Faculty of Kinesiology, University of Calgary, Calgary, Alberta, Canada.
Alberta Children's Hospital Research Institute, Alberta Children's Hospital, Calgary, Alberta, Canada.
PLoS One. 2019 Jan 17;14(1):e0209913. doi: 10.1371/journal.pone.0209913. eCollection 2019.
Over the past decade, there has been a substantial increase in the number of beverage products containing added vitamins and minerals. Often viewed as a healthier choice by consumers, the metabolic impacts of excessive vitamin consumption are relatively unknown, especially in children. The aim of this study was to examine the effects of a widely available, vitamin fortified beverage (5h Energy Decaffeinated) on insulin sensitivity, metabolic hormones and serum metabolomic responses in adolescents. Twenty adolescents (13-19y, 10M/10F) completed two randomized trials, consuming either coloured water as placebo (PL) or a vitamin fortified, sugar free beverage (FB, 1.5ml/kg) 40min prior to a modified oral glucose tolerance test (OGTT, 1.75g/kg glucose). Samples were collected at baseline and at 30, 45, 60, 90 and 120min during the OGTT. No differences in blood glucose response were observed between the treatments. However, compared to PL, postprandial plasma C-peptide and insulin excursion was significantly greater with FB, resulting in a 28% decline in the insulin sensitivity index. This was accompanied by elevated GLP-1, glucagon and PYY responses with FB compared to PL. Serum metabolomics (1H-NMR) analysis also revealed perturbations to vitamin B-linked one carbon metabolism flux with FB consumption that became more pronounced over time. These included a transient reduction in homocysteine flux accompanied by increases in betaine, vitamin B6, vitamin B12, choline, folate and taurine. Although these impacts are likely short-lived, results show that beverages fortified with excessive amounts of vitamins are not metabolically inert, but likely result in greater insulin secretion, differential gut hormone secretion and elevated one-carbon flux to process the excessive vitamin loads.
在过去的十年中,含有添加维生素和矿物质的饮料产品的数量大幅增加。这些饮料通常被消费者视为更健康的选择,但过量摄入维生素对代谢的影响却知之甚少,尤其是在儿童中。本研究旨在探讨一种广泛使用的、含多种维生素的强化饮料(5h Energy Decaffeinated)对青少年胰岛素敏感性、代谢激素和血清代谢组学反应的影响。二十名青少年(13-19 岁,男 10 名,女 10 名)完成了两项随机试验,分别在口服葡萄糖耐量试验(OGTT,1.75g/kg 葡萄糖)前 40 分钟饮用彩色水作为安慰剂(PL)或含维生素、无糖的饮料(FB,1.5ml/kg)。在 OGTT 期间的基线和 30、45、60、90 和 120 分钟采集样本。两种处理方法对血糖反应没有差异。然而,与 PL 相比,FB 后肠肽和胰岛素的餐后波动明显更大,导致胰岛素敏感性指数下降 28%。这伴随着 FB 与 PL 相比,GLP-1、胰高血糖素和 PYY 的反应升高。血清代谢组学(1H-NMR)分析还显示,FB 消费导致与维生素 B 相关的一碳代谢通量发生变化,随着时间的推移这种变化变得更加明显。这包括同型半胱氨酸通量的短暂减少,同时伴随着甜菜碱、维生素 B6、维生素 B12、胆碱、叶酸和牛磺酸的增加。尽管这些影响可能是短暂的,但结果表明,添加了过量维生素的饮料并非代谢惰性的,而是可能导致更大的胰岛素分泌、不同的肠道激素分泌和升高的一碳通量来处理过量的维生素负荷。
