Nybo Lars
Department of Human Physiology, Institute of Exercise and Sport Sciences, University of Copenhagen, Copenhagen, Denmark.
Med Sci Sports Exerc. 2003 Apr;35(4):589-94. doi: 10.1249/01.MSS.0000058433.85789.66.
Ingestion of carbohydrates during prolonged exercise may improve endurance, whereas an insufficient supply of glucose results in hypoglycemia and fatigue. Fatigue, defined as a loss of force-generating capacity, may develop for a variety of reasons and involve both central and peripheral factors. This study investigated whether CNS activation of the skeletal muscles was affected by prolonged exercise with or without glucose supplementation.
Voluntary force production and central activation ratios, assessed by the twitch interpolation technique, were determined during a 2-min sustained maximal knee extension in eight endurance-trained males in a baseline condition and immediately after 3 h of cycling randomized to be with or without glucose supplementation.
The exercise bout without glucose supplementation (placebo trial) reduced the blood glucose concentration from 4.5 +/- 0.2 to 3.0 +/- 0.2 mM, whereas blood glucose homeostasis was maintained during the glucose trial. The average force during the sustained maximal voluntary muscle contraction was 248 +/- 23 N at baseline, 222 +/- 20 N in the glucose trial, and 197 +/- 21 N in the placebo trial (P < 0.05 between conditions). In the placebo trial, the lowered force production was accompanied by a reduced level of CNS activation compared with the other two conditions (P < 0.05), whereas the central activation ratios were similar in the glucose trial as compared with baseline.
Exercise-induced hypoglycemia attenuates CNS activation during a sustained maximal muscle contraction, whereas central activation appears to be unaffected by 3 h of moderately intense exercise in endurance-trained athletes when euglycemia is maintained by carbohydrate ingestion.
长时间运动期间摄入碳水化合物可能会提高耐力,而葡萄糖供应不足会导致低血糖和疲劳。疲劳被定义为产生力量的能力丧失,其产生可能有多种原因,涉及中枢和外周因素。本研究调查了在有或没有补充葡萄糖的情况下进行长时间运动时,中枢神经系统对骨骼肌的激活是否受到影响。
通过抽搐插值技术评估的自愿力量产生和中枢激活率,在八名耐力训练男性的基线状态下以及在随机分为有或没有补充葡萄糖的3小时骑行后立即进行的2分钟持续最大膝关节伸展过程中进行测定。
无葡萄糖补充的运动试验(安慰剂试验)使血糖浓度从4.5±0.2毫摩尔降至3.0±0.2毫摩尔,而在葡萄糖试验期间血糖稳态得以维持。在基线时,持续最大自愿肌肉收缩期间的平均力量为248±23牛顿,在葡萄糖试验中为222±20牛顿,在安慰剂试验中为197±21牛顿(各条件之间P<0.05)。在安慰剂试验中,与其他两个条件相比,力量产生降低伴随着中枢神经系统激活水平的降低(P<0.05),而与基线相比,葡萄糖试验中的中枢激活率相似。
运动诱发的低血糖在持续最大肌肉收缩期间减弱中枢神经系统激活,而在耐力训练的运动员中,当通过摄入碳水化合物维持血糖正常时,中枢激活似乎不受3小时中等强度运动的影响。
