Whey Protein Premeal Lowers Postprandial Glucose Concentrations in Adults Compared with Water-The Effect of Timing, Dose, and Metabolic Status: a Systematic Review and Meta-analysis.
- 2023-08
- The American journal of clinical nutrition 118(2)
- Stine Smedegaard
- Ulla Kampmann
- Per G Ovesen
- Henrik Støvring
- Nikolaj Rittig
- PubMed: 37536867
- DOI: 10.1016/j.ajcnut.2023.05.012
Study Design
- Type
- Meta-Analysis
- Sample size
- n = 244
- Population
- 16 randomized crossover trials with a total of 244 individuals
- Methods
- Systematic review and meta-analysis of randomized clinical trials; searched EMBASE, CENTRAL, PUBMED, and clinicaltrials.gov; subgroup analyses on timing and dose
Background
Serving whey protein before a meal in order to lower postprandial blood glucose concentrations is known as a premeal. The underlying mechanisms are only partly understood but may involve stimulation of glucagon-like peptide-1 (GLP-1), glucose-dependent insulinotropic polypeptide (GIP), and insulin secretion together with a slower gastric emptying rate.Objectives
The objective of this systematic review and meta-analysis was to review all randomized clinical trials investigating premeals with whey protein in comparison with a nonactive comparator (control) that evaluated plasma glucose, GLP-1, GIP, insulin, and/or gastric emptying rate. Secondary aims included subgroup analyses on the timing and dose of the premeal together with the metabolic state of the participants [lean, obese, and type 2 diabetes mellitus (T2DM)].Methods
We searched EMBASE, CENTRAL, PUBMED, and clinicaltrials.gov and found 16 randomized crossover trials with a total of 244 individuals. The last search was performed on 9 August, 2022.Results
Whey protein premeals lowered peak glucose concentration by -1.4 mmol/L [-1.9 mmol/L; -0.9 mmol/L], and the area under the curve for glucose was -0.9 standard deviation (SD) [-1.2 SD; -0.6 SD] compared with controls (high certainty). In association with these findings, whey protein premeals elevated GLP-1 (low certainty) and peak insulin (high certainty) concentrations and slowed gastric emptying rate (high certainty) compared with controls. Subgroup analyses showed a more pronounced and prolonged glucose-lowering effect in individuals with T2DM compared with participants without T2DM. The available evidence did not elucidate the role of GIP. The protein dose used varied between 4 and 55 g, and meta-regression analysis showed that the protein dose correlated with the glucose-lowering effects.Conclusions
In conclusion, whey protein premeals lower postprandial blood glucose, reduce gastric emptying rate, and increase peak insulin. In addition, whey protein premeals may elevate plasma concentrations of GLP-1. Whey protein premeals may possess clinical potential, but the long-term effects await future clinical trials.Research Insights
whey protein premeals elevated ... peak insulin (high certainty)
- Effect
- Beneficial
- Effect size
- Moderate
- Dose
- between 4 and 55 g
The available evidence did not elucidate the role of GIP.
- Effect
- Neutral
- Effect size
- Small
- Dose
- between 4 and 55 g
Whey protein premeals lowered peak glucose concentration by -1.4 mmol/L [-1.9 mmol/L; -0.9 mmol/L]
- Effect
- Beneficial
- Effect size
- Large
- Dose
- between 4 and 55 g
the area under the curve for glucose was -0.9 standard deviation (SD) [-1.2 SD; -0.6 SD]
- Effect
- Beneficial
- Effect size
- Large
- Dose
- between 4 and 55 g
whey protein premeals ... slowed gastric emptying rate (high certainty)
- Effect
- Beneficial
- Effect size
- Small
- Dose
- between 4 and 55 g