在健康的年轻成年人运动后恢复期间,氧气输送不是一个限制因素。
Oxygen delivery is not a limiting factor during post-exercise recovery in healthy young adults.
作者信息
Mankowski Robert T, Niemeijer Victor M, Jansen Jasper P, Spraakman Lotte, Stam Henk J, Praet Stephan F E
机构信息
Subdivision MOVEFIT-Sports Medicine, Dept. of Rehabilitation Medicine, Erasmus University Medical Center, Wytemaweg 80, 3000 CA Rotterdam, The Netherlands.
Department of Aging and Geriatric Research, University of Florida, Gainesville, FL, USA.
出版信息
J Exerc Sci Fit. 2017 Jun;15(1):43-47. doi: 10.1016/j.jesf.2017.07.001. Epub 2017 Jul 19.
PURPOSE
It is still equivocal whether oxygen uptake recovery kinetics are limited by oxygen delivery and can be improved by supplementary oxygen. The present study aimed to investigate whether measurements of muscle and pulmonary oxygen uptake kinetics can be used to assess oxygen delivery limitations in healthy subjects.
METHODS
Sixteen healthy young adults performed three sub-maximal exercise tests (6 min at 40% W) under hypoxic (14%O), normoxic (21%O) and hyperoxic (35%O) conditions on separate days in randomized order. Both Pulmonary VO and near infra red spectroscopy (NIRS) based Tissue Saturation Index (TSI) offset kinetics were calculated using mono-exponential curve fitting models.
RESULTS
Time constant τ of VO offset kinetics under hypoxic (44.9 ± 7.3s) conditions were significantly larger than τ of the offset kinetics under normoxia (37.9 ± 8.2s, p = 0.02) and hyperoxia (37±6s, p = 0.04). TSI mean response time (MRT) of the offset kinetics under hypoxic conditions (25.5 ± 13s) was significantly slower than under normoxic (15 ± 7.7, p = 0.007) and hyperoxic (13 ± 7.3, p = 0.008) conditions.
CONCLUSION
The present study shows that there was no improvement in the oxygen uptake and muscle oxygenation recovery kinetics in healthy subjects under hyperoxic conditions.Slower TSI and VO recovery kinetics under hypoxic conditions indicate that both NIRS and spiro-ergometry are appropriate non-invasive measurement tools to assess the physiological response of a healthy individual to hypoxic exercise.
目的
摄氧恢复动力学是否受氧输送限制以及补充氧气能否改善摄氧恢复动力学仍不明确。本研究旨在探讨肌肉和肺摄氧动力学测量是否可用于评估健康受试者的氧输送限制。
方法
16名健康年轻成年人在低氧(14%O₂)、常氧(21%O₂)和高氧(35%O₂)条件下,于不同日期以随机顺序进行三次亚极量运动测试(40%W下6分钟)。使用单指数曲线拟合模型计算肺摄氧量(VO₂)和基于近红外光谱(NIRS)的组织饱和度指数(TSI)偏移动力学。
结果
低氧(44.9±7.3秒)条件下VO₂偏移动力学的时间常数τ显著大于常氧(37.9±8.2秒,p = 0.02)和高氧(37±6秒,p = 0.04)条件下偏移动力学的τ。低氧条件下偏移动力学的TSI平均反应时间(MRT)(25.5±13秒)显著慢于常氧(15±7.7,p = 0.007)和高氧(13±7.3,p = 0.008)条件下的MRT。
结论
本研究表明,高氧条件下健康受试者的摄氧和肌肉氧合恢复动力学无改善。低氧条件下较慢的TSI和VO₂恢复动力学表明,NIRS和呼吸气体代谢测定法都是评估健康个体对低氧运动生理反应的合适无创测量工具。
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