Maintaining shoulder stability requires good neuromuscular control. Imbalances in shoulder internal and external rotator strength may increase the risk of shoulder injuries in overhead athletes, and the compromised fatigue resistance of the external rotators may worsen this imbalance during sports activities. Additionally, poor scapular neuromuscular control is associated with shoulder problems, such as shoulder impingement syndrome. Previous research has shown that individuals with shoulder impingement syndrome exhibit poor scapular motion control and altered corticomotor control. Poor scapular motion control, pain, functional impairment, and changes in corticomotor control interact to form a vicious cycle. Various treatments have been attempted to improve neuromuscular control, including taping. Most past studies have focused on the efficacy of rigid tape and kinesio tape, while dynamic tape has gained popularity in recent years. Due to its material properties, dynamic tape is theoretically able to absorb loads, provide force, and correct movements. However, there is currently a lack of evidence supporting the effectiveness of dynamic tape. No research has yet explored whether dynamic tape can provide force to increase muscle strength and reduce fatigue or whether its movement correction functions can improve neuromuscular control and corticomotor control. Therefore, this project plans to conduct an experiment to investigate the effects of dynamic tape on external rotator strength and fatigue in recreational overhead athletes, as well as its impact on neuromuscular control and corticomotor excitability in recreational overhead athletes with shoulder impingement syndrome. In the experiment, 37 healthy recreational overhead athletes will participate in three testing sessions spaced one week apart, receiving kinesio tape, dynamic tape, and sham tape. After taping, they will perform fatigue-inducing activities. Isokinetic strength of internal and external rotators will be measured before taping, after taping, and after fatigue-inducing activities to observe the effects of dynamic tape on muscle strength and fatigue compared to kinesio tape and sham tape.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
37
sham
Kinesio taping will be applied to correct shoulder posture and facilitate shoulder external rotators
Dynamic tape will be applied to correct shoulder alignment and assist concentric contraction and eccentric control of external rotators
National Yang Ming Chiao Tung University
Taipei, Taipei city, Taiwan
Shoulder isokinetic muscle strength
Shoulder isokinetic internal and external muscle strength will be measured by dynamometer in 2 modes (concentric/concentric, concentric/eccentric) at 2 angular velocities (60°/s \& 240°/s), 1 set of 5 repetitions for each angular velocities. Shoulder isokinetic muscle strength will be normalized by body weight (BW) and described with peak torque/BW (N·m·kg-1).
Time frame: Change from baseline shoulder isokinetic muscle strength after application of taping (about 4 minutes) and execution of a fatigue protocol (about 5 minutes)
Median frequency
The median frequency calculated from electromyographic data of shoulder internal and external rotators. The percentage change in median frequency will be calculated and will be described with percentage (%)
Time frame: Change from baseline shoulder isokinetic muscle strength after execution of a fatigue protocol (about 5 minutes)
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