Mechanisms for Noncontact Anterior Cruciate Ligament Injuries Knee Joint Kinematics in 10 Injury Situations From Female Team Handball and Basketball

Background: The mechanism for noncontact anterior cruciate ligament injury is still a matter of controversy. Video analysis of injury tapes is the only method available to extract biomechanical information from actual anterior cruciate ligament injury cases. Purpose: This article describes 3-dimensional knee joint kinematics in anterior cruciate ligament injury situations using a model-based image-matching technique. Study Design: Case series; Level of evidence, 4. Methods: Ten anterior cruciate ligament injury video sequences from women's handball and basketball were analyzed using the model-based image-matching method. Results: The mean knee flexion angle among the 10 cases was 23 degrees (range, 11 degrees-30 degrees) at initial contact (IC) and had increased by 24 degrees (95% confidence interval [CI], 19 degrees-29 degrees) within the following 40 milliseconds. The mean valgus angle was neutral (range, -2 degrees to 3 degrees) at IC, but had increased by 12 degrees (95% CI, 10 degrees-13 degrees) 40 milliseconds later. The knee was externally rotated 5 degrees (range, -5 degrees to 12 degrees) at IC, but rotated internally by 8 degrees (95% CI, 2 degrees-14 degrees) during the first 40 milliseconds, followed by external rotation of 17 degrees (95% CI, 13 degrees-22 degrees). The mean peak vertical ground-reaction force was 3.2 times body weight (95% CI, 2.7-3.7), and occurred at 40 milliseconds after IC (range, 0-83). Conclusion: Based on when the sudden changes in joint angular motion and the peak vertical ground-reaction force occurred, it is likely that the anterior cruciate ligament injury occurred approximately 40 milliseconds after IC. The kinematic patterns were surprisingly consistent among the 10 cases. All players had immediate valgus motion within 40 milliseconds after IC. Moreover, the tibia rotated internally during the first 40 milliseconds and then external rotation was observed, possibly after the anterior cruciate ligament had torn. These results suggest that valgus loading is a contributing factor in the anterior cruciate ligament injury mechanism and that internal tibial rotation is coupled with valgus motion. Prevention programs should focus on acquiring a good cutting and landing technique with knee flexion and without valgus loading of the knee.