Background: Small amounts of nutrients given as a 'preload' can reduce post-meal hyperglycaemic peaks in type 2 diabetes (T2D) patients by activating a number of mechanisms involved in glucose homoeostasis. This study was undertaken to ascertain whether this positive effect extends to the late absorptive phase and to identify the main mechanisms involved.
Material and methods: Eight well-controlled T2D patients, aged 40-70 years, were randomized to consume a 'preload' of either water or non-glucidic nutrients (50g of Parmesan cheese, one boiled egg) 30min before a 300-min oral glucose tolerance test.
Results: After the nutrient preload, significant reductions were observed in peak glucose (-49%; P<0.02), total plasma glucose (iAUC: -28%; P<0.03), exogenous glucose (iAUC: -30%; P<0.03) and insulin clearance (-28%; P<0.04), with enhancement of insulin secretion (iAUC: +22%; P<0.003). These effects were associated with higher plasma levels of GLP-1 (iAUC: +463%; P<0.002), GIP (iAUC: +152%; P<0.0003) and glucagon (iAUC: +144%; P<0.0002).
Conclusion: In T2D patients, a protein and lipid preload improves glucose tolerance throughout the whole post-absorptive phase mainly by reducing the appearance of oral glucose, and improving both beta-cell function and insulin bioavailability.
Keywords: Beta-cell function; Glucose absorption; Insulin secretion in vivo; Nutrient preload; Type 2 diabetes.
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