短间隔高强度运动引起的长期生理适应：一项比较主动和被动恢复的 RCT。

IF 2.6 Q1 SPORT SCIENCES Journal of Functional Morphology and Kinesiology Pub Date : 2024-11-12 DOI:10.3390/jfmk9040229

Mario Mauro, Bernardino Javier Sánchez-Alcaraz Martínez, Pasqualino Maietta Latessa, Sofia Marini, Stefania Toselli

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引用次数: 0

摘要

背景：高强度间歇训练（HIIT高强度间歇训练（HIIT）是最受争议的方法之一，它涉及多个可调节的参数，但其诱导的长期适应性仍不清楚。本研究旨在评估跑步和全身运动与高强度（大于 80% 心率）短间隔训练（30 秒）对身体成分和体能表现的影响，并比较主动恢复组（AR）和被动恢复组（PR）对男性和女性的影响。方法将 18 名训练有素的年轻成年人（55.56% ♀）随机分配到 PR 组（n = 9，23.09 ± 2.56 岁，163.69 ± 9.88 厘米，68.96 ± 14.62 千克）或 AR 组（n = 9，22.05 ± 1.54 岁，170.61 ± 11.5 厘米，68.78 ± 12.45 千克）。两组都进行了为期八周的 HIIT 训练，其进度、训练量和运动负荷相同（TL：F = 1.55，P = 0.214；VL：F = 0.81，P = 0.505）。在治疗前后测试了体脂（BF）、去脂质量（FFM）、上下肢脂肪（UFI、LFI）和肌肉面积（UMA、LMA）、手握力（HGS）、力量（反向运动跳，CMJ）、敏捷性（5-0-5）和最大耗氧量（V˙O2p）。结果显示建议的 HIIT 使 BF 降低了 9.57%，FFM 增加了 2.09%。女性对 LMA 的适应性更好（是男性的 8.34 倍），而两性的上肢质量分布受 PR 的影响更大（♀：UFI g = 1.851，95% CI：0.51，3.14；♂：♀：UFI g = 1.851，95% CI：0.51，3.14；♂：UFI g = 2.456，95% CI：0.336，4.487）。在调节方面，该方案使 V˙O2p增加了 6.47%。女性在 CMJ 方面表现出更好的适应性（RR = 1.8），而男性在敏捷性方面表现出更好的适应性（RR = 3.76）。在 HGS 中，PR 女性（右侧 = +6.28%；左侧 = +9.28%）和 AR 男性（右侧 = +19.21%；左侧 = +19.04%）的交互作用效果显著。结论在需要改善多种生理机能的训练中，采用不同运动恢复类型的短间隔 HIIT 可能是一种实用的解决方案。教练和培训师可以利用 HIIT 的多功能性，根据所需的运动模式和男女个体的长期反应进行训练。

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Long-Term Physiological Adaptations Induced by Short-Interval High-Intensity Exercises: An RCT Comparing Active and Passive Recovery.

Background: High-intensity interval training (HIIT) is one of the most debated methods involving several parameters that could be modulated, but the long-term adaptations it induces are still unclear. This investigation aimed to evaluate the efficacy of running and whole-body exercises with high-intensity (>80% heart rate) short intervals (30 s) in body composition and physical performance and compare the effects between groups with active (AR) or passive recovery (PR), both in males and females. Methods: Eighteen trained young adults (55.56% ♀) were randomly allocated to the PR (n = 9, 23.09 ± 2.56 years, 163.69 ± 9.88 cm, 68.96 ± 14.62 kg) or AR (n = 9, 22.05 ± 1.54 years, 170.61 ± 11.5 cm, 68.78 ± 12.45 kg) group. Both groups performed eight weeks of HIIT, with an equal progression, training, and volume load (TL: F = 1.55, p = 0.214; VL: F = 0.81, p = 0.505). Body fat (BF), fat-free mass (FFM), upper and lower limb fat (UFI, LFI) and muscle areas (UMA, LMA), handgrip strength (HGS), power (countermovement jump, CMJ), agility (5-0-5), and maximal oxygen consumption (V˙O_2p) were tested before and after treatments. Results: The proposed HIIT reduced BF by 9.57% and increased FFM by 2.09%. Females reported better adaptations in LMA (8.34 times higher than males), while both sexes' upper limb mass distribution was better affected by PR (♀: UFI g = 1.851, 95% CI: 0.51, 3.14; ♂: UFI g = 2.456, 95% CI: 0.336, 4.487). Concerning conditioning, the protocol increased V˙O_2p by 6.47%. Females showed better adaptations in CMJ (RR = 1.8), while males showed better adaptations in agility (RR = 3.76). The interaction effects were significant for PR females (right = +6.28%; left = +9.28%) and for AR males (right = +19.21%; left = +19.04%) in HGS. Conclusions: Short-interval HIIT with different exercise recovery types may be a practical solution in training where several physiological improvements are needed. Coaches and trainers can take advantage of the versatile nature of HIIT, relying on desired movement patterns and long-term responses in both male and female individuals.

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