EFFECTS OF A SINGLE HEART RATE-CLAMPED CYCLING SESSION UNDER SYSTEMIC HYPOXIA ON RECOVERY OF PHYSICAL AND PSYCHO-PHYSIOLOGICAL RESPONSES FROM EXERCISE-INDUCED FATIGUE

Journal of clinical exercise physiology Pub Date : 2024-05-01 DOI:10.31189/2165-7629-13-s2.404

Mr Siu Nam Li, Prof Peter Peeling, A. P. B. Scott, P. J. Peiffer, Dr Alex Shaykevich, Dr Olivier Girard

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Abstract

We investigated whether a single heart-rate clamped cycling session under systemic hypoxia affects the recovery of physical and psycho-physiological responses from residual fatigue compared to normoxia. On separate occasions, twelve trained males had countermovement jump height, leg stiffness, and perceptual fatigue assessed daily during a 3-d acute training camp scenario. On days 1 and 3, participants cycled for 60 min at a constant heart rate (80% of ventilatory threshold). On day 2, fatigue was induced through a simulated team game circuit (STGC), followed by a 60-min heart rate clamped cycling bout in either normoxia, hypoxia (simulated altitude ∼3500 m), or no cycling. Compared to baseline, jump height decreased at all timepoints following the STGC (all p < 0.05). Leg stiffness and cycling power output only decreased immediately following the STGC, with a 48% further decrease in cycling power output in hypoxia compared to normoxia (p < 0.05). The well-being questionnaire showed that perceived fatigue, decreased sleep quality, and increased muscle soreness responses occurred on day 3 (p< 0.05). In a pre-fatigued state, a single heart rate-clamped cycling session in hypoxia reduced mechanical output without affecting recovery of physical performance and perceptual measures from residual fatigue induced through team sport activity.

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在全身缺氧的情况下进行单次心率钳单车训练对恢复运动所致疲劳的生理和心理生理反应的影响

与常氧相比，我们研究了在全身缺氧的情况下进行单次心率钳制骑车训练是否会影响残余疲劳的身体和心理生理反应的恢复。 12 名训练有素的男性分别在 3 天的急性训练营场景中，每天对反向运动跳跃高度、腿部僵硬度和知觉疲劳进行评估。第 1 天和第 3 天，参与者以恒定心率（通气阈值的 80%）骑自行车 60 分钟。第 2 天，通过模拟团队比赛电路（STGC）诱发疲劳，然后在常氧、缺氧（模拟海拔高度 ∼ 3500 米）或不骑车的情况下进行 60 分钟的心率钳制骑车训练。与基线相比，在 STGC 之后的所有时间点，跳跃高度都有所下降（所有 p < 0.05）。腿部僵硬度和骑行功率输出仅在 STGC 结束后立即下降，与正常缺氧状态相比，缺氧状态下的骑行功率输出进一步下降了 48%（p < 0.05）。幸福感调查问卷显示，第 3 天出现了疲劳感、睡眠质量下降和肌肉酸痛增加的反应（p< 0.05）。在疲劳前的状态下，在低氧条件下进行单次心率钳自行车运动会降低机械输出量，但不会影响团队体育活动引起的残余疲劳的体能恢复和知觉测量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of clinical exercise physiology

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