常压缺氧禁闭对代谢、肠道激素和身体成分的影响。
The Effect of Normobaric Hypoxic Confinement on Metabolism, Gut Hormones, and Body Composition.
作者信息
Mekjavic Igor B, Amon Mojca, Kölegård Roger, Kounalakis Stylianos N, Simpson Liz, Eiken Ola, Keramidas Michail E, Macdonald Ian A
机构信息
Department of Automation, Biocybernetics and Robotics, Jožef Stefan InstituteLjubljana, Slovenia; Department of Biomedical Physiology and Kinesiology, Simon Fraser UniversityBurnaby, BC, Canada.
Jožef Stefan International Postgraduate School Ljubljana, Slovenia.
出版信息
Front Physiol. 2016 Jun 2;7:202. doi: 10.3389/fphys.2016.00202. eCollection 2016.
To assess the effect of normobaric hypoxia on metabolism, gut hormones, and body composition, 11 normal weight, aerobically trained (O2peak: 60.6 ± 9.5 ml·kg(-1)·min(-1)) men (73.0 ± 7.7 kg; 23.7 ± 4.0 years, BMI 22.2 ± 2.4 kg·m(-2)) were confined to a normobaric (altitude ≃ 940 m) normoxic (NORMOXIA; PIO2 ≃ 133.2 mmHg) or normobaric hypoxic (HYPOXIA; PIO was reduced from 105.6 to 97.7 mmHg over 10 days) environment for 10 days in a randomized cross-over design. The wash-out period between confinements was 3 weeks. During each 10-day period, subjects avoided strenuous physical activity and were under continuous nutritional control. Before, and at the end of each exposure, subjects completed a meal tolerance test (MTT), during which blood glucose, insulin, GLP-1, ghrelin, peptide-YY, adrenaline, noradrenaline, leptin, and gastro-intestinal blood flow and appetite sensations were measured. There was no significant change in body weight in either of the confinements (NORMOXIA: -0.7 ± 0.2 kg; HYPOXIA: -0.9 ± 0.2 kg), but a significant increase in fat mass in NORMOXIA (0.23 ± 0.45 kg), but not in HYPOXIA (0.08 ± 0.08 kg). HYPOXIA confinement increased fasting noradrenaline and decreased energy intake, the latter most likely associated with increased fasting leptin. The majority of all other measured variables/responses were similar in NORMOXIA and HYPOXIA. To conclude, normobaric hypoxic confinement without exercise training results in negative energy balance due to primarily reduced energy intake.
为评估常压缺氧对代谢、肠道激素和身体成分的影响,11名体重正常、接受有氧训练(峰值摄氧量:60.6±9.5毫升·千克⁻¹·分钟⁻¹)的男性(73.0±7.7千克;23.7±4.0岁,体重指数22.2±2.4千克·米⁻²)采用随机交叉设计,被限制在常压(海拔约940米)常氧(常氧组;吸入氧分压约133.2毫米汞柱)或常压缺氧(缺氧组;吸入氧分压在10天内从105.6毫米汞柱降至97.7毫米汞柱)环境中10天。两次限制之间的洗脱期为3周。在每个10天期间,受试者避免剧烈体力活动,并接受持续的营养控制。在每次暴露前和结束时,受试者完成一次糖耐量试验(MTT),在此期间测量血糖、胰岛素、胰高血糖素样肽-1、胃饥饿素、肽YY、肾上腺素、去甲肾上腺素、瘦素、胃肠道血流量和食欲感觉。在任何一种限制环境下,体重均无显著变化(常氧组:-0.7±0.2千克;缺氧组:-0.9±0.2千克),但常氧组脂肪量显著增加(0.23±0.45千克),而缺氧组没有(0.08±0.08千克)。缺氧限制增加了空腹去甲肾上腺素水平并减少了能量摄入,后者很可能与空腹瘦素增加有关。在常氧组和缺氧组中,大多数其他测量变量/反应相似。总之,未经运动训练的常压缺氧限制导致能量负平衡,主要原因是能量摄入减少。
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