Salvadego Desy, Keramidas Michail E, Brocca Lorenza, Domenis Rossana, Mavelli Irene, Rittweger Jörn, Eiken Ola, Mekjavic Igor B, Grassi Bruno
Department of Medical and Biological Sciences, University of Udine, Udine, Italy;
Department of Environmental Physiology, Swedish Aerospace Physiology Centre, Royal Institute of Technology, Stockholm, Sweden;
J Appl Physiol (1985). 2016 Jul 1;121(1):154-63. doi: 10.1152/japplphysiol.00832.2015. Epub 2016 May 19.
An integrative evaluation of oxidative metabolism was carried out in 9 healthy young men (age, 24.1 ± 1.7 yr mean ± SD) before (CTRL) and after a 10-day horizontal bed rest carried out in normoxia (N-BR) or hypoxia (H-BR, FiO2 = 0.147). H-BR was designed to simulate planetary habitats. Pulmonary O2 uptake (V̇o2) and vastus lateralis fractional O2 extraction (changes in deoxygenated hemoglobin+myoglobin concentration, Δ[deoxy(Hb+Mb)] evaluated using near-infrared spectroscopy) were evaluated in normoxia and during an incremental cycle ergometer (CE) and one-leg knee extension (KE) exercise (aimed at reducing cardiovascular constraints to oxidative function). Mitochondrial respiration was evaluated ex vivo by high-resolution respirometry in permeabilized vastus lateralis fibers. During CE V̇o2peak and Δ[deoxy(Hb+Mb)]peak were lower (P < 0.05) after both N-BR and H-BR than during CTRL; during KE the variables were lower after N-BR but not after H-BR. During CE the overshoot of Δ[deoxy(Hb+Mb)] during constant work rate exercise was greater in N-BR and H-BR than CTRL, whereas during KE a significant difference vs. CTRL was observed only after N-BR. Maximal mitochondrial respiration determined ex vivo was not affected by either intervention. In N-BR, a significant impairment of oxidative metabolism occurred downstream of central cardiovascular O2 delivery and upstream of mitochondrial function, possibly at the level of the intramuscular matching between O2 supply and utilization and peripheral O2 diffusion. Superposition of hypoxia on bed rest did not aggravate, and partially reversed, the impairment of muscle oxidative function in vivo induced by bed rest. The effects of longer exposures will have to be determined.
对9名健康年轻男性(年龄24.1±1.7岁,均值±标准差)在常氧(N-BR)或低氧(H-BR,FiO2 = 0.147)条件下进行10天卧床休息前后,进行了氧化代谢的综合评估。H-BR旨在模拟行星栖息地。在常氧以及递增式功率自行车(CE)和单腿膝关节伸展(KE)运动期间(旨在减少心血管对氧化功能的限制),评估了肺氧摄取(V̇o2)和股外侧肌氧提取分数(使用近红外光谱法评估脱氧血红蛋白+肌红蛋白浓度的变化,Δ[脱氧(Hb+Mb)])。通过高分辨率呼吸测定法对透化的股外侧肌纤维进行离体线粒体呼吸评估。在CE期间,N-BR和H-BR后的V̇o2峰值和Δ[脱氧(Hb+Mb)]峰值均低于对照期间;在KE期间,N-BR后变量降低,但H-BR后未降低。在CE期间,在恒定工作率运动期间,N-BR和H-BR中Δ[脱氧(Hb+Mb)]的过冲比对照更大,而在KE期间,仅在N-BR后观察到与对照的显著差异。离体测定的最大线粒体呼吸不受任何一种干预的影响。在N-BR中,氧化代谢在中心心血管氧输送下游和线粒体功能上游发生了显著损害,可能在肌肉内氧供应与利用以及外周氧扩散的匹配水平。卧床休息时叠加低氧不会加重,反而部分逆转了卧床休息在体内诱导的肌肉氧化功能损害。更长时间暴露的影响还有待确定。
