Berries modify the postprandial plasma glucose response to sucrose in healthy subjects

Sucrose increases postprandial blood glucose concentrations, and diets with a high glycaemic response may be associated with increased risk of obesity, type 2 diabetes and CVD. Previous studies have suggested that polyphenols may influence carbohydrate digestion and absorption and thereby postprandi...

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Published in	British journal of nutrition Vol. 103; no. 8; pp. 1094 - 1097
Main Authors	Törrönen, Riitta, Sarkkinen, Essi, Tapola, Niina, Hautaniemi, Elina, Kilpi, Kyllikki, Niskanen, Leo
Format	Journal Article
Language	English
Published	Cambridge, UK Cambridge University Press 28.04.2010
Subjects	Absorption adults Berries bilberries Biological and medical sciences Biological Transport, Active black currants Blood Chemical Analysis blood glucose Blood Glucose - metabolism Carbohydrates chemical concentration cranberries Cross-Over Studies diet Dietary Carbohydrates Dietary Carbohydrates - metabolism Eating Eating - physiology Feeding. Feeding behavior Female Fruit Fruits Fundamental and applied biological sciences. Psychology Glucose Glucose response glycemic effect human nutrition Humans Ingestion Intestinal Absorption Kinetics Male men metabolism Nutrition research physiology phytochemicals Plasma Polyphenols Postprandial Period Postprandial Period - physiology postprandial state pureed foods randomized clinical trials small fruits Sodium Sodium - metabolism strawberries Sucrose Vertebrates: anatomy and physiology, studies on body, several organs or systems women Polyphenols Berries Sucrose Glucose response Vertebrata Polyphenol Mammalia Healthy subject Postprandial Glucose Blood plasma
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ISSN	0007-1145 1475-2662 1475-2662
DOI	10.1017/S0007114509992868

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Abstract	Sucrose increases postprandial blood glucose concentrations, and diets with a high glycaemic response may be associated with increased risk of obesity, type 2 diabetes and CVD. Previous studies have suggested that polyphenols may influence carbohydrate digestion and absorption and thereby postprandial glycaemia. Berries are rich sources of various polyphenols and berry products are typically consumed with sucrose. We investigated the glycaemic effect of a berry purée made of bilberries, blackcurrants, cranberries and strawberries, and sweetened with sucrose, in comparison to sucrose with adjustment of available carbohydrates. A total of twelve healthy subjects (eleven women and one man, aged 25–69 years) with normal fasting plasma glucose ingested 150 g of the berry purée with 35 g sucrose or a control sucrose load in a randomised, controlled cross-over design. After consumption of the berry meal, the plasma glucose concentrations were significantly lower at 15 and 30 min (P < 0·05, P < 0·01, respectively) and significantly higher at 150 min (P < 0·05) compared with the control meal. The peak glucose concentration was reached at 45 min after the berry meal and at 30 min after the control meal. The peak increase from the baseline was 1·0 mmol/l smaller (P = 0·002) after ingestion of the berry meal. There was no statistically significant difference in the 3 h area under the glucose response curve. These results show that berries rich in polyphenols decrease the postprandial glucose response of sucrose in healthy subjects. The delayed and attenuated glycaemic response indicates reduced digestion and/or absorption of sucrose from the berry meal.
AbstractList	Sucrose increases postprandial blood glucose concentrations, and diets with a high glycaemic response may be associated with increased risk of obesity, type 2 diabetes and CVD. Previous studies have suggested that polyphenols may influence carbohydrate digestion and absorption and thereby postprandial glycaemia. Berries are rich sources of various polyphenols and berry products are typically consumed with sucrose. We investigated the glycaemic effect of a berry purée made of bilberries, blackcurrants, cranberries and strawberries, and sweetened with sucrose, in comparison to sucrose with adjustment of available carbohydrates. A total of twelve healthy subjects (eleven women and one man, aged 25–69 years) with normal fasting plasma glucose ingested 150 g of the berry purée with 35 g sucrose or a control sucrose load in a randomised, controlled cross-over design. After consumption of the berry meal, the plasma glucose concentrations were significantly lower at 15 and 30 min ( P < 0·05, P < 0·01, respectively) and significantly higher at 150 min ( P < 0·05) compared with the control meal. The peak glucose concentration was reached at 45 min after the berry meal and at 30 min after the control meal. The peak increase from the baseline was 1·0 mmol/l smaller ( P = 0·002) after ingestion of the berry meal. There was no statistically significant difference in the 3 h area under the glucose response curve. These results show that berries rich in polyphenols decrease the postprandial glucose response of sucrose in healthy subjects. The delayed and attenuated glycaemic response indicates reduced digestion and/or absorption of sucrose from the berry meal. Sucrose increases postprandial blood glucose concentrations, and diets with a high glycaemic response may be associated with increased risk of obesity, type 2 diabetes and CVD. Previous studies have suggested that polyphenols may influence carbohydrate digestion and absorption and thereby postprandial glycaemia. Berries are rich sources of various polyphenols and berry products are typically consumed with sucrose. We investigated the glycaemic effect of a berry purée made of bilberries, blackcurrants, cranberries and strawberries, and sweetened with sucrose, in comparison to sucrose with adjustment of available carbohydrates. A total of twelve healthy subjects (eleven women and one man, aged 25-69 years) with normal fasting plasma glucose ingested 150 g of the berry purée with 35 g sucrose or a control sucrose load in a randomised, controlled cross-over design. After consumption of the berry meal, the plasma glucose concentrations were significantly lower at 15 and 30 min (P < 0.05, P < 0.01, respectively) and significantly higher at 150 min (P < 0.05) compared with the control meal. The peak glucose concentration was reached at 45 min after the berry meal and at 30 min after the control meal. The peak increase from the baseline was 1.0 mmol/l smaller (P = 0.002) after ingestion of the berry meal. There was no statistically significant difference in the 3 h area under the glucose response curve. These results show that berries rich in polyphenols decrease the postprandial glucose response of sucrose in healthy subjects. The delayed and attenuated glycaemic response indicates reduced digestion and/or absorption of sucrose from the berry meal.Sucrose increases postprandial blood glucose concentrations, and diets with a high glycaemic response may be associated with increased risk of obesity, type 2 diabetes and CVD. Previous studies have suggested that polyphenols may influence carbohydrate digestion and absorption and thereby postprandial glycaemia. Berries are rich sources of various polyphenols and berry products are typically consumed with sucrose. We investigated the glycaemic effect of a berry purée made of bilberries, blackcurrants, cranberries and strawberries, and sweetened with sucrose, in comparison to sucrose with adjustment of available carbohydrates. A total of twelve healthy subjects (eleven women and one man, aged 25-69 years) with normal fasting plasma glucose ingested 150 g of the berry purée with 35 g sucrose or a control sucrose load in a randomised, controlled cross-over design. After consumption of the berry meal, the plasma glucose concentrations were significantly lower at 15 and 30 min (P < 0.05, P < 0.01, respectively) and significantly higher at 150 min (P < 0.05) compared with the control meal. The peak glucose concentration was reached at 45 min after the berry meal and at 30 min after the control meal. The peak increase from the baseline was 1.0 mmol/l smaller (P = 0.002) after ingestion of the berry meal. There was no statistically significant difference in the 3 h area under the glucose response curve. These results show that berries rich in polyphenols decrease the postprandial glucose response of sucrose in healthy subjects. The delayed and attenuated glycaemic response indicates reduced digestion and/or absorption of sucrose from the berry meal. Sucrose increases postprandial blood glucose concentrations, and diets with a high glycaemic response may be associated with increased risk of obesity, type 2 diabetes and CVD. Previous studies have suggested that polyphenols may influence carbohydrate digestion and absorption and thereby postprandial glycaemia. Berries are rich sources of various polyphenols and berry products are typically consumed with sucrose. We investigated the glycaemic effect of a berry purée made of bilberries, blackcurrants, cranberries and strawberries, and sweetened with sucrose, in comparison to sucrose with adjustment of available carbohydrates. A total of twelve healthy subjects (eleven women and one man, aged 25–69 years) with normal fasting plasma glucose ingested 150 g of the berry purée with 35 g sucrose or a control sucrose load in a randomised, controlled cross-over design. After consumption of the berry meal, the plasma glucose concentrations were significantly lower at 15 and 30 min (P < 0·05, P < 0·01, respectively) and significantly higher at 150 min (P < 0·05) compared with the control meal. The peak glucose concentration was reached at 45 min after the berry meal and at 30 min after the control meal. The peak increase from the baseline was 1·0 mmol/l smaller (P = 0·002) after ingestion of the berry meal. There was no statistically significant difference in the 3 h area under the glucose response curve. These results show that berries rich in polyphenols decrease the postprandial glucose response of sucrose in healthy subjects. The delayed and attenuated glycaemic response indicates reduced digestion and/or absorption of sucrose from the berry meal. Sucrose increases postprandial blood glucose concentrations, and diets with a high glycaemic response may be associated with increased risk of obesity, type 2 diabetes and CVD. Previous studies have suggested that polyphenols may influence carbohydrate digestion and absorption and thereby postprandial glycaemia. Berries are rich sources of various polyphenols and berry products are typically consumed with sucrose. We investigated the glycaemic effect of a berry purée made of bilberries, blackcurrants, cranberries and strawberries, and sweetened with sucrose, in comparison to sucrose with adjustment of available carbohydrates. A total of twelve healthy subjects (eleven women and one man, aged 25–69 years) with normal fasting plasma glucose ingested 150 g of the berry purée with 35 g sucrose or a control sucrose load in a randomised, controlled cross-over design. After consumption of the berry meal, the plasma glucose concentrations were significantly lower at 15 and 30 min (P < 0·05, P < 0·01, respectively) and significantly higher at 150 min (P < 0·05) compared with the control meal. The peak glucose concentration was reached at 45 min after the berry meal and at 30 min after the control meal. The peak increase from the baseline was 1·0 mmol/l smaller (P = 0·002) after ingestion of the berry meal. There was no statistically significant difference in the 3 h area under the glucose response curve. These results show that berries rich in polyphenols decrease the postprandial glucose response of sucrose in healthy subjects. The delayed and attenuated glycaemic response indicates reduced digestion and/or absorption of sucrose from the berry meal. Sucrose increases postprandial blood glucose concentrations, and diets with a high glycaemic response may be associated with increased risk of obesity, type 2 diabetes and CVD. Previous studies have suggested that polyphenols may influence carbohydrate digestion and absorption and thereby postprandial glycaemia. Berries are rich sources of various polyphenols and berry products are typically consumed with sucrose. We investigated the glycaemic effect of a berry purée made of bilberries, blackcurrants, cranberries and strawberries, and sweetened with sucrose, in comparison to sucrose with adjustment of available carbohydrates. A total of twelve healthy subjects (eleven women and one man, aged 25-69 years) with normal fasting plasma glucose ingested 150 g of the berry purée with 35 g sucrose or a control sucrose load in a randomised, controlled cross-over design. After consumption of the berry meal, the plasma glucose concentrations were significantly lower at 15 and 30 min (P < 0.05, P < 0.01, respectively) and significantly higher at 150 min (P < 0.05) compared with the control meal. The peak glucose concentration was reached at 45 min after the berry meal and at 30 min after the control meal. The peak increase from the baseline was 1.0 mmol/l smaller (P = 0.002) after ingestion of the berry meal. There was no statistically significant difference in the 3 h area under the glucose response curve. These results show that berries rich in polyphenols decrease the postprandial glucose response of sucrose in healthy subjects. The delayed and attenuated glycaemic response indicates reduced digestion and/or absorption of sucrose from the berry meal. Sucrose increases postprandial blood glucose concentrations, and diets with a high glycaemic response may be associated with increased risk of obesity, type 2 diabetes and CVD. Previous studies have suggested that polyphenols may influence carbohydrate digestion and absorption and thereby postprandial glycaemia. Berries are rich sources of various polyphenols and berry products are typically consumed with sucrose. We investigated the glycaemic effect of a berry purée made of bilberries, blackcurrants, cranberries and strawberries, and sweetened with sucrose, in comparison to sucrose with adjustment of available carbohydrates. A total of twelve healthy subjects (eleven women and one man, aged 25-69 years) with normal fasting plasma glucose ingested 150 g of the berry purée with 35 g sucrose or a control sucrose load in a randomised, controlled cross-over design. After consumption of the berry meal, the plasma glucose concentrations were significantly lower at 15 and 30 min (P < 0·05, P < 0·01, respectively) and significantly higher at 150 min (P < 0·05) compared with the control meal. The peak glucose concentration was reached at 45 min after the berry meal and at 30 min after the control meal. The peak increase from the baseline was 1·0 mmol/l smaller (P = 0·002) after ingestion of the berry meal. There was no statistically significant difference in the 3 h area under the glucose response curve. These results show that berries rich in polyphenols decrease the postprandial glucose response of sucrose in healthy subjects. The delayed and attenuated glycaemic response indicates reduced digestion and/or absorption of sucrose from the berry meal. [PUBLICATION ABSTRACT]
Author	Törrönen, Riitta Tapola, Niina Hautaniemi, Elina Sarkkinen, Essi Kilpi, Kyllikki Niskanen, Leo
Author_xml	– sequence: 1 givenname: Riitta surname: Törrönen fullname: Törrönen, Riitta email: riitta.torronen@uku.fi organization: 1Department of Clinical Nutrition, Food and Health Research Centre, University of Kuopio, PO Box 1627, FI-70211Kuopio, Finland – sequence: 2 givenname: Essi surname: Sarkkinen fullname: Sarkkinen, Essi organization: 2Foodfiles Ltd, Kuopio, Finland – sequence: 3 givenname: Niina surname: Tapola fullname: Tapola, Niina organization: 2Foodfiles Ltd, Kuopio, Finland – sequence: 4 givenname: Elina surname: Hautaniemi fullname: Hautaniemi, Elina organization: 2Foodfiles Ltd, Kuopio, Finland – sequence: 5 givenname: Kyllikki surname: Kilpi fullname: Kilpi, Kyllikki organization: 3Finnsugar Ltd, Kantvik, Finland – sequence: 6 givenname: Leo surname: Niskanen fullname: Niskanen, Leo organization: 4Institute of Medicine, Internal Medicine, Kuopio University Hospital, Kuopio, Finland
BackLink	http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=22685927$$DView record in Pascal Francis https://www.ncbi.nlm.nih.gov/pubmed/19930765$$D View this record in MEDLINE/PubMed
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Discipline	Diet & Clinical Nutrition
DocumentTitleAlternate	Sucrose-sweetened berries and plasma glucose R. Törrönen et al.
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Keywords	Polyphenols Berries Sucrose Glucose response Vertebrata Polyphenol Mammalia Healthy subject Postprandial Glucose Blood plasma
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SubjectTerms	Absorption adults Berries bilberries Biological and medical sciences Biological Transport, Active black currants Blood Chemical Analysis blood glucose Blood Glucose - metabolism Carbohydrates chemical concentration cranberries Cross-Over Studies diet Dietary Carbohydrates Dietary Carbohydrates - metabolism Eating Eating - physiology Feeding. Feeding behavior Female Fruit Fruits Fundamental and applied biological sciences. Psychology Glucose Glucose response glycemic effect human nutrition Humans Ingestion Intestinal Absorption Kinetics Male men metabolism Nutrition research physiology phytochemicals Plasma Polyphenols Postprandial Period Postprandial Period - physiology postprandial state pureed foods randomized clinical trials small fruits Sodium Sodium - metabolism strawberries Sucrose Vertebrates: anatomy and physiology, studies on body, several organs or systems women
Title	Berries modify the postprandial plasma glucose response to sucrose in healthy subjects
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