Wagenmakers A J, Brouns F, Saris W H, Halliday D
Department of Human Biology, University of Limburg, Maastricht, The Netherlands.
J Appl Physiol (1985). 1993 Dec;75(6):2774-80. doi: 10.1152/jappl.1993.75.6.2774.
Six male volunteers exercised on a cycle ergometer at 65% of maximal work load for 120 min on six occasions while ingesting water (W) only, four doses of maltodextrin (M) [0.92, 1.85, 2.77, and 3.70 g/kg body wt (4, 8, 12, and 16% M, respectively)], and sucrose (S) [1.85 g/kg body wt (8% S)]. Drinks were given during warm-up (8 ml/kg body wt) and each 15 min during exercise (2 ml/kg body wt). M and S were of high 13C natural abundance. Total carbohydrate (CHO) and fat oxidations were calculated from the nonprotein respiratory exchange ratio. M and S increased total CHO oxidation compared with W; no difference was observed between CHO solutions. Total CHO oxidation decreased continuously with time and more rapidly after W than after M or S. Fat oxidation increased continuously in all treatments. Oxidation rates of ingested CHO were 52 +/- 19, 76 +/- 12, 86 +/- 10, and 91 +/- 9 g/2 h for 4, 8, 12, and 16% M, respectively. The oxidation rate of S was 81 +/- 10 g/2 h (not different from 8% M), which indicated that the glucose polymer had no advantage over S. Oxidation rates of M and S increased to a plateau after 90-120 min of exercise. For all solutions except 4% M, the plateau oxidation rate was close to 1.0 g/min. Differences between 8, 12, and 16% M and 8% S were minimal such that ingestion of 8% M or S may well have had an optimal ergogenic effect.(ABSTRACT TRUNCATED AT 250 WORDS)
六名男性志愿者在六种情况下,以最大工作负荷的65%在自行车测力计上锻炼120分钟,期间分别只摄入水(W)、四剂麦芽糊精(M)[0.92、1.85、2.77和3.70克/千克体重(分别为4%、8%、12%和16%的M)]以及蔗糖(S)[1.85克/千克体重(8%的S)]。在热身期间(8毫升/千克体重)以及运动过程中每隔15分钟(2毫升/千克体重)给予饮品。M和S具有高天然丰度的13C。根据非蛋白质呼吸交换率计算总碳水化合物(CHO)和脂肪氧化量。与W相比,M和S增加了总CHO氧化量;在CHO溶液之间未观察到差异。总CHO氧化量随时间持续下降,且W组比M组或S组下降得更快。在所有处理中,脂肪氧化量持续增加。4%、8%、12%和16%的M组摄入CHO的氧化率分别为52±19、76±12、86±10和91±9克/2小时。S组的氧化率为81±10克/2小时(与8%的M组无差异),这表明葡萄糖聚合物相对于S没有优势。运动90 - 120分钟后,M和S的氧化率增加至平稳状态。除4%的M组外,所有溶液的平稳氧化率接近1.0克/分钟。8%、12%和16%的M组与8%的S组之间差异极小,以至于摄入8%的M或S可能具有最佳的增强运动能力的效果。(摘要截取自250字)
