在非对称运动项目中接受训练的运动员躯干旋转力量的双侧差异。
Between-side differences in trunk rotational power in athletes trained in asymmetric sports.
作者信息
Zemková Erika, Poór Oliver, Jeleň Michal
机构信息
Department of Sports Kinanthropology, Faculty of Physical Education and Sport, Comenius University in Bratislava, Slovakia.
Sports Technology Institute, Faculty of Electrical Engineering and Information Technology, Slovak University of Technology in Bratislava, Slovakia.
出版信息
J Back Musculoskelet Rehabil. 2019;32(4):529-537. doi: 10.3233/BMR-181131.
BACKGROUND
The asymmetric loading of trunk muscles in sports like golf or tennis may cause side-to-side imbalances in rotational muscle strength and endurance. Such imbalances may be compounded by the presence of low back pain (LBP) and related injuries. However, trunk rotational power is a better predictor of athlete performance, and therefore its ability to reveal these asymmetries/dysbalances should be investigated.
OBJECTIVE
This study compares peak and mean values of power during trunk rotations on the dominant and non-dominant side in golfers, ice-hockey players, tennis players, and an age-matched control group of fit individuals.
METHODS
Groups of 17 golfers, 17 ice-hockey players, 21 tennis players, and 39 fit individuals performed standing trunk rotations to each side with a bar weight of 5.5, 10.5, 15.5, and 20 kg placed on the shoulders. Peak power and mean power in the acceleration phase of trunk rotations were measured using the FiTRO Torso Premium system.
RESULTS
Peak power and mean power in the acceleration phase of trunk rotations were significantly higher on the dominant (D) than non-dominant (ND) side at weights of 5.5 kg (14 and 14%), 10.5 kg (17 and 14%), 15.5 kg (16 and 15%), and 20 kg (16 and 16%) in ice-hockey players, at 5.5 kg (14 and 13%), 10.5 kg (17 and 14%), and 15.5 kg (15% - only peak power) in tennis players, and at 5.5 kg (17 and 18%) and 10.5 kg (19 and 17%) in golfers. However, their values did not differ significantly at these weights (< 10%) in the age-matched control group. The D/ND ratio was the highest in ice-hockey players (1.18, 1.19), followed by golfers (1.16, 1.17) and finally tennis players (1.12, 1.16).
CONCLUSION
Taking into account significantly higher trunk rotational power on the dominant than the non-dominant side in golfers, tennis players and ice-hockey players at lower and/or higher weights and no significant side-to-side differences in a control group of fit individuals, this parameter may be considered specific to their asymmetric loading during trunk rotations. However, whether these asymmetries/dysbalances expressed by the D/ND ratio could also identify the likelihood of LBP, needs to be proven.
背景
在高尔夫或网球等运动中,躯干肌肉的不对称负荷可能导致旋转肌肉力量和耐力的左右不平衡。下背痛(LBP)及相关损伤的存在可能会加剧这种不平衡。然而,躯干旋转力量是运动员表现的更好预测指标,因此应研究其揭示这些不对称/失衡的能力。
目的
本研究比较高尔夫球手、冰球运动员、网球运动员以及年龄匹配的健康对照组在优势侧和非优势侧进行躯干旋转时的力量峰值和平均值。
方法
17名高尔夫球手、17名冰球运动员、21名网球运动员和39名健康个体组成的小组,在肩部放置5.5、10.5、15.5和20千克的杠铃片,向两侧进行站立位躯干旋转。使用FiTRO Torso Premium系统测量躯干旋转加速阶段的力量峰值和平均力量。
结果
在冰球运动员中,当杠铃片重量为5.5千克(分别为14%和14%)、10.5千克(17%和14%)、15.5千克(16%和15%)和20千克(16%和16%)时,躯干旋转加速阶段的力量峰值和平均力量在优势侧(D)显著高于非优势侧(ND);在网球运动员中,当杠铃片重量为5.5千克(14%和13%)、10.5千克(17%和14%)和15.5千克(仅力量峰值为15%)时,情况相同;在高尔夫球手中,当杠铃片重量为5.5千克(17%和18%)和10.5千克(19%和17%)时也是如此。然而,在年龄匹配的对照组中,这些重量下两侧的值差异不显著(<10%)。D/ND比值在冰球运动员中最高(1.18,1.19),其次是高尔夫球手(1.16,1.17),最后是网球运动员(1.12,1.16)。
结论
考虑到在较低和/或较高重量下,高尔夫球手、网球运动员和冰球运动员优势侧的躯干旋转力量显著高于非优势侧,而在健康个体对照组中两侧无显著差异,该参数可能与他们在躯干旋转过程中的不对称负荷有关。然而D/ND比值所表示出的这些不对称/失衡是否也能确定LBP的可能性,仍有待证实。
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