在大强度和极强度区间跑步的非线性分析。

A non-linear analysis of running in the heavy and severe intensity domains.

机构信息

School of Life and Medical Sciences, University of Hertfordshire, Hatfield, UK.

European University of Applied Sciences (EUFH), Berlin, Germany.

出版信息

Eur J Appl Physiol. 2021 May;121(5):1297-1313. doi: 10.1007/s00421-021-04615-6. Epub 2021 Feb 12.

DOI:10.1007/s00421-021-04615-6

PMID:33580289

Abstract

PURPOSE

Altered movement complexity, indicative of system dysfunction, has been demonstrated with increased running velocity and neuromuscular fatigue. The critical velocity (CV) denotes a metabolic and neuromuscular fatigue threshold. It remains unclear whether changes to complexity during running are coupled with the exercise intensity domain in which it is performed. The purpose of this study was to examine whether movement variability and complexity differ exclusively above the CV intensity during running.

METHODS

Ten endurance-trained participants ran at 95%, 100%, 105% and 115% CV for 20 min or to task failure, whichever occurred first. Movement at the hip, knee, and ankle were sampled throughout using 3D motion analysis. Complexity of kinematics in the first and last 30 s were quantified using sample entropy (SampEn) and detrended fluctuation analysis (DFA-α). Variability was determined using standard deviation (SD).

RESULTS

SampEn decreased during all trials in knee flexion/extension and it increased in hip internal/external rotation, whilst DFA-α increased in knee internal/external rotation. SD of ankle plantar/dorsiflexion and inversion/eversion, knee internal/external rotation, and hip flexion/extension and abduction/adduction increased during trials. Hip flexion/extension SampEn values were lowest below CV. DFA-α was lower at higher velocities compared to velocities below CV in ankle plantar/dorsiflexion, hip flexion/extension, hip adduction/abduction, hip internal/external rotation. In hip flexion/extension SD was highest at 115% CV.

CONCLUSIONS

Changes to kinematic complexity over time are consistent between heavy and severe intensity domains. The findings suggest running above CV results in increased movement complexity and variability, particularly at the hip, during treadmill running.

摘要

目的

运动复杂性的改变，表明系统功能障碍，已经在跑步速度增加和神经肌肉疲劳时表现出来。临界速度（CV）表示代谢和神经肌肉疲劳的阈值。目前尚不清楚在跑步过程中，复杂性的变化是否与进行运动的强度域相关。本研究的目的是检验在 CV 强度以上跑步时，运动变异性和复杂性是否仅存在差异。

方法

10 名耐力训练的参与者以 95%、100%、105%和 115%的 CV 跑 20 分钟或直至任务失败，以先发生者为准。使用 3D 运动分析在整个过程中对髋关节、膝关节和踝关节的运动进行采样。使用样本熵（SampEn）和去趋势波动分析（DFA-α）在第一和最后 30 秒内对运动学的复杂性进行量化。使用标准差（SD）来确定变异性。

结果

在所有试验中，膝关节屈伸的 SampEn 均降低，髋关节内/外旋的 SampEn 增加，而膝关节内/外旋的 DFA-α增加。踝关节跖屈/背屈、内翻/外翻、膝关节内/外旋和髋关节屈/伸和外展/内收的 SD 在试验期间增加。CV 以下时，髋关节屈伸的 SampEn 值最低。与 CV 以下的速度相比，DFA-α在踝关节跖屈/背屈、髋关节屈/伸、髋关节内收/外展、髋关节内/外旋的速度更高。在髋关节屈/伸中，SD 在 115%CV 时最高。

结论

随着时间的推移，运动复杂性的变化在重强度和严重强度域之间是一致的。研究结果表明，在跑步机跑步时，CV 以上的跑步会导致运动复杂性和变异性增加，尤其是在髋关节。

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在大强度和极强度区间跑步的非线性分析。

A non-linear analysis of running in the heavy and severe intensity domains.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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