References
- Bhaskaran, D., Wortley, M., Chen, Q., Milner, C. E., Fitzhugh, E. C., & Zhang, S. (2015). Effect of a combined inversion and plantarflexion surface on ankle kinematics and EMG activities in landing. Journal of Sport and Health Science, 4, 377–383.
- Blackburn, J. T., & Padua, D. A. (2008). Influence of trunk flexion on hip and knee joint kinematics during a controlled drop landing. Clinical Biomechanics, 23, 313–319.
- Boden, B. P., Dean, G. S., Feagin Jr, J. A., & Garrett Jr, W. E. (2000). Mechanisms of anterior cruciate ligament injury. Orthopedics, 23, 573–578.
- Chen, Q., Wortley, M., Bhaskaran, D., Milner, C. E., & Zhang, S. (2012). Is the inverted surface landing more suitable in evaluating ankle braces and ankle inversion perturbation? Clinical Journal of Sport Medicine, 22, 214–220.
- de Loes, M., Dahlstedt, L. J., & Thomee, R. (2000). A 7-year study on risks and costs of knee injuries in male and female youth participants in 12 sports. Scandanavian Journal of Medicine & Science in Sports, 10, 90–97.
- Devita, P., & Skelly, W. A. (1992). Effect of landing stiffness on joint kinetics and energetics in the lower extremity. Medicine & Science in Sports & Exercise, 24, 108–115.
- Fagenbaum, R., & Darling, W. G. (2003). Jump landing strategies in male and female college athletes and the implications of such strategies for anterior cruciate ligament injury. The American Journal of Sports Medicine, 31, 233–240.
- Fleming, B. C., Beynnon, B. D., Renstrom, P. A., Johnson, R. J., Nichols, C. E., Peura, G. D., & Uh, B. S. (1999). The strain behavior of the anterior cruciate ligament during stair climbing: an in vivo study. Arthroscopy, 15, 185–191.
- Fukuda, Y., Woo, S. L., Loh, J. C., Tsuda, E., Tang, P., McMahon, P. J., & Debski, R. E. (2003). A quantitative analysis of valgus torque on the ACL: A human cadaveric study. Journal of Orthopaedic Research, 21, 1107–1112.
- Garrick, J. G. (1977). The frequency of injury, mechanism of injury, and epidemiology of ankle sprains. The American Journal of Sports Medicine, 5, 241–242.
- Hagins, M., Pappas, E., Kremenic, I., Orishimo, K. F., & Rundle, A. (2007). The effect of an inclined landing surface on biomechanical variables during a jumping task. Clinical Biomechanics, 22, 1030–1036.
- Heijne, A., Fleming, B. C., Renstrom, P. A., Peura, G. D., Beynnon, B. D., & Werner, S. (2004). Strain on the anterior cruciate ligament during closed kinetic chain exercises. Medicine & Science in Sports & Exercise, 36, 935–941.
- Hewett, T. E., Lindenfeld, T. N., Riccobene, J. V., & Noyes, F. R. (1999). The effect of neuromuscular training on the incidence of knee injury in female athletes. A prospective study. The American Journal of Sports Medicine, 27, 699–706.
- Hewett, T. E., Myer, G. D., & Ford, K. R. (2006). Anterior cruciate ligament injuries in female athletes: Part 1, mechanisms and risk factors. The American Journal of Sports Medicine, 34, 299–311.
- Kofotolis, N., & Kellis, E. (2007). Ankle sprain injuries: A 2-year prospective cohort study in female Greek professional basketball players. Journal of Athletic Training, 42, 388–394.
- LaStayo, P. C., Woolf, J. M., Lewek, M. D., Snyder-Mackler, L., Reich, T., & Lindstedt, S. L. (2003). Eccentric muscle contractions: Their contribution to injury, prevention, rehabilitation, and sport. Journal of Orthopaedic & Sports Physical Therapy, 33, 557–571.
- Markolf, K. L., Burchfield, D. M., Shapiro, M. M., Shepard, M. F., Finerman, G. A., & Slauterbeck, J. L. (1995). Combined knee loading states that generate high anterior cruciate ligament forces. Journal of Orthopaedic Research, 13, 930–935.
- McLean, S. G., Fellin, R. E., Suedekum, N., Calabrese, G., Passerallo, A., & Joy, S. (2007). Impact of fatigue on gender-based high-risk landing strategies. Medicine & Science in Sports & Exercise, 39, 502–514.
- McNair, P. J., Marshall, R. N., & Matheson, J. A. (1990). Important features associated with acute anterior cruciate ligament injury. New Zealand Medical Journal, 103, 537–539.
- Myer, G. D., Ford, K. R., & Hewett, T. E. (2005). The effects of gender on quadriceps muscle activation strategies during a maneuver that mimics a high ACL injury risk position. Journal of Electromyography and Kinesiology, 15, 181–189.
- Nagano, Y., Ida, H., Akai, M., & Fukubayashi, T. (2009). Biomechanical characteristics of the knee joint in female athletes during tasks associated with anterior cruciate ligament injury. The Knee, 16, 153–158.
- Pollard, C. D., Sigward, S. M., & Powers, C. M. (2010). Limited hip and knee flexion during landing is associated with increased frontal plane knee motion and moments. Clinical Biomechanics, 25, 142–146.
- Renstrom, P., Arms, S. W., Stanwyck, T. S., Johnson, R. J., & Pope, M. H. (1986). Strain within the anterior cruciate ligament during hamstring and quadriceps activity. The American Journal of Sports Medicine, 14, 83–87.
- Santello, M., McDonagh, M. J., & Challis, J. H. (2001). Visual and non-visual control of landing movements in humans. The Journal of Physiology, 537, 313–327.
- Wright, I. C., Neptune, R. R., van den Bogert, A. J., & Nigg, B. M. (2000). The influence of foot positioning on ankle sprains. Journal of Biomechanics, 33, 513–519.
- Wu, X., Zhang, S., Liu, Y., Zhang, D., & Xie, B. (2013). Do knee concentric and eccentric strength and sagittal-plane knee joint biomechanics differ between jumpers and non-jumpers in landing? Human Movement Science, 32, 1299–1309.
- Yeow, C. H., Lee, P. V., & Goh, J. C. (2010). Sagittal knee joint kinematics and energetics in response to different landing heights and techniques. The Knee, 17, 127–131.
- Yu, B., Lin, C. F., & Garrett, W. E. (2006). Lower extremity biomechanics during the landing of a stop-jump task. Clinical Biomechanics, 21, 297–305.
- Zhang, S. N., Bates, B. T., & Dufek, J. S. (2000). Contributions of lower extremity joints to energy dissipation during landings. Medicine & Science in Sports & Exercise, 32, 812–819.