Mohandhas Badri R, Makaram Navnit, Drew Tim S, Wang Weijie, Arnold Graham P, Abboud Rami J
Institute of Motion Analysis and Research (IMAR), TORT Centre, Ninewells Hospital and Medical School, University of Dundee, UK.
Shoulder Elbow. 2016 Jul;8(3):184-91. doi: 10.1177/1758573216640201. Epub 2016 Apr 6.
Lateral epicondylitis (LE) occurs in almost half of all tennis players. Racket-string tension is considered to be an important factor influencing the development of LE. No literature yet exists that substantiates how string-tension affects force transmission to the elbow, as implicated in LE development. We establish a quantitative relationship between string-tension and elbow loading, analyzing tennis strokes using rackets with varying string-tensions.
Twenty recreational tennis players simulated backhand tennis strokes using three rackets strung at tensions of 200 N, 222 N and 245 N. Accelerometers recorded accelerations at the elbow, wrist and racket handle. Average peak acceleration was determined to correlate string-tension with elbow loading.
Statistically significant differences (p < 0.05) were observed when average peak acceleration at the elbow at 200 N string-tension (acceleration of 5.58 m/s(2)) was compared with that at 222 N tension (acceleration of 6.83 m/s(2)) and 245 N tension (acceleration of 7.45 m/s(2)). The 200 N racket induced the least acceleration at the elbow.
Although parameters determining force transmission to the elbow during a tennis stroke are complex, the present study was able to control these parameters, isolating the effect of string-tension. Lower string-tensions transmit less force to the elbow in backhand strokes. Reducing string-tension should be considered favourably with respect to reducing the risk of developing LE.
外侧上髁炎(LE)在几乎一半的网球运动员中出现。球拍线张力被认为是影响LE发生发展的一个重要因素。目前尚无文献证实线张力如何影响向肘部的力传递,而这与LE的发生发展有关。我们通过使用不同线张力的球拍分析网球击球动作,建立线张力与肘部负荷之间的定量关系。
20名业余网球运动员使用线张力分别为200 N、222 N和245 N的三种球拍模拟反手网球击球动作。加速度计记录肘部、手腕和球拍手柄处的加速度。确定平均峰值加速度以关联线张力与肘部负荷。
将线张力为200 N时肘部的平均峰值加速度(加速度为5.58 m/s²)与222 N张力时(加速度为6.83 m/s²)和245 N张力时(加速度为7.45 m/s²)进行比较,观察到统计学上的显著差异(p < 0.05)。200 N的球拍在肘部产生的加速度最小。
尽管在网球击球过程中决定向肘部力传递的参数很复杂,但本研究能够控制这些参数,分离出线张力的影响。在反手击球中,较低的线张力向肘部传递的力较小。就降低发生LE的风险而言,应考虑降低线张力。