Purpose: The purpose of this study was to examine the changes in the impact force, strike pattern, and joint angles of running following fatiguing exercise. Methods: 10 male college students from the physical education department running on a 10-m long straight runway prior to and following fatigue. Two force plates and eight optical cameras were synchronized to the collected data. Ground reaction forces and lower extremity kinematic data were collected from The Motion Monitor software. The custom Excel and Matlab program was used to calculate the data process of strike index. Variables were analyzed using a repeated measures t-test to examine the significant differences between the pre- and post-fatigue during the running stance phase. The statistical significance level was α = .05. Results: No significant statistical differences were found for the running velocity, contact time, strike length, strike frequency, and ground reaction forces before and after the fatiguing exercise. The post-fatigue knee flexion angles at the foot-ground contact increased and, accordingly, the peak knee abduction angles also increased during landing. In addition, the foot strike pattern indices at foot-ground contact decreased. Conclusion: After the fatiguing exercise, participants increased the knee flexion angles at the foot-ground contact to compensate for the ground reaction force. The peak knee abduction angles post-fatigue increased during landing, which may be related to the risk of injury associated with running. Finally, the contact area on the foot shifted towards the rear foot post-fatigue; hence, landing pattern may possibly be used as an indicator for fatigue.