View clinical trials related to Postprandial Hyperglycemia.
Filter by:Emerging evidence suggests that following a 'carbohydrate-last meal pattern', wherein foods rich in protein, fat, fiber, and/or polyphenols are consumed before sources of simple carbohydrate (CHO) in a meal, results in reduced postprandial glycaemic responses than the reverse food order or a co-ingestion pattern. This effect has been observed across the spectrum of glucose tolerance, from patients with diabetes to individuals with normal glucose tolerance (Kuwata et al., 2016; Nishino et al., 2018; Lu et al., 2019; Sun et al., 2020). Furthermore, reduced glucose excursions have been linked to decreased subsequent hunger and energy intake (Lu et al., 2019; Wyatt et al., 2021). However, to date, no studies on food intake sequence have targeted athletes, despite their increased CHO demands (Thomas et al., 2016) which could expose them to repeated episodes of hyperglycaemia and high glycaemic variability, known to increase the risk of adverse cardiovascular outcomes and all-cause mortality (Loader et al., 2015; Cavero-Redondo et al., 2017; Faerch et al., 2018). Additionally, athletes often face pressure to meet body composition standards and may benefit from strategies that enhance satiety and craving control. Finally, there is reason to believe that better glycaemic control could lead to improved performance, given that enhancements in endurance activities have been observed with a low-glycemic-index diet compared to a high-glycemic-index diet (Heung-Sang Wong et al., 2017). Therefore, this randomised crossover trial is part of a wider project which seeks to explore the impact of food intake sequence on metabolic health and performance in athletes. Specifically, this trial aims to investigate the acute, postprandial metabolic and appetite responses to consuming an identical meal in two intake sequences (CHO-last versus CHO-first) in athletes, while in the resting state.
There is some evidence to suggest that the timing of a meal intake directly impacts postprandial insulin and glucose responses, with meals consumed later during the day being more metabolically detrimental that the same meals consumed during the day. This information is particularly pertinent to the 16% of people employed in shift-work professions in Australia who have little choice but to eat during the late evening and overnight. The purpose of this study is to compare two effect of different meals or snacks (control vs test meal) on blood glucose and insulin at night time in healthy adults. This study will enable to develop suitable meals to consume at night time that can reduce the higher glucose and insulin responses that are a consequence of eating late into the night.
Randomised crossover trial to compare early vs late walking on postprandial glycaemic response at night time.