Department of Kinesiology and Sport Sciences, School of Education and Human Development, University of Miami, Coral Gables, Florida.
Thermal and Mountain Medicine Division, United States Army Research Institute of Environmental Medicine, Natick, Massachusetts.
Am J Physiol Regul Integr Comp Physiol. 2022 Oct 1;323(4):R457-R466. doi: 10.1152/ajpregu.00335.2021. Epub 2022 Aug 15.
This investigation sought to assess whether single or repeated bouts of ischemic preconditioning (IPC) could improve oxyhemoglobin saturation ([Formula: see text]) and/or attenuate reductions in muscle tissue saturation index (TSI) during submaximal hypoxic exercise. Fifteen healthy young men completed submaximal graded exercise under four experimental conditions: ) normoxia (NORM), ) hypoxia (HYP) [oxygen fraction of inspired air ([Formula: see text]) = 0.14, ∼3,200 m], ) hypoxia preceded by a single session of IPC (IPC1-HYP), and ) hypoxia preceded by seven sessions of IPC, one a day for 7 consecutive days (IPC7-HYP). IPC7-HYP heightened minute ventilation (V̇e) at 80% HYP peak cycling power output () (+10.47 ± 3.35 L·min, = 0.006), compared with HYP, as a function of increased breathing frequency. Both IPC1-HYP (+0.17 ± 0.04 L·min, < 0.001) and IPC7-HYP (+0.16 ± 0.04 L·min, < 0.001) elicited greater oxygen consumption (V̇o) across exercise intensities compared with NORM, whereas V̇o was unchanged with HYP alone. [Formula: see text] was unchanged by either IPC condition at any exercise intensity, yet the reduction of muscle TSI during resting hypoxic exposure was attenuated by IPC7-HYP (+9.9 ± 3.6%, = 0.040) compared with HYP, likely as a function of reduced local oxygen extraction. Considering all exercise intensities, IPC7-HYP attenuated reductions of TSI with HYP (+6.4 ± 1.8%, = 0.001). Seven days of IPC heightens ventilation, posing a threat to ventilatory efficiency, during high-intensity submaximal hypoxic exercise and attenuates reductions in hypoxic resting and exercise muscle oxygenation in healthy young men. A single session of IPC may be capable of modulating hypoxic ventilation; however, our present population was unable to demonstrate this with certainty.
这项研究旨在评估单次或重复缺血预处理 (IPC) 是否能改善次最大缺氧运动期间的氧合血红蛋白饱和度 ([Formula: see text]) 和/或减轻肌肉组织饱和度指数 (TSI) 的降低。15 名健康年轻男性在四种实验条件下完成了次最大分级运动:) 常氧 (NORM)、) 缺氧 (HYP) [吸入空气的氧分数 ([Formula: see text]) = 0.14,约 3200 米]、) 缺氧前单次 IPC 处理 (IPC1-HYP) 和) 缺氧前连续 7 天每天一次 IPC 处理 (IPC7-HYP)。与 HYP 相比,IPC7-HYP 在 80%HYP 峰值自行车功率输出时增加了分钟通气量 (V̇e) (+10.47±3.35 L·min,=0.006),这是呼吸频率增加的结果。IPC1-HYP(+0.17±0.04 L·min,<0.001)和 IPC7-HYP(+0.16±0.04 L·min,<0.001)在整个运动强度范围内都比 NORM 增加了更大的耗氧量 (V̇o),而 HYP 单独作用时 V̇o 不变。[Formula: see text]在任何运动强度下都不受 IPC 条件的影响,但在 IPC7-HYP 条件下,静息缺氧暴露期间的肌肉 TSI 降低幅度比 HYP 条件下小(+9.9±3.6%,=0.040),这可能是由于局部氧提取减少所致。考虑到所有运动强度,IPC7-HYP 减轻了 HYP 引起的 TSI 降低(+6.4±1.8%,=0.001)。7 天的 IPC 在高强度次最大缺氧运动中增加了通气,对通气效率构成威胁,并减轻了健康年轻男性在静息和运动缺氧时肌肉氧合的降低。单次 IPC 可能能够调节缺氧通气;然而,我们目前的研究人群不能肯定地证明这一点。
