Journal
JOURNAL OF SPORTS SCIENCES
Volume 39, Issue 21, Pages 2485-2492Publisher
TAYLOR & FRANCIS LTD
DOI: 10.1080/02640414.2021.1939981
Keywords
Pedalling; ankle; electromyography; joint kinematics; mechanical effectiveness; muscle
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This study investigates the importance of muscle activation in cycling, finding that some cyclists utilize a combination of monomodal and bimodal strategies for improved mechanical effectiveness. Understanding the functional implications of activation strategies can assist researchers and practitioners in interpreting cycling biomechanics data more effectively. Further research is needed to explore the factors that mediate transitions between activation strategies within the combined groups.
Key areas of sports science research investigate the functional role of muscle activations within human movement. Even within relatively constrained movements like cycling, significant variability is observed in muscle activation strategies. Particular attention has been given to particular muscles, despite Soleus and Tibialis anterior muscles presenting a potentially functionally relevant split between monomodal and bimodal activation strategies. The current study (N = 54) investigated the prevalence and functional implications of these different strategies and identified, in addition to monomodal [Soleus: N = 24, Tibialis anterior: N = 7] and bimodal [Soleus: N = 12, Tibialis anterior: N = 31] strategies, a third group switching between strategies [Soleus: N = 16, Tibialis anterior: N = 13]. The combined Soleus group showed significantly higher Index of Force Effectiveness, lower negative work and lower radial forces than the bimodal group. Furthermore, bimodal Soleus strategies produced a period of significantly greater plantar flexion during the upstroke. No differences were found between the Tibialis anterior groups. These data show an identifiable group of cyclists utilising a combination of monomodal and bimodal strategies potentially benefiting mechanical effectiveness. Awareness of such functional implications can aid researchers and practitioners when interpreting cycling biomechanics data or intervention responses. Further research should investigate the factors that mediate transitions between activation strategies within the combined groups.
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