Abstract
The present study investigated whether expertise in fencing influences the onset of postural preparation during the fencing lunge and how it changes under different performance conditions. We also questioned if the onset of feedforward control can be categorized into one of the postural phases: anticipatory or early postural adjustment. Eight elite fencers and nine physical education students performed an attack with a lunge in self-paced and reaction time conditions from three different initial stance widths. The onset of the center of pressure (COP) displacement and EMG activities for the tibialis anterior (TA) of both limbs were recorded. The results show that expertise in fencing delays the onset of the activity of TA of the front leg and the onset of COP displacement during fencing lunge performance in comparison to controls. Additionally, in contrast to the control group, fencers produce typical APA patterns in the activation of TA under different performance conditions, delayed reaction time in comparison to self-initiated lunging, and constant time of APA onset under different widths of stance. According to different times and functions of TA activity and COP displacement in lunging, we propose to address them as anticipatory postural adjustment and early postural adjustment, respectively.
Highlights
The efficient control of body posture is fundamental to skillful sports performance
The results show that the onsets of both tibialis anterior (TA) activity and center of pressure (COP) displacement were earlier in the control group than in fencers, but the differences between groups were significant under simple reaction time (SRT) and choice reaction time (CRT) in TA activity
The onset of both TA activity and COP displacement was influenced by reaction time conditions but not by the width of the initial en garde stance
Summary
The efficient control of body posture is fundamental to skillful sports performance. In fencing, fast and accurate decision-making in changeable combat conditions is considered as one of the key factors for success (Borysiuk and Waskiewicz, 2008). To optimize fencing performance, it is crucial to assess how different performance conditions influence the phase of movement planning in terms of preparing one’s body posture for upcoming action. It was first observed by Belenkiy et al (1967) that during a rapid arm rise in a standing posture, the activation of the postural muscles precedes the onset of the voluntary movement (t0). Such an adjustment is a part of feedforward control and is referred to as anticipatory postural adjustments (APAs). Muscle activation during APA commonly induces the displacement of the center of pressure (COP) in the opposite direction to the direction of forthcoming disturbance (Belenkiy et al, 1967; Cordo and Nashner, 1982)
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