School of Human Sciences (Exercise and Sport Sciences), The University of Western Australia, Australia.
Department of Health Professions, Faculty of Medicine and Health Sciences, Macquarie University, Australia.
J Sci Med Sport. 2018 May;21(5):508-512. doi: 10.1016/j.jsams.2017.07.007. Epub 2017 Jul 14.
To investigate how knee kinematics, kinetics and loading changes during sidestepping tasks following a prolonged running protocol performed in a laboratory setting.
All participants performed sidestepping, and crossover cutting tasks in a randomised order before and after a 60min running protocol on a non-motorised treadmill that simulated an AF game.
Eight healthy male participants who partook in semi-professional and amateur Australian Football undertook a series of straight line runs, sidestepping (SS), and crossover cutting (XO) tasks before and after a simulated game of Australian football. Kinematic data were analysed at initial foot contact of the SS and XO manoeuvres and kinetic data were analysed during the weight acceptance phase of the stance.
The knee was significantly more flexed at foot contact following fatigue compared to pre-fatigue states. Fatigue was also a factor contributing to significant increases in internal knee extension moments. Significant differences were also observed between SS and XO trials with flexion/extension moments, with notable differences in varus/valgus and internal/external rotation moments.
Acute angles of knee flexion at foot strike in a fatigued state may place the joint at an increased risk of injury. Increases in knee extension moments in the fatigued state suggests the knee joint must withstand significantly high stresses once fatigued.
研究在实验室环境下进行长时间跑步后,侧步和交叉切割任务中膝关节运动学、动力学和负荷的变化。
所有参与者在非动力跑步机上模拟美式足球比赛进行 60 分钟的跑步后,按照随机顺序先进行侧步和交叉切割任务,然后再进行侧步和交叉切割任务。
8 名参加半职业和业余美式足球的健康男性参与者在模拟美式足球比赛前后进行了一系列直线跑动、侧步(SS)和交叉切割(XO)任务。在 SS 和 XO 动作的初始足部接触时分析运动学数据,在支撑阶段的重量承受阶段分析动力学数据。
与疲劳前状态相比,疲劳后足部接触时膝关节明显更弯曲。疲劳也是导致膝关节内伸力矩显著增加的一个因素。SS 和 XO 试验之间的屈曲/伸展力矩也存在显著差异,内/外旋转力矩也存在显著差异。
疲劳状态下足部触地时膝关节的弯曲角度较大,可能会增加关节受伤的风险。疲劳状态下膝关节伸肌力矩的增加表明,一旦疲劳,膝关节必须承受显著更高的应力。
