Alcock Rebekah, McCubbin Alan, Camões-Costa Vera, Costa Ricardo J S
Sports Nutrition, Australian Institute of Sport, Australian Sports Commission, Bruce, Australia (Ms Alcock).
Department of Nutrition, Dietetics & Food, Monash University, Victoria, Australia (Mr McCubbin and Drs Camões-Costa and Costa).
Wilderness Environ Med. 2018 Dec;29(4):508-520. doi: 10.1016/j.wem.2018.06.004. Epub 2018 Sep 22.
To assess the impact of rationed versus full estimated energy provisions on markers of physiological strain in response to a simulated 250 km multistage ultramarathon (MSUM), on two separate occasions, the ultraendurance runner performed a laboratory simulated MSUM, with rationed (RP: 3303±75 kcal⋅day) and full (FP: 7156±359 kcal⋅day) provisions. Total daily energy expenditure was determined using dual-method indirect calorimetry. Resting metabolic rate, iDXA, and body water were measured at baseline, day 3, and post-MSUM. Blood, urine, and feces were collected, and mood state was measured, d 1 to 5 (before and after running) to determine various physiological strain indices. Heart rate, RPE, thermal comfort, gastrointestinal symptoms, and non-protein oxidation rates were measured every 30 min during running. Data were analyzed using single-subject design analysis and interpreted using Cohen's effect size. Energy expenditure was lower on RP (6943±145 kcal⋅day) than FP (7486±143 kcal⋅day) (Cohen's δ=-3.1). More pronounced exertional strain (RPE δ=1.2, thermal conform δ=0.6, rectal temperature δ=1.0, and plasma cortisol concentration δ=1.7) was observed on RP as the MSUM progressed. Total carbohydrate and fat oxidation during running decreased (0.76 vs. 1.82 g⋅min; δ=-3.9) and increased (0.91 vs. 0.54 g⋅min; δ=3.7), respectively, more profoundly on RP as the MSUM progressed. Gastrointestinal symptoms were modestly lower in RP (δ=-0.26). Exercise-induced leukocytosis, cytokinaemia, and neutrophil responses were higher on RP. Iron status markers were trivial. Higher mood disturbance and fatigue were reported on RP. The ultraendurance runner presented greater physiological and psychophysiological disturbances, in response to a laboratory simulated MSUM, on rationed energy provisions, despite the lighter pack-weight.
为了评估定量与充足的估计能量供应对模拟250公里多阶段超级马拉松(MSUM)生理应激指标的影响,在两个不同的场合,这位超级耐力跑者进行了实验室模拟的MSUM,分别采用定量(RP:3303±75千卡·天)和充足(FP:7156±359千卡·天)的能量供应。使用双方法间接测热法测定每日总能量消耗。在基线、第3天和MSUM后测量静息代谢率、iDXA和身体水分。收集血液、尿液和粪便,并在第1至5天(跑步前后)测量情绪状态,以确定各种生理应激指标。在跑步过程中,每30分钟测量一次心率、主观用力程度(RPE)、热舒适度、胃肠道症状和非蛋白氧化率。使用单受试者设计分析对数据进行分析,并使用科恩效应量进行解释。定量能量供应时的能量消耗(6943±145千卡·天)低于充足能量供应时(7486±143千卡·天)(科恩δ=-3.1)。随着MSUM的进行,在定量能量供应时观察到更明显的运动应激(RPEδ=1.2,热舒适度δ=0.6,直肠温度δ=1.0,血浆皮质醇浓度δ=1.7)。随着MSUM的进行,跑步过程中总碳水化合物和脂肪氧化分别下降(0.76对1.82克·分钟;δ=-3.9)和增加(0.91对0.54克·分钟;δ=3.7),在定量能量供应时变化更为显著。定量能量供应时胃肠道症状略低(δ=-0.26)。定量能量供应时运动诱导的白细胞增多、细胞因子血症和中性粒细胞反应更高。铁状态指标变化不大。定量能量供应时报告有更高的情绪困扰和疲劳。尽管负重较轻,但在定量能量供应情况下,这位超级耐力跑者对实验室模拟的MSUM表现出更大的生理和心理生理干扰。
