University of Lyon, Inter-university Laboratory of Motor Biology - EA, Lyon, France.
School of Sport Science, Exercise and Health, The University of Western Australia, Perth, Australia.
Sports Biomech. 2020 Apr;19(2):212-226. doi: 10.1080/14763141.2018.1461915. Epub 2018 May 16.
The topspin tennis forehand drive has become a feature of modern game; yet, as compared to the serve, there has been little research analysing its kinematics. This is surprising given that there is considerably more variation in the execution of the topspin forehand. Our study is the first to examine the amplitude of upper limb joint rotations that produce topspin in the forehand drives of 14 male competitive tennis players using video-based motion analysis. Humerothoracic abduction ()/adduction (+), extension () /flexion (+), and external ()/internal (+) rotation, elbow extension () /flexion (+) and forearm supination ()/pronation (+), wrist extension ()/flexion (+) and ulnar ()/radial () deviation were computed. Our findings revealed that the generation of topspin demanded more humeral extension and forearm pronation but less humeral internal rotation angular displacement during the forwardswing. The follow-through phase of the topspin shot was characterised by greater humeral internal rotation and forearm pronation, and reduced humeral horizontal adduction when compared to the flat shot. This study provides practitioners with a better understanding of the upper limb kinematics associated with the topspin tennis forehand drive production to help guide skill acquisition interventions and physical training.
上旋网球正手抽球已经成为现代网球运动的一个特点;然而,与发球相比,对其运动学的研究却很少。考虑到上旋正手的执行方式有很大的变化,这令人惊讶。本研究首次使用基于视频的运动分析,检查了 14 名男性竞技网球运动员在正手抽球中上肢关节旋转幅度产生上旋。计算了肩胸外展(/内收(+)、伸展(/弯曲(+)和外旋(/内旋(+)、肘部伸展(/弯曲(+)和前臂旋前(/旋后(+)、手腕伸展(/弯曲(+)和尺侧(/桡侧(+)偏斜。我们的研究结果表明,上旋的产生需要在前挥阶段更多地伸展肱骨和旋前前臂,但需要减少肱骨内旋的角位移。与平击球相比,上旋击球的随挥阶段的特点是更大的肱骨内旋和前臂旋前,以及减少肱骨水平内收。这项研究为教练提供了更好地了解与上旋网球正手抽球产生相关的上肢运动学的理解,以帮助指导技能习得干预和体能训练。
