a Federal University of the Rio Grande of Sul.
b Federal University of Mato Grosso.
Res Q Exerc Sport. 2019 Mar;90(1):46-53. doi: 10.1080/02701367.2018.1563273. Epub 2019 Feb 4.
To compare the effects of three water-based resistance trainings on neuromuscular parameters of older women.
Thirty-six women were randomized to groups: simple set of 30 seconds (1 × 30 s, 66.41 ± 4.71 years, n = 12), multiple sets of 10 seconds (3 × 10 s, 66.50 ± 4.74 years, n = 11), and simple set of 10 seconds (1 × 10 s, 65.23 ± 3.93 years, n = 13). Maximal isometric strength concomitantly with neuromuscular activity during extension and flexion knee was evaluated. In the same exercises, rate of force development at different time intervals was measured. Finally, functional capacity was assessed.
All trainings promoted similar improvements in the rate of force develpment of extension (effect size RFD 50 ms: 1 × 30 s .49, 3 × 10 s .67, 1 × 10 s .65; ES RFD 100 ms: 1 × 30 s .76, 3 × 10 s .80, 1 × 10 s .63; ES RFD 250 ms: 1 × 30 s .31, 3 × 10 s .49, 1 × 10 s .37) and flexion knee (ES RFD 50 ms: 1 × 30 s .59, 3 × 10 s .31, 1 × 10 s .48; ES RFD 100 ms: 1 × 30 s .41, 3 × 10 s .44, 1 × 10 s .42; ES RFD 250 ms: 1 × 30 s .57, 3 × 10 s .36, 1 × 10 s .43; ES RFD maximal: 1 × 30 s .63, 3 × 10 s .23, 1 × 10 s .26), however only the 3 × 10 s group improved the performance in the 8-foot up-and-go test (ES 3 × 10 s: .93, 1 × 30: .39, 1 × 10 s: .23). There was a maintenance of the isometric force and neuromuscular activity, except for the activity of the rectus femoris that showed an increase after training in all groups (ES 3 × 10 s: .04, 1 × 30: .36, 1 × 10 s: .50).
Water-based resistance training using simple or multiple sets promotes the same gains in rapid strength, however only multiple sets induced improvement on functional capacity.
比较三种基于水的抗阻训练对老年女性神经肌肉参数的影响。
36 名女性被随机分为三组:30 秒单组(1×30 秒,66.41±4.71 岁,n=12)、10 秒多组(3×10 秒,66.50±4.74 岁,n=11)和 10 秒单组(1×10 秒,65.23±3.93 岁,n=13)。评估伸膝和屈膝时最大等长力量以及膝关节伸展和屈肌时的神经肌肉活动。在相同的运动中,测量不同时间间隔的力发展率。最后,评估了功能能力。
所有训练均使伸膝(RFD 50ms 效应量 1×30 秒.49,3×10 秒.67,1×10 秒.65;RFD 100ms 效应量 1×30 秒.76,3×10 秒.80,1×10 秒.63;RFD 250ms 效应量 1×30 秒.31,3×10 秒.49,1×10 秒.37)和屈膝(RFD 50ms 效应量 1×30 秒.59,3×10 秒.31,1×10 秒.48;RFD 100ms 效应量 1×30 秒.41,3×10 秒.44,1×10 秒.42;RFD 250ms 效应量 1×30 秒.57,3×10 秒.36,1×10 秒.43;RFD 最大效应量 1×30 秒.63,3×10 秒.23,1×10 秒.26)的力发展率得到相似的提高,但是只有 3×10 秒组改善了 8 英尺起身测试的表现(ES 3×10 秒.93,1×30.39,1×10 秒.23)。除了股直肌的活动在所有组中训练后增加外,等长力量和神经肌肉活动都得到了维持(ES 3×10 秒.04,1×30.36,1×10 秒.50)。
使用简单或多组基于水的抗阻训练可获得相同的快速力量增益,但只有多组可提高功能能力。
