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育空北极超级马拉松中的心脏自主神经调节与心理关联:最长且最冷的超级马拉松赛

Cardiac Autonomic Modulations and Psychological Correlates in the Yukon Arctic Ultra: The Longest and the Coldest Ultramarathon.

作者信息

Rundfeldt Lea C, Maggioni Martina A, Coker Robert H, Gunga Hanns-Christian, Riveros-Rivera Alain, Schalt Adriane, Steinach Mathias

机构信息

Charité - Universitätsmedizin Berlin, Institute of Physiology, Center for Space Medicine and Extreme Environments Berlin, Berlin, Germany.

Department of Biomedical Sciences for Health, Università degli Studi di Milano, Milan, Italy.

出版信息

Front Physiol. 2018 Feb 12;9:35. doi: 10.3389/fphys.2018.00035. eCollection 2018.

DOI:10.3389/fphys.2018.00035
PMID:29483874
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5816048/
Abstract

Studies on human physical performance in extreme environments have effectively approached the investigation of adaptation mechanisms and their physiological limits. As scientific interest in the interplay between physiological and psychological aspects of performance is growing, we aimed to investigate cardiac autonomic control, by means of heart rate variability, and psychological correlates, in competitors of a subarctic ultramarathon, taking place over a 690 km course (temperatures between +5 and -47°C). At baseline (PRE), after 277 km (D1), 383 km (D2), and post-race (POST, 690 km), heart rate (HR) recordings (supine, 15 min), psychometric measurements (Profile of Mood States/POMS, Borg fatigue, and Karolinska Sleepiness Scale scores both upon arrival and departure) were obtained in 16 competitors (12 men, 4 women, 38.6 ± 9.5 years). As not all participants reached the finish line, comparison of finishers (FIN, = 10) and non-finishers (NON, = 6), allowed differential assessment of performance. Resting HR increased overall significantly at D1 (FIN +15.9; NON +14.0 bpm), due to a significant decrease in parasympathetic drive. This decrease was in FIN only partially recovered toward POST. In FIN only, baseline HR was negatively correlated with mean velocity [ -0.63 (P.04)] and parasympathetic drive [pNN50+: -0.67 (P.03)], a lower HR and a higher vagal tone predicting a better performance. Moreover, in FIN, a persistent increase of the long-term self-similarity coefficient, assessed by detrended fluctuation analysis (DFAα2), was retrieved, possibly due to higher alertness. As for psychometrics, at D1, POMS Vigor decreased (FIN: -7.0; NON: -3.8), while Fatigue augmented (FIN: +6.9; NON: +5.0). Sleepiness increased only in NON, while Borg scales did not exhibit changes. Baseline comparison of mood states with normative data for athletes displayed significantly higher positive mood in our athletes. Results show that: the race conditions induced early decreases in parasympathetic drive; the extent of vagal withdrawal, associated to the timing of its recovery, is crucial for success; pre-competition lower resting HR predicts a better performance; psychological profile is reliably depicted by POMS, but not by Borg fatigue scales. Therefore, assessment of heart rate variability and psychological profile may monitor and partly predict performance in long-duration ultramarathon in extreme cold environment.

摘要

关于极端环境下人类身体表现的研究有效地探讨了适应机制及其生理极限。随着对表现的生理和心理方面相互作用的科学兴趣日益浓厚,我们旨在通过心率变异性研究北极圈超级马拉松比赛参赛者的心脏自主控制及其心理关联,该比赛全程690公里(温度在+5至-47°C之间)。在基线(PRE)、277公里处(D1)、383公里处(D2)和赛后(POST,690公里),对16名参赛者(12名男性,4名女性,38.6±9.5岁)进行心率(HR)记录(仰卧,15分钟)、心理测量(情绪状态剖面图/POMS、博格疲劳量表和卡罗林斯卡嗜睡量表得分,包括到达和离开时)。由于并非所有参与者都到达终点线,因此对完成者(FIN,n = 10)和未完成者(NON,n = 6)进行比较,以便对表现进行差异评估。静息心率在D1时总体显著增加(FIN增加15.9;NON增加14.0次/分钟),这是由于副交感神经驱动力显著下降所致。这种下降在FIN中仅部分恢复至POST。仅在FIN中,基线心率与平均速度呈负相关[-0.63(P<0.04)]和副交感神经驱动力呈负相关[pNN50+:-0.67(P<0.03)],较低的心率和较高的迷走神经张力预示着更好的表现。此外,在FIN中,通过去趋势波动分析(DFAα2)评估的长期自相似系数持续增加,这可能是由于更高的警觉性。至于心理测量,在D1时,POMS活力下降(FIN:-7.0;NON:-3.8),而疲劳增加(FIN:+6.9;NON:+5.0)。嗜睡仅在NON中增加,而博格量表未显示变化。将情绪状态的基线与运动员的标准数据进行比较,结果显示我们的运动员的积极情绪显著更高。结果表明:比赛条件导致副交感神经驱动力早期下降;迷走神经撤离的程度及其恢复时间与成功至关重要;赛前较低的静息心率预示着更好的表现;POMS能可靠地描绘心理特征,但博格疲劳量表不能。因此,评估心率变异性和心理特征可以监测并部分预测极端寒冷环境下长时间超级马拉松比赛的表现。

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