高强度与低强度力量训练递减:对神经肌肉性能的影响。
Higher- Versus Lower-Intensity Strength-Training Taper: Effects on Neuromuscular Performance.
出版信息
Int J Sports Physiol Perform. 2019 Apr 1;14(4):458-463. doi: 10.1123/ijspp.2018-0489. Epub 2019 Feb 20.
PURPOSE
To investigate the effects of strength-training tapers of different intensities but equal volume reductions on neuromuscular performance.
METHODS
Eleven strength-trained men (21.3 [3.3] y, 92.3 [17.6] kg, relative 1-repetition-maximum deadlift 1.9 [0.2] times bodyweight) completed a crossover study. Specifically, two 4-wk strength-training blocks were followed by a taper week with reduced volume (∼70%) involving either increased (5.9%) or decreased (-8.5%) intensity. Testing occurred pretraining (T1), posttraining (T2), and posttaper (T3). Salivary testosterone and cortisol, plasma creatine kinase, a Daily Analysis of Life Demands in Athletes questionnaire, countermovement jump (CMJ), isometric midthigh pull, and isometric bench press were measured.
RESULTS
CMJ height improved significantly over time (P < .001), with significant increases from T1 (38.0 [5.5] cm) to both T2 (39.3 [5.3] cm; P = .010) and T3 (40.0 [5.3] cm; P = .001) and from T2 to T3 (P = .002). CMJ flight time:contraction time increased significantly over time (P = .004), with significant increases from T1 (0.747 [0.162]) to T2 (0.791 [0.163]; P = .012). Isometric midthigh-pull relative peak force improved significantly over time (P = .033), with significant increases from T1 (34.7 [5.0] N/kg) to T2 (35.9 [4.8] N/kg; P = .013). No significant changes were found between tapers. However, the higher-intensity taper produced small effect-size increases at T3 vs T1 for isometric midthigh-pull relative peak force, CMJ height, and flight time:contraction time, while the lower-intensity taper only produced small effect-size improvements at T3 vs T1 for CMJ height.
CONCLUSIONS
A strength-training taper with volume reductions had a positive effect on power, with a tendency for the higher-intensity taper to produce more favorable changes in strength and power.
目的
探究不同强度但等减容的力量训练递减对神经肌肉性能的影响。
方法
11 名力量训练男性(21.3 [3.3] 岁,92.3 [17.6] 千克,相对 1 次重复最大硬拉 1.9 [0.2] 倍体重)完成了一项交叉研究。具体来说,他们进行了为期 4 周的力量训练,随后进行了减容(约 70%)的减训周,包括增加(5.9%)或减少(-8.5%)强度。测试分别在训练前(T1)、训练后(T2)和减训后(T3)进行。测量了唾液睾酮和皮质醇、血浆肌酸激酶、运动员每日生活需求分析问卷、反跳式纵跳、等长大腿拉力和等长卧推。
结果
纵跳高度随时间显著提高(P < .001),从 T1(38.0 [5.5] 厘米)到 T2(39.3 [5.3] 厘米;P = .010)和 T3(40.0 [5.3] 厘米;P = .001)均显著增加,且从 T2 到 T3 也显著增加(P = .002)。纵跳的起跳时间/收缩时间比随时间显著提高(P = .004),从 T1(0.747 [0.162])到 T2(0.791 [0.163];P = .012)显著增加。等长大腿拉力的相对峰值力随时间显著提高(P = .033),从 T1(34.7 [5.0] 牛/千克)到 T2(35.9 [4.8] 牛/千克;P = .013)显著增加。两种减训方案之间没有发现显著变化。然而,高强度减训在 T3 时与 T1 相比,等长大腿拉力的相对峰值力、纵跳高度和起跳时间/收缩时间比,以及 T3 时与 T1 相比,纵跳高度,都产生了较小的效应量增加,而低强度减训仅在 T3 时与 T1 相比,纵跳高度产生了较小的效应量改善。
结论
力量训练的减训方案可对力量产生积极影响,高强度减训方案可能产生更有利的力量和力量变化。
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