Metabolic effects of dietary carbohydrates: The importance of food digestion
High blood glucose and insulin concentrations, even if within the normal range, are associated with an increased risk to develop type 2 diabetes and cardiovascular diseases. Dietary carbohydrates are the main determinants of blood glucose levels in the postprandial period; therefore, the effects of...
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| Published in | Food research international Vol. 88; pp. 336 - 341 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Elsevier Ltd
01.10.2016
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0963-9969 1873-7145 |
| DOI | 10.1016/j.foodres.2015.10.026 |
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| Abstract | High blood glucose and insulin concentrations, even if within the normal range, are associated with an increased risk to develop type 2 diabetes and cardiovascular diseases. Dietary carbohydrates are the main determinants of blood glucose levels in the postprandial period; therefore, the effects of dietary carbohydrates on human health are strongly related to their rate of digestion in the small intestine. This has raised much interest on food properties able to retard carbohydrate digestion and absorption. This review is focused to examine food properties which influence carbohydrate digestion in order to predict their potential influence on health markers. Among them, it is worth to underline the role of viscosity, the physical form of the food, cooking methods and processing, the type of starch (amylose or amylopectin), the presence of anti-nutrients and the amount of fiber, fat, and proteins. In this respect particularly relevant is the type of starch present in the food, since amylose is slowly digested by intestinal α-amylases while the digestion of amylopectin is faster. However, the food component that has the strongest impact on digestion and absorption of dietary carbohydrates is dietary fiber that modulates the postprandial glucose rise by multiple mechanisms. In fact, dietary fibers may increase ingesta viscosity, thus delaying the gastric emptying time and slowing both carbohydrate digestion and the rate of glucose transport to enterocytes. In addition, they can influence the composition of the gut microbiota and induce the production of short-chain fatty acids that beneficially affect glucose and lipid metabolism. In short, the knowledge of food characteristics able to retard carbohydrate digestion and absorption in the intestine can help modify food properties with the aim of improving their functionality.
•Blood glucose level is a risk factor for cardiovascular diseases in healthy and diabetic subjects.•The rate of carbohydrate digestion in the intestine influences postprandial plasma glucose levels.•Type of starch, food structure, cooking and processing methods influence carbohydrate digestion.•Fibers may influence viscosity, gastric emptying rate, intestinal microbiota, and SCFAs production.•SCFAs modulate liver gluconeogenesis and lipogenesis by gene expression and hormone regulation. |
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| AbstractList | High blood glucose and insulin concentrations, even if within the normal range, are associated with an increased risk to develop type 2 diabetes and cardiovascular diseases. Dietary carbohydrates are the main determinants of blood glucose levels in the postprandial period; therefore, the effects of dietary carbohydrates on human health are strongly related to their rate of digestion in the small intestine. This has raised much interest on food properties able to retard carbohydrate digestion and absorption. This review is focused to examine food properties which influence carbohydrate digestion in order to predict their potential influence on health markers. Among them, it is worth to underline the role of viscosity, the physical form of the food, cooking methods and processing, the type of starch (amylose or amylopectin), the presence of anti-nutrients and the amount of fiber, fat, and proteins. In this respect particularly relevant is the type of starch present in the food, since amylose is slowly digested by intestinal α-amylases while the digestion of amylopectin is faster. However, the food component that has the strongest impact on digestion and absorption of dietary carbohydrates is dietary fiber that modulates the postprandial glucose rise by multiple mechanisms. In fact, dietary fibers may increase ingesta viscosity, thus delaying the gastric emptying time and slowing both carbohydrate digestion and the rate of glucose transport to enterocytes. In addition, they can influence the composition of the gut microbiota and induce the production of short-chain fatty acids that beneficially affect glucose and lipid metabolism. In short, the knowledge of food characteristics able to retard carbohydrate digestion and absorption in the intestine can help modify food properties with the aim of improving their functionality. High blood glucose and insulin concentrations, even if within the normal range, are associated with an increased risk to develop type 2 diabetes and cardiovascular diseases. Dietary carbohydrates are the main determinants of blood glucose levels in the postprandial period; therefore, the effects of dietary carbohydrates on human health are strongly related to their rate of digestion in the small intestine. This has raised much interest on food properties able to retard carbohydrate digestion and absorption. This review is focused to examine food properties which influence carbohydrate digestion in order to predict their potential influence on health markers. Among them, it is worth to underline the role of viscosity, the physical form of the food, cooking methods and processing, the type of starch (amylose or amylopectin), the presence of anti-nutrients and the amount of fiber, fat, and proteins. In this respect particularly relevant is the type of starch present in the food, since amylose is slowly digested by intestinal α-amylases while the digestion of amylopectin is faster. However, the food component that has the strongest impact on digestion and absorption of dietary carbohydrates is dietary fiber that modulates the postprandial glucose rise by multiple mechanisms. In fact, dietary fibers may increase ingesta viscosity, thus delaying the gastric emptying time and slowing both carbohydrate digestion and the rate of glucose transport to enterocytes. In addition, they can influence the composition of the gut microbiota and induce the production of short-chain fatty acids that beneficially affect glucose and lipid metabolism. In short, the knowledge of food characteristics able to retard carbohydrate digestion and absorption in the intestine can help modify food properties with the aim of improving their functionality. •Blood glucose level is a risk factor for cardiovascular diseases in healthy and diabetic subjects.•The rate of carbohydrate digestion in the intestine influences postprandial plasma glucose levels.•Type of starch, food structure, cooking and processing methods influence carbohydrate digestion.•Fibers may influence viscosity, gastric emptying rate, intestinal microbiota, and SCFAs production.•SCFAs modulate liver gluconeogenesis and lipogenesis by gene expression and hormone regulation. |
| Author | Costabile, Giuseppina Riccardi, Gabriele Giacco, Rosalba |
| Author_xml | – sequence: 1 givenname: Rosalba surname: Giacco fullname: Giacco, Rosalba email: rgiacco@isa.cnr.it organization: Institute of Food Science of National Research Council, Avellino, Italy – sequence: 2 givenname: Giuseppina surname: Costabile fullname: Costabile, Giuseppina organization: Institute of Food Science of National Research Council, Avellino, Italy – sequence: 3 givenname: Gabriele surname: Riccardi fullname: Riccardi, Gabriele organization: Department of Clinical Medicine and Surgery, “Federico II” University, Naples, Italy |
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| SubjectTerms | absorption alpha-amylase amylopectin amylose antinutritional factors Blood glucose cardiovascular diseases cooking dietary carbohydrate dietary fiber digestion enterocytes Fiber Food characteristics Food digestion food quality gastric emptying glucose Glycemic index Glycemic load human health insulin intestinal absorption intestinal microorganisms lipid metabolism noninsulin-dependent diabetes mellitus processing technology proteins risk short chain fatty acids small intestine viscosity |
| Title | Metabolic effects of dietary carbohydrates: The importance of food digestion |
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