1. Effects of 16 weeks of plyometric training on knee biomechanics during the landing phase in athletes.
- Author
-
Bocheng, Chen, Ziyan, Ye, Jiaxin, Wu, Wang, Guoxiang, and Tiancheng, Yu
- Subjects
- *
LEG physiology , *KNEE physiology , *HIP joint physiology , *EXERCISE physiology , *BIOMECHANICS , *WEIGHT-bearing (Orthopedics) , *PLYOMETRICS , *KINEMATICS , *DYNAMICS , *RANDOMIZED controlled trials , *DESCRIPTIVE statistics , *MUSCLE strength , *ROTATIONAL motion , *ABDUCTION (Kinesiology) , *GROUND reaction forces (Biomechanics) , *RANGE of motion of joints - Abstract
This study investigated the effects of plyometric training on lower‐limb muscle strength and knee biomechanical characteristics during the landing phase. Twenty‐four male subjects were recruited for this study with a randomised controlled design. They were randomly divided into a plyometric training group and a traditional training group and underwent training for 16 weeks. Each subject was evaluated every 8 weeks for knee and hip isokinetic muscle strength as well as knee kinematics and kinetics during landing. The results indicated significant group and time interaction effects for knee extension strength (F = 74.942 and p = 0.001), hip extension strength (F = 99.763 and p = 0.000) and hip flexion strength (F = 182.922 and p = 0.000). For landing kinematics, there were significant group main effects for knee flexion angle range (F = 4.429 and p = 0.047), significant time main effects for valgus angle (F = 6.502 and p = 0.011) and significant group and time interaction effects for internal rotation angle range (F = 5.475 and p = 0.008). The group main effect for maximum knee flexion angle was significant (F = 7.534 and p = 0.012), and the group and time interaction effect for maximum internal rotation angle was significant (F = 15.737 and p = 0.001). For landing kinetics, the group main effect of the loading rate was significant (F = 4.576 and p = 0.044). Significant group and time interaction effects were observed for knee extension moment at the moment of maximum vertical ground reaction force (F = 5.095 and p = 0.010) and for abduction moment (F = 8.250 and p = 0.001). These findings suggest that plyometric training leads to greater improvements in hip and knee muscle strength and beneficial changes in knee biomechanics during landing compared to traditional training. Highlights: Plyometric training changes landing biomechanics.Changes help to reduce the risk of ACL injury.Changes from long‐term training are more noticeable. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF