Rossetti Gabriella M K, Macdonald Jamie H, Smith Matthew, Jackson Anna R, Callender Nigel, Newcombe Hannah K, Storey Heather M, Willis Sebastian, van den Beukel Jojanneke, Woodward Jonathan, Pollard James, Wood Benjamin, Newton Victoria, Virian Jana, Haswell Owen, Oliver Samuel J
1 Extremes Research Group, College of Health and Behavioral Sciences, Bangor University , Bangor, United Kingdom .
2 Medical Expeditions , Hyssington, United Kingdom .
High Alt Med Biol. 2017 Jun;18(2):152-162. doi: 10.1089/ham.2016.0088. Epub 2017 Apr 10.
Rossetti, Gabriella M.K., Jamie H. Macdonald, Matthew Smith, Anna R. Jackson, Nigel Callender, Hannah K. Newcombe, Heather M. Storey, Sebastian Willis, Jojanneke van den Beukel, Jonathan Woodward, James Pollard, Benjamin Wood, Victoria Newton, Jana Virian, Owen Haswell, and Samuel J. Oliver. MEDEX2015: Greater sea-level fitness is associated with lower sense of effort during Himalayan trekking without worse acute mountain sickness. High Alt Med Biol. 18:152-162, 2017.-This study examined the complex relationships of fitness and hypoxic sensitivity with submaximal exercise responses and acute mountain sickness (AMS) at altitude. Determining these relationships is necessary before fitness or hypoxic sensitivity tests can be recommended to appraise individuals' readiness for altitude. Forty-four trekkers (26 men; 18 women; 20-67 years) completed a loaded walking test and a fitness questionnaire in normoxia to measure and estimate sea-level maximal aerobic capacity (maximum oxygen consumption [[Formula: see text]O]), respectively. Participants also completed a hypoxic exercise test to determine hypoxic sensitivity (cardiac, ventilatory, and arterial oxygen saturation responses to acute hypoxia, fraction of inspired oxygen [Fio] = 0.112). One month later, all participants completed a 3-week trek to 5085 m with the same ascent profile. On ascent to 5085 m, ratings of perceived exertion (RPE), fatigue by Brunel Mood Scale, and AMS were recorded daily. At 5085 m, RPE during a fixed workload step test (RPE) and step rate during perceptually regulated exercise (STEP) were recorded. Greater sea-level [Formula: see text]O was associated with, and predicted, lower sense of effort (RPE; r = -0.43; p < 0.001; RPE; r = -0.69; p < 0.001) and higher step rate (STEP; r = 0.62; p < 0.01), but not worse AMS (r = 0.13; p = 0.4) or arterial oxygen desaturation (r = 0.07; p = 0.7). Lower RPE was also associated with better mood, including less fatigue (r = 0.57; p < 0.001). Hypoxic sensitivity was not associated with, and did not add to the prediction of submaximal exercise responses or AMS. In conclusion, participants with greater sea-level fitness reported less effort during simulated and actual trekking activities, had better mood (less fatigue), and chose a higher step rate during perceptually regulated exercise, but did not suffer from worse AMS or arterial oxygen desaturation. Simple sea-level fitness tests may be used to aid preparation for high-altitude travel.
罗塞蒂,加布里埃拉·M·K,杰米·H·麦克唐纳,马修·史密斯,安娜·R·杰克逊,奈杰尔·卡伦德,汉娜·K·纽科姆,希瑟·M·斯托里,塞巴斯蒂安·威利斯,乔扬内克·范登·博克尔,乔纳森·伍德沃德,詹姆斯·波拉德,本杰明·伍德,维多利亚·牛顿,亚娜·维里安,欧文·哈斯韦尔,以及塞缪尔·J·奥利弗。MEDEX2015:在喜马拉雅徒步旅行中,海平面适应能力越强,努力感越低,急性高山病症状也不更严重。《高海拔医学与生物学》。18:152 - 162,2017年。——本研究考察了在高原进行次最大运动反应和急性高山病(AMS)时,适应能力和低氧敏感性之间的复杂关系。在推荐进行适应能力或低氧敏感性测试以评估个体对高原的准备情况之前,确定这些关系是必要的。44名徒步旅行者(26名男性;18名女性;20 - 67岁)在常氧环境下完成了负重行走测试和体能问卷,分别用于测量和估计海平面最大有氧能力(最大摄氧量[[公式:见正文]O])。参与者还完成了低氧运动测试以确定低氧敏感性(对急性低氧的心脏、通气和动脉血氧饱和度反应,吸入氧分数[Fio] = 0.112)。一个月后,所有参与者以相同的上升模式完成了为期3周的徒步旅行,到达5085米处。在上升到5085米的过程中,每天记录主观用力程度(RPE)评分、布鲁内尔情绪量表评定的疲劳程度以及AMS情况。在5085米处,记录固定工作量台阶测试中的RPE(RPE)以及感知调节运动中的步频(STEP)。海平面[公式:见正文]O越高,与较低的努力感(RPE;r = -0.43;p < 0.001;RPE;r = -0.69;p < 0.001)和较高的步频(STEP;r = 0.62;p < 0.01)相关且可预测,但与更严重的AMS(r = 0.13;p = 0.4)或动脉血氧饱和度下降(r = 0.07;p = 0.7)无关。较低的RPE也与更好的情绪相关,包括较少的疲劳(r = 0.57;p < 0.001)。低氧敏感性与次最大运动反应或AMS的预测无关,也不能增加对其的预测。总之,海平面适应能力较强的参与者在模拟和实际徒步活动中报告的努力感较低,情绪较好(疲劳较少),并且在感知调节运动中选择了较高的步频,但并未出现更严重的AMS或动脉血氧饱和度下降。简单的海平面适应能力测试可用于辅助高海拔旅行的准备工作。
