年轻健康成人静息和增量有氧肌肉运动时口服葡萄糖负荷的代谢和通气作用

A Rubini, A Parmagnani, A Paoli
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引用次数: 1

摘要

我们测量了休息和循环有氧负荷时的呼吸比(RR)、肺通气量(VE)和潮末二氧化碳分压(ETPCO2)(估计最大摄氧量的20%、40%和60%)。在禁食一夜和口服葡萄糖负荷后进行测量。RR、VE和ETPCO2随工作量增加而增加。葡萄糖负荷导致休息时RR和VE增加(分别为0.75±0.01 vs. 0.86±0.02,p < 0.01, 10.8±0.43 vs. 12.1±0.49 l/min, p < 0.01)和每次工作负荷(20%估计最大摄氧量:0.77±0.01 vs. 0.855±0.02,p < 0.01, 16.2±0.73 vs. 17.7±0.8 l/min, p < 0.01;40%估计最大摄氧量:0.76±0.02比0.82±0.01,p < 0.01, 25.9±1.1比28.3±1.3 l/min, p < 0.05;60%受试者最大摄氧量分别为0.85±0.02比0.91±0.02,p < 0.01, 37.4±1.7比40.9±1.9 l/min, p < 0.05),但ETPCO2没有变化。葡萄糖负荷前后RR差异随着负荷的增加而减小。在空腹和葡萄糖负荷条件下,VE和二氧化碳输出的线性回归分析得出了几乎相同的结果。我们得出结论:a)对于葡萄糖诱导的RR增加引起的代谢性二氧化碳负荷增加,在所有负荷下的生理反应都是VE的增加。这种响应调节恒定的ETPCO2值;B)随着工作量的增加,骨骼肌越来越多地利用越来越多的糖原储备,而不考虑血糖的可用性。这降低了饮食控制在呼吸衰竭肌肉工作期间减少二氧化碳代谢负荷的有用性;C)代谢二氧化碳负荷绝对值在休息和有氧运动时的通气调节中发挥作用。
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Metabolic and ventilatory effects of oral glucose load at rest and during incremental aerobic muscular work in young healthy adults.

We measured respiratory ratio (RR), pulmonary ventilation (VE) and end-tidal carbon dioxide partial pressure (ETPCO2) at rest and during cycling aerobic workloads (20%, 40%, 60% of estimated maximal oxygen uptake). Measurements were taken after overnight fasting and after an oral glucose load. RR, VE and ETPCO2 increased with workload. Glucose load caused RR and VE increments at rest (0.75 ± 0.01 vs. 0.86 ± 0.02, p < 0.01, and 10.8 ± 0.43 vs. 12.1 ± 0.49 l/min, p < 0.01, respectively) and for each workload (20% estimated maximal oxygen uptake: 0.77 ± 0.01 vs. 0.855 ± 0.02, p < 0.01, and 16.2 ± 0.73 vs. 17.7 ± 0.8 l/min, p < 0.01; 40% estimated maximal oxygen uptake: 0.76 ± 0.02 vs. 0.82 ± 0.01, p < 0.01, and 25.9 ± 1.1 vs. 28.3 ± 1.3 l/min, p < 0.05; 60% estimated maximal oxygen uptake: 0.85 ± 0.02 vs. 0.91 ± 0.02, p < 0.01, and 37.4 ± 1.7 vs. 40.9 ± 1.9 l/min, p < 0.05) but ETPCO2 did not change. The differences in RR before and after glucose load became smaller as the workload increased. Linear regression analysis of VE and carbon dioxide output yielded virtually identical results for both fasting and glucose load conditions. We have concluded that: a) for the metabolic carbon dioxide load increment due to glucose-induced RR increment, the physiological response is an increase of VE at all workloads. This response modulates constant ETPCO2 values; b) on workload increment, skeletal muscle increasingly utilises more and more glycogen stores, regardless of the blood glucose availability. This reduces the usefulness of dietary manipulations decreasing carbon dioxide metabolic load during muscular work in respiratory failure; c) the absolute value of metabolic carbon dioxide load exerts a role in ventilation regulation at rest and during aerobic exercise.

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来源期刊
Acta physiologica Hungarica
Acta physiologica Hungarica 医学-生理学
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