Reducing the glycemic impact of carbohydrates on foods and meals: Strategies for the food industry and consumers with special focus on Asia

Wee, May Sui Mei; Henry, Christiani Jeyakumar

doi:10.1111/1541-4337.12525

Cited by 76 publications

(59 citation statements)

References 234 publications

(228 reference statements)

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“…The incremental area under the curve (AUCt) was determined considering only the positive incremental values (above the baseline obtained at the fasting period) on the common bean enriched cookies, wheat cookies, and oral glucose assays. The glycemic index (GI), defined as the incremental area under the glycemic response curve (AUCt) elicited by a portion of food containing 50 g of available carbohydrate, was expressed as a percentage by comparison with the glycemic response elicited by 50 g of glucose (Augustin et al., 2015; Wee & Henry, 2020), accordingly to Equation .…”

Section: Methodsmentioning

confidence: 99%

Improvement of wheat cookies’ nutritional quality, by partial substitution with common bean and maize flours, sustained human glycemia and enhanced satiety perception

et al. 2021

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Background As a dietetic source of fiber, protein, vitamins, minerals, and phenolic compounds, common beans have potential benefits in human health, namely in chronic diseases’ prevention (e.g., cardiovascular diseases and colon cancer). Still, legume consumption, especially in European countries, is below recommendations. The consumers demand for innovative, attractive legume‐based food products suggests a potential future increase in consumption of legumes, especially in modern societies, keen on ready‐to‐eat foods with known health benefits. Objectives With the aim of studying, the impact of wheat flour's partial substitution by common bean (56%) and maize (22%) flours in the nutritional composition of formulated cookies and its effect on human glycemia and consumers’ satiety perception, after ingestion, a human intervention study (n = 16) was designed. Findings Approved by consumers, common bean enriched cookies were responsible by reducing glycemic response, and by increasing satiety perception. The nutritional composition of common bean enriched cookies contributed to explain these effects. Conclusions Common bean enriched bakery food products are valuable nutritional options for consumers concerned with satiety and chronic diseases’ prevention. Significance and novelty This study showed, for the first time, through a human intervention trial the relevance of using legumes (common beans in particular) as alternative ingredients to improve ready‐to‐eat products’ nutritional quality.

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Section: Methodsmentioning

confidence: 99%

Improvement of wheat cookies’ nutritional quality, by partial substitution with common bean and maize flours, sustained human glycemia and enhanced satiety perception

et al. 2021

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“…(1) The grain structure is compact and intact, and the food can only be chewed and ground through the mouth. This minimal process ensures an intact cell wall and maintains a barrier to starch, thus reducing the accessibility to digestive enzymes and producing a lower GI value [64], (2) The outer aleurone layer of oat grains acts as a barrier to water absorption and starch gelatinization, thus retarding the starch hydrolysis and the release of glucose, and (3) The β-glucans and polyphenols-rich bran layer can delay gastric emptying and inhibit the activity of digestive enzymes [93].…”

Section: Oat Grainsmentioning

confidence: 99%

Oat-Based Foods: Chemical Constituents, Glycemic Index, and the Effect of Processing

Zhang

Dong

et al. 2021

Foods

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The desire for foods with lower glycemic indices has led to the exploration of functional ingredients and novel food processing techniques. The glycemic index (GI) is a well-recognized tool to assess the capacity of foods to raise blood glucose levels. Among cereal crops, oats have shown the greatest promise for mitigating glycemic response. This review evaluated decades of research on the effects of oat components on the GI level of oat-based foods with specific emphasis on oat starch, β-glucans, proteins, and phenolics. The effects of commonly used processing techniques in oats on GI level, including heating, cooling, and germination were also discussed. In addition, the GI of oat-based foods in various physical formats such as whole grain, flakes, and flour was systematically summarized. The aim of this review was to synthesize knowledge of the field and to provide a deeper understanding of how the chemical composition and processing of oats affect GI, thereby further benefiting the development of low-GI oat foods.

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“…The mechanisms whereby food hydrocolloids may modulate blood glucose responses include surface interactions acting as a barrier for enzymatic access, restricting leakage of amylose chains during gelatinization, and increasing digesta viscosity. This may slow the release and breakdown of nutrients from the food matrix into absorbable forms [ 38 , 39 ].…”

Section: Discussionmentioning

confidence: 99%

Effect of Intake of Food Hydrocolloids of Bacterial Origin on the Glycemic Response in Humans: Systematic Review and Narrative Synthesis

et al. 2021

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Diabetes mellitus is a chronic condition characterized by increased blood glucose levels from dysfunctional carbohydrate metabolism. Dietary intervention can help to prevent and manage the disease. Food hydrocolloids have been shown to have favorable properties in relation to glycaemic regulation. However, the use of food hydrocolloids of bacterial origin to modulate glucose responses is much less explored than other types of hydrocolloids. We, therefore, carried out the first review examining the impact of intake of food hydrocolloids of bacterial origin (as a direct supplement or incorporated into foods) on glycemic response in humans. Fourteen studies met the inclusion criteria. They used either xanthan gum, pullulan, or dextran as interventions. There was a wide variation in the amount of hydrocolloid supplementation provided and methods of preparation. Postprandial blood glucose responses were reduced in half of the studies, particularly at higher intake levels and longer chain hydrocolloids. When xanthan gum was added to the cooking process of muffins and rice, a significant reduction in postprandial blood glucose was observed. The use of these hydrocolloids is potentially effective though more research is needed in this area.

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Reducing the glycemic impact of carbohydrates on foods and meals: Strategies for the food industry and consumers with special focus on Asia

Cited by 76 publications

References 234 publications

Improvement of wheat cookies’ nutritional quality, by partial substitution with common bean and maize flours, sustained human glycemia and enhanced satiety perception

Improvement of wheat cookies’ nutritional quality, by partial substitution with common bean and maize flours, sustained human glycemia and enhanced satiety perception

Oat-Based Foods: Chemical Constituents, Glycemic Index, and the Effect of Processing

Effect of Intake of Food Hydrocolloids of Bacterial Origin on the Glycemic Response in Humans: Systematic Review and Narrative Synthesis

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