Bezodis Neil Edward, Salo Aki Ilkka Tapio, Trewartha Grant
a Sport, Health and Exercise Science , University of Bath , Bath , UK.
J Sports Sci. 2014;32(8):738-46. doi: 10.1080/02640414.2013.849000. Epub 2013 Dec 20.
This study analysed the first stance phase joint kinetics of three elite sprinters to improve the understanding of technique and investigate how individual differences in technique could influence the resulting levels of performance. Force (1000 Hz) and video (200 Hz) data were collected and resultant moments, power and work at the stance leg metatarsal-phalangeal (MTP), ankle, knee and hip joints were calculated. The MTP and ankle joints both exhibited resultant plantarflexor moments throughout stance. Whilst the ankle joint generated up to four times more energy than it absorbed, the MTP joint was primarily an energy absorber. Knee extensor resultant moments and power were produced throughout the majority of stance, and the best-performing sprinter generated double and four times the amount of knee joint energy compared to the other two sprinters. The hip joint extended throughout stance. Positive hip extensor energy was generated during early stance before energy was absorbed at the hip as the resultant moment became flexor-dominant towards toe-off. The generation of energy at the ankle appears to be of greater importance than in later phases of a sprint, whilst knee joint energy generation may be vital for early acceleration and is potentially facilitated by favourable kinematics at touchdown.
本研究分析了三名优秀短跑运动员在首个支撑阶段的关节动力学,以增进对技术的理解,并研究技术上的个体差异如何影响最终的成绩水平。收集了力(1000赫兹)和视频(200赫兹)数据,并计算了支撑腿跖趾(MTP)、踝关节、膝关节和髋关节的合力矩、功率和功。在整个支撑阶段,MTP关节和踝关节均表现出跖屈合力矩。虽然踝关节产生的能量比吸收的能量多四倍,但MTP关节主要是能量吸收器。在大部分支撑阶段都产生了膝关节伸肌合力矩和功率,表现最佳的短跑运动员产生的膝关节能量是其他两名短跑运动员的两倍和四倍。髋关节在整个支撑阶段伸展。在支撑早期产生了正向髋关节伸肌能量,之后随着合力矩在离地时变为以屈肌为主,髋关节吸收能量。踝关节产生能量似乎比短跑后期阶段更为重要,而膝关节产生能量对于早期加速可能至关重要,并且在着地时良好的运动学可能有助于此。
