Introduction: Anterior cruciate ligament (ACL) injury was one of the common sport-related knee injuries. The previous study found that female athletes were 2 to 4 times higher prevalence of ACL injury than male athletes. ACL injury usually occurred at sudden stop and deceleration phase during single leg stance where hamstrings acts to stabilized the knee joint. The common warm up was dynamic stretching and the previous study found that it could enhance muscle activation and strength. Therefore, using dynamic stretching to increase hamstrings activation or strength might be one of the possible method to prevent ACL injury. The purpose of this study was to investigate the influence of hamstrings dynamic stretching on lower extremity joint biomechanical parameters of female athletes during side-cutting tasks. Methods: There were 10 healthy female collegiate athletes participated in this study. Participants must have experience of side-cutting and hamstrings dynamic stretching. During the experiment, participants were asked to perform side-cutting for pretest after that rest to no fatigue, and then perform hamstrings dynamic stretching, finally perform side-cutting for posttest. Biomechanical data were collected synchronously by 8 VICON cameras (250 Hz), 1 Kistler force plate (1000 Hz) and 5 Delsys wireless EMG sensors (2000 Hz) during side-cutting tasks. One-way ANOVA with repeated measures was used to compare each biomechanical parameter before and after hamstrings dynamic stretching. Results: Participants showed significantly greater knee flexor (semitendinosus, biceps femoris and gastrocnemius) activation and muscle co-contraction ratio (H/Q ratio) after hamstrings dynamic stretching that caused vertical ground reaction force and peak knee varus moment decreasing significantly. Although knee angles were no significant difference after hamstrings dynamic stretching, but ankle sagittal range of motion had an increasing trend. Conclusion: Dynamic stretching could increase the activation of the knee flexor, and improved shock absorption of the knee joint and ankle joint during landing phase which could decrease ground reaction force to reduce the knee moment. Therefore, it might promote the prevention of anterior cruciate ligament injury.