pp 395–424
14.
Meng H, Matthan NR, Ausman LM, Lichtenstein AH (2017) Effect of macronutrients and fiber on postprandial glycemic responses and meal glycemic index and glycemic load value determinations. Am J Clin Nutr 105:842–853CrossRef
15.
Brouns F, Bjorck I, Frayn K, Gibbs A, Lang V, Slama G, Wolever T (2005) Glycaemic index methodology. Nutr Res Rev 18:145–171CrossRef
16.
Wolever TMS, Brand-Miller JC, Abernethy J, Astrup A, Atkinson F, Axelsen M, Bjorck I, Brighenti F, Brown R, Brynes A, Casiraghi MC, Cazaubiel M, Dahlqvist L, Delport E, Denyer GS, Erba D, Frost G, Granfeldt Y, Hampton S, Hart VA, Hatonen KA, Henry CJ, Hertzler S, Hull S, Jerling J, Johnston KL, Lightowler H, Mann N, Morgan L, Panlasigui LN, Pelkman C, Perry T, Pfeiffer AFH, Pieters M, Ramdath DD, Ramsingh RT, Robert SD, Robinson C, Sarkkinen E, Scazzina F, Sison DCD, Sloth B, Staniforth J, Tapola N, Valsta LM, Verkooijen I, Weickert MO, Weseler AR, Wilkie P, Zhang J (2008) Measuring the glycemic index of foods: interlaboratory study. Am J Clin Nutr 87:247S–257SCrossRef
17.
Wolever TM, Nuttall FQ, Lee R, Wong GS, Josse RG, Csima A, Jenkins DJ (1985) Prediction of the relative blood glucose response of mixed meals using the white bread glycemic index. Diabetes Care 8:418–428CrossRef
18.
Acheson KJ, Blondel-Lubrano A, Oguey-Araymon S, Beaumont M, Emady-Azar S, Ammon-Zufferey C, Monnard I, Pinaud S, Nielsen-Moennoz C, Bovetto L (2011) Protein choices targeting thermogenesis and metabolism. Am J Clin Nutr 93:525–534CrossRef
19.
Collier G, McLean A, O’dea K (1984) Effect of co-ingestion of fat on the metabolic responses to slowly and rapidly absorbed carbohydrates. Diabetologia 26:50–54CrossRef
20.
Welch IM, Bruce C, Hill S, Read N (1987) Duodenal and ileal lipid suppresses postprandial blood glucose and insulin responses in man: possible implications for the dietary management of diabetes mellitus. Clin Sci 72:209–216CrossRef
21.
Clegg ME, Pratt M, Markey O, Shafat A, Henry CJK (2012) Addition of different fats to a carbohydrate food: Impact on gastric emptying, glycaemic and satiety responses and comparison with in vitro digestion. Food Res Int 48:91–97CrossRef
22.
Grimm M, Scholz E, Koziolek M, Kühn J-P, Weitschies W (2017) Gastric water emptying under fed state clinical trial conditions is as fast as under fasted conditions. Mol Pharm 14:4262–4271CrossRef
23.
Christensen NJ, Örskov H, Hansen AP (1972) Significance of glucose load in oral glucose tolerance tests. J Intern Med 192:337–342
24.
Wolever TM, Katzman-Relle L, Jenkins AL, Vuksan V, Josse RG, Jenkins DJ (1994) Glycaemic index of 102 complex carbohydrate foods in patients with diabetes. Nutr Res 14:651–669CrossRef
25.
Lee BM, Wolever TMS (1998) Effect of glucose, sucrose and fructose on plasma glucose and insulin responses in normal humans: comparison with white bread. Eur J Clin Nutr 52:924–928CrossRef
26.
Wolever TM, Bolognesi C (1996) Source and amount of carbohydrate affect postprandial glucose and insulin in normal subjects. J Nutr 126:2798–2806PubMed
27.
EFSA (2012) Guidance on the scientific requirements for health claims related to appetite ratings, weight management, and blood glucose concentrations. EFSA J 10:2604
Metadata
Title
Predicting mixed-meal measured glycaemic index in healthy subjects
Authors
Simon Ballance
Svein Halvor Knutsen
Øivind Winther Fosvold
Aida Sainz Fernandez
John Monro
Publication date
01-10-2019
Publisher
Springer Berlin Heidelberg
Published in
European Journal of Nutrition / Issue 7/2019
Print ISSN: 1436-6207
Electronic ISSN: 1436-6215
DOI
https://doi.org/10.1007/s00394-018-1813-z

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