Superiority of High-Load vs. Low-Load Resistance Training in Military Cadets.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-09-01 Epub Date: 2024-08-14 DOI:10.1519/JSC.0000000000004830

Sjur F Øfsteng, Daniel Hammarström, Silje Knox, Øyvind Jøsok, Kirsi Helkala, Lise Koll, Marita Hanestadhaugen, Truls Raastad, Bent R Rønnestad, Stian Ellefsen

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引用次数: 0

Abstract

Abstract: Øfsteng, SF, Hammarström, D, Knox, S, Jøsok, Ø, Helkala, K, Koll, L, Hanestadhaugen, M, Raastad, T, Rønnestad, BR, and Ellefsen, S. Superiority of high-load vs. low-load resistance training in military cadets. J Strength Cond Res 38(9): 1584-1595, 2024-Muscle strength and power are important determinants of soldiers' performance in modern warfare. Here, we compare the efficacy of 22 weeks of whole-body resistance training with high load (HL, 10 repetitions maximum/RM) and low load (LL, 30RM) for developing maximal muscle strength and power, performance, and muscle mass in moderately trained cadets (20 ± 1 year, f; n = 5, m; n = 22). Outcome measures were assessed at baseline and at week 22, in addition to a mid-intervention assessment at week 10. Twenty-two weeks of HL led to greater increases in muscle strength (upper limb, Δ 10%, 95% CI [2.8, 17.1], p = 0.01; lower limb, Δ 9.9%, CI [1.1, 18.6], p = 0.029), jump height (Δ 5.5%, CI [1.4, 9.6], p = 0.011), and upper limb lean mass (Δ 5.2%, CI [1, 9.4], p = 0.018) compared with LL. HL and LL led to similar changes in agility, muscle endurance performance, lower limb muscle mass, and cross-sectional area in m. vastus lateralis. For all variables, training-associated changes occurred primarily during the initial 10 weeks of the intervention, including the differential responses to HL and LL. In conclusion, although 22 weeks of HL led to greater increases in lower and upper limb muscle strength, power, and upper limb lean mass than LL, the 2 load conditions led to similar improvements in agility performance and lower limb muscle mass. Our results thus indicate that both loading regimes elicit multifaceted physiological improvements important for military readiness.

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军校学员高负荷与低负荷阻力训练的优越性。

摘要：Øfsteng、SF、Hammarström、D、Knox、S、Jøsok、Ø、Helkala、K、Koll、L、Hanestadhaugen、M、Raastad、T、Rønnestad、BR 和 Ellefsen、S. 军校学员高负荷与低负荷阻力训练的优越性。J Strength Cond Res 38(9)：1584-1595，2024-肌肉力量和功率是现代战争中士兵表现的重要决定因素。在此，我们比较了为期 22 周的高负荷（HL，最大重复次数/RM 10 次）和低负荷（LL，最大重复次数/RM 30 次）全身阻力训练对中等训练水平军校学员（20 ± 1 岁，女；n = 5，男；n = 22）最大肌力和力量、表现和肌肉质量的培养效果。除了在第 10 周进行干预中期评估外，还在基线和第 22 周进行了结果评估。为期 22 周的 HL 使肌肉力量有了更大的提高（上肢，Δ 10%，95% CI [2.8，17.1]，p = 0.01；下肢，Δ 9.9%，CI [1.1，18.6]，p = 0.01）。1，18.6]，p = 0.029）、跳跃高度（Δ 5.5%，CI [1.4，9.6]，p = 0.011）和上肢瘦体重（Δ 5.2%，CI [1，9.4]，p = 0.018）。HL 和 LL 导致的敏捷性、肌肉耐力表现、下肢肌肉质量和阔筋膜横截面积的变化相似。就所有变量而言，与训练相关的变化主要发生在干预的最初 10 周，包括对 HL 和 LL 的不同反应。总之，虽然 22 周的 HL 比 LL 能更大程度地增加上下肢肌肉力量、功率和上肢瘦体重，但两种负荷条件对敏捷性表现和下肢肌肉质量的改善效果相似。因此，我们的研究结果表明，这两种负荷机制都能引起多方面的生理改善，对军事准备非常重要。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464