Glycaemic regulation, appetite and ex vivo oxidative stress in young adults following consumption of high-carbohydrate cereal bars fortified with polyphenol-rich berries.
- 2019-05
- The British journal of nutrition 121(09)
- Tracey J Smith
- James Philip Karl
- Marques A Wilson
- Claire C Whitney
- Ann Barrett
- Nicole Favreau Farhadi
- Chung-Yen Oliver Chen
- Scott J Montain
- PubMed: 31062684
- DOI: 10.1017/s0007114519000394
Study Design
- Type
- Randomized Controlled Trial (RCT)
- Population
- Twenty participants (eighteen males/two females; 24 (sd 5) years; BMI: 27 (sd 3) kg/m2)
- Methods
- randomised, crossover, placebo-controlled study; participants consumed one of five cereal bars (approximately 88 % carbohydrate) containing no fruit ingredients (reference), freeze-dried black raspberries (10 or 20 % total weight; LOW-Rasp and HIGH-Rasp, respectively) and cranberry extract (0·5 or 1 % total weight; LOW-Cran and HIGH-Cran), on trials separated by ≥5 d
Consumption of certain berries appears to slow postprandial glucose absorption, attributable to polyphenols, which may benefit exercise and cognition, reduce appetite and/or oxidative stress. This randomised, crossover, placebo-controlled study determined whether polyphenol-rich fruits added to carbohydrate-based foods produce a dose-dependent moderation of postprandial glycaemic, glucoregulatory hormone, appetite and ex vivo oxidative stress responses. Twenty participants (eighteen males/two females; 24 (sd 5) years; BMI: 27 (sd 3) kg/m2) consumed one of five cereal bars (approximately 88 % carbohydrate) containing no fruit ingredients (reference), freeze-dried black raspberries (10 or 20 % total weight; LOW-Rasp and HIGH-Rasp, respectively) and cranberry extract (0·5 or 1 % total weight; LOW-Cran and HIGH-Cran), on trials separated by ≥5 d. Postprandial peak/nadir from baseline (Δmax) and incremental postprandial AUC over 60 and 180 min for glucose and other biochemistries were measured to examine the dose-dependent effects. Glucose AUC0-180 min trended towards being higher (43 %) after HIGH-Rasp v. LOW-Rasp (P=0·06), with no glucose differences between the raspberry and reference bars. Relative to reference, HIGH-Rasp resulted in a 17 % lower Δmax insulin, 3 % lower C-peptide (AUC0-60 min and 3 % lower glucose-dependent insulinotropic polypeptide (AUC0-180 min) P<0·05. No treatment effects were observed for the cranberry bars regarding glucose and glucoregulatory hormones, nor were there any treatment effects for either berry type regarding ex vivo oxidation, appetite-mediating hormones or appetite. Fortification with freeze-dried black raspberries (approximately 25 g, containing 1·2 g of polyphenols) seems to slightly improve the glucoregulatory hormone and glycaemic responses to a high-carbohydrate food item in young adults but did not affect appetite or oxidative stress responses at doses or with methods studied herein.
Research Insights
no treatment effects for either berry type regarding ... appetite
- Effect
- Neutral
- Effect size
- Small
- Dose
- 10% or 20% total weight
no treatment effects for either berry type regarding ... appetite-mediating hormones
- Effect
- Neutral
- Effect size
- Small
- Dose
- 10% or 20% total weight
3 % lower C-peptide (AUC0-60 min)
- Effect
- Beneficial
- Effect size
- Small
- Dose
- 20% total weight (approximately 25 g, containing 1.2 g polyphenols)
3 % lower glucose-dependent insulinotropic polypeptide (AUC0-180 min)
- Effect
- Beneficial
- Effect size
- Small
- Dose
- 20% total weight (approximately 25 g, containing 1.2 g polyphenols)
Glucose AUC0-180 min trended towards being higher (43 %) after HIGH-Rasp v. LOW-Rasp (P=0·06), with no glucose differences between the raspberry and reference bars.
- Effect
- Neutral
- Effect size
- Small
- Dose
- 10% or 20% total weight of cereal bar
HIGH-Rasp resulted in a 17 % lower Δmax insulin
- Effect
- Beneficial
- Effect size
- Moderate
- Dose
- 20% total weight (approximately 25 g, containing 1.2 g polyphenols)