Schuhbeck Elisabeth, Birkenmaier Christof, Schulte-Göcking Heike, Pronnet Andreas, Jansson Volkmar, Wegener Bernd
Department of Orthopedic Surgery, Physical Medicine and Rehabilitation, Ludwig Maximilian University of Munich, Munich, Germany.
Aktiva Medici Rehabilitation Center, Prien am Chiemsee, Germany.
Front Physiol. 2019 Sep 10;10:1136. doi: 10.3389/fphys.2019.01136. eCollection 2019.
The aim of this study was to examine the influence of long-term whole-body electromyostimulation (WB-EMS) training in addition to standard ice hockey training in the following areas: shot speed, counter-movement-jump (CMJ) height and power, 10 m-sprint, isokinetic maximum force at 60 and 300°/s of the knee extensor muscle and subjective performance. The purpose was further to check, whether competitive status influenced the extent of response to WB-EMS and whether WB-EMS would hypothetically be a suitable method to reduce injury rate.
Thirty male amateur ice hockey players participated in this study. They were divided into two cross-over groups (Group A and Group B). EMS sessions were carried out once a week for 12 weeks for each group with a subsequent 4 week EMS pause. The sessions consisted of 20 min electromyostimulation with 150 contractions (4 s duration, 85 Hz). Shot speed of slap shot was measured with Sportradar 1503. Jumping ability was determined with a ground reaction force platform (GRFP). Sprint time for 10 m skate was recorded using an infrared photo sensor. Isokinetic force of the knee extensor muscle was detected with Isomed 2000 at two different angular velocities (60 and 300°/s) and the subjective performance was collected using a questionnaire.
After 12 weeks of WB-EMS training jumping power increased significantly for the WB-EMS groups by 5.15%, 10 m skating time decreased significantly by 5%, and maximum isokinetic force at 300°/s increased significantly by 7% (all < 0.05). In contrast post training shot speed showed no significant change. Isokinetic torque at 60°/s and vertical jump height were collected as secondary variables and showed increases of 5.45 and 15.15%, respectively. After finishing the WB-EMS and continuing the normal training, it was shown that the training effect regressed.
This study demonstrated that WB-EMS training significantly decreased 10 m skating time and increased jumping power and maximum isokinetic force at 300°/s. We conclude that with additional WB-EMS training, an increase in performance might also be achieved for athletes in lower leagues. Due to the higher training potential of leisure athletes, the effect is probably even more pronounced than would be expected for competitive athletes.
本研究旨在探讨长期全身肌电刺激(WB - EMS)训练结合标准冰球训练对以下方面的影响:射门速度、反向纵跳(CMJ)高度和功率、10米短跑、膝关节伸肌在60°/秒和300°/秒时的等速最大力量以及主观表现。进一步目的是检查竞技状态是否会影响对WB - EMS的反应程度,以及WB - EMS假设是否是降低受伤率的合适方法。
30名男性业余冰球运动员参与本研究。他们被分为两个交叉组(A组和B组)。每组每周进行一次EMS训练,共12周,随后有4周的EMS暂停期。训练包括20分钟的肌电刺激,150次收缩(持续4秒,85赫兹)。用Sportradar 1503测量抽射的射门速度。用地面反作用力平台(GRFP)测定跳跃能力。用红外光电传感器记录10米滑冰的冲刺时间。用Isomed 2000在两个不同角速度(60°/秒和300°/秒)下检测膝关节伸肌的等速力量,并通过问卷收集主观表现。
经过12周的WB - EMS训练,WB - EMS组的跳跃功率显著增加5.15%,10米滑冰时间显著减少5%,300°/秒时的最大等速力量显著增加7%(均P < 0.05)。相比之下,训练后的射门速度没有显著变化。60°/秒时的等速扭矩和垂直跳跃高度作为次要变量收集,分别增加了5.45%和15.15%。完成WB - EMS训练并继续正常训练后,训练效果出现消退。
本研究表明,WB - EMS训练显著缩短了10米滑冰时间,增加了跳跃功率和300°/秒时的最大等速力量。我们得出结论,对于低级别联赛的运动员,额外的WB - EMS训练也可能提高成绩。由于休闲运动员的训练潜力更高,其效果可能比竞技运动员预期的更显著。
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