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Strawberry and cranberry polyphenols improve insulin sensitivity in insulin-resistant, non-diabetic adults: a parallel, double-blind, controlled and randomised clinical trial

Published online by Cambridge University Press:  14 March 2017

Martine Paquette
Affiliation:
Institute of Nutrition and Functional Foods, Laval University, Quebec, Canada, G1V 0A6 School of Nutrition, Laval University, Quebec, Canada, G1V 0A6
Ana S. Medina Larqué
Affiliation:
Institute of Nutrition and Functional Foods, Laval University, Quebec, Canada, G1V 0A6 School of Nutrition, Laval University, Quebec, Canada, G1V 0A6
S. J. Weisnagel
Affiliation:
School of Nutrition, Laval University, Quebec, Canada, G1V 0A6 Diabetes Research Unit, Endocrinology and Nephrology Axis, Research Centre, Laval University Health Center of Quebec, Quebec, Canada, G1V 4G2
Yves Desjardins
Affiliation:
Institute of Nutrition and Functional Foods, Laval University, Quebec, Canada, G1V 0A6
Julie Marois
Affiliation:
Institute of Nutrition and Functional Foods, Laval University, Quebec, Canada, G1V 0A6 School of Nutrition, Laval University, Quebec, Canada, G1V 0A6
Geneviève Pilon
Affiliation:
Institute of Nutrition and Functional Foods, Laval University, Quebec, Canada, G1V 0A6 Quebec Heart and Lung Institute, Quebec, Canada, G1V 4G5
Stéphanie Dudonné
Affiliation:
Institute of Nutrition and Functional Foods, Laval University, Quebec, Canada, G1V 0A6
André Marette
Affiliation:
Institute of Nutrition and Functional Foods, Laval University, Quebec, Canada, G1V 0A6 Quebec Heart and Lung Institute, Quebec, Canada, G1V 4G5
Hélène Jacques*
Affiliation:
Institute of Nutrition and Functional Foods, Laval University, Quebec, Canada, G1V 0A6 School of Nutrition, Laval University, Quebec, Canada, G1V 0A6
*
* Corresponding author: H. Jacques, fax +1 418 656 3353, email helene.jacques@fsaa.ulaval.ca
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Abstract

Plant-derived foods rich in polyphenols are associated with several cardiometabolic health benefits, such as reduced postprandial hyperglycaemia. However, their impact on whole-body insulin sensitivity using the hyperinsulinaemic-euglycaemic clamp technique remains under-studied. We aimed to determine the effects of strawberry and cranberry polyphenols (SCP) on insulin sensitivity, glucose tolerance, insulin secretion, lipid profile, inflammation and oxidative stress markers in free-living insulin-resistant overweight or obese human subjects (n 41) in a parallel, double-blind, controlled and randomised clinical trial. The experimental group consumed an SCP beverage (333 mg SCP) daily for 6 weeks, whereas the Control group received a flavour-matched Control beverage that contained 0 mg SCP. At the beginning and at the end of the experimental period, insulin sensitivity was assessed by a hyperinsulinaemic-euglycaemic clamp, and glucose tolerance and insulin secretion by a 2-h oral glucose tolerance test (OGTT). Insulin sensitivity increased in the SCP group as compared with the Control group (+0·9 (sem 0·5)×10−3v. −0·5 (sem 0·5)×10−3 mg/kg per min per pmol, respectively, P=0·03). Compared with the Control group, the SCP group had a lower first-phase insulin secretion response as measured by C-peptide levels during the first 30 min of the OGTT (P=0·002). No differences were detected between the two groups for lipids and markers of inflammation and oxidative stress. A 6-week dietary intervention with 333 mg of polyphenols from strawberries and cranberries improved insulin sensitivity in overweight and obese non-diabetic, insulin-resistant human subjects but was not effective in improving other cardiometabolic risk factors.

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Type
Full Papers
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
Copyright © The Authors 2017
Figure 0

Table 1 Phenolic composition of experimental beverages (Mean values and standard deviations)

Figure 1

Table 2 Baseline characteristics of the study participants* (Mean values with their standard errors; numbers and percentages)

Figure 2

Fig. 1 Insulin sensitivity (M/I) before (Pre) and after (Post) 6-week consumption of strawberry and cranberry polyphenols (SCP) or Control in insulin-resistant human subjects. Values are means (n 39), with their standard errors represented by vertical bars. NS, no significant difference. Paired t test for comparisons from baseline (Post v. Pre) within each group showed a significant increase with SCP, † P=0·05. PROC MIXED for ANCOVA with baseline insulin sensitivity as covariate indicated significant difference in changes from baseline (Post v. Pre) between the two groups, * P=0·03.

Figure 3

Fig. 2 Responses of plasma C-peptide at −15, 0, 15, 30, 60 and 120 min during the oral glucose tolerance test (OGTT) before (Pre) and after (Post) 6-week consumption of (a) strawberry and cranberry polyphenols (SCP) or (b) Control, in insulin-resistant human subjects. (c) Changes from baseline (Post v. Pre) in plasma C-peptide at −15, 0, 15, 30, 60 and 120 min during the OGTT before (Pre) and after (Post) 6-week consumption of SCP or Control in insulin-resistant human subjects. Repeated measures ANOVA showed significant difference in the changes from baseline (Post v. Pre) between the two groups over time during the OGTT in insulin-resistant human subjects. A Bonferroni correction was applied defining level of statistical significance at P<0·004. Values are means (n 41), with their standard errors represented by vertical bars. , SCP Pre values; , SCP Post values; , Control Pre values; , Control Post values; , SCP (Post v. Pre values); , Control (Post v. Pre values).

Figure 4

Table 3 Incremental AUC (IAUC) and time point values over time during oral glucose tolerance test (OGTT) for glucose and insulin before and after 6-week consumption of strawberry and cranberry polyphenols (SCP) or Control in insulin-resistant human subjects (Mean values with their standard errors)

Figure 5

Fig. 3 Positive incremental AUC (IAUC) up to 120 min of the oral glucose tolerance test for C-peptide concentrations before (Pre) and after (Post) 6-week consumption of strawberry and cranberry polyphenols (SCP) or Control in insulin-resistant human subjects. Values are means (n 41), with their standard errors represented by vertical bars. Paired t test showed no difference in changes from baseline (Post v. Pre) in the SCP and Control groups. PROC MIXED for a two-way ANOVA showed no significant effect in the changes from baseline (Post v. Pre) between the two groups.

Figure 6

Fig. 4 Positive incremental AUC (IAUC) up to 30 min of the oral glucose tolerance test for C-peptide concentrations before (Pre) and after (Post) 6-week consumption of strawberry and cranberry polyphenols (SCP) or Control in insulin-resistant human subjects. Values are means (n 41), with their standard errors represented by vertical bars. NS, no significant difference. Paired t test for comparisons from baseline (Post v. Pre) within each group showed a significant increase with Control, † P=0·003. PROC MIXED for a two-way ANOVA showed a significant difference in the changes from baseline (Post v. Pre) between the two groups, * P=0·002.

Figure 7

Table 4 Lipid profile, inflammatory and thrombogenic markers, and oxidative status before and after 6-week consumption of strawberry and cranberry polyphenols (SCP) or Control in insulin-resistant human subjects (Mean values with their standard errors)

Figure 8

Fig. 5 Evolution of post-ingestion plasma concentrations of phenolic metabolites. (a) p-coumaric acid, (b) m-coumaric acid, (c) ferulic acid, (d) hydroxyhippuric acid. Values are mean of replicates (n 17), with their standard errors. Welch’s t test (correcting for unequal variance) when data were assumed to be normally distributed and the non-parametric Mann–Whitney test otherwise, showed significantly higher concentrations of phenolic metabolites following the consumption of strawberry and cranberry polyphenols (SCP) relative to Control. A Bonferroni correction (P<0·0025) was performed. P<0·0001 for each phenolic metabolite. , SCP; , Control.

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